ACTING GLOBALWELDING LOCAL Joining

WA Cored Wires™

Contents

Solutions for the most stringent applications

100% Welding Alloys technology and manufacturingThis catalogue represents a selection of cored wires for joining applications. Welding Alloys standard products for hardfacing, cladding and thermal arc spraying feature in a separate catalogue. We will gladly examine any special request. In fact, each year we receive hundreds of special requests, and as experts in our field we examine them all individually. Please do not hesitate to contact us.

2 3

Introduction Our commitment to quality The real value of the WA Cored Wires

Welding of constructional steels Self-shielded welding - Mild steels Gas-shielded welding - Mild steels Weathering steels Cold tough steels High strength steels Creep resistant steels

24

5

66888

1010

Welding of highly alloyed steels Duplex and superduplex Austenitic stainless steels Heat resistant steels Dissimilar joints and repair welding Welding of nickel alloys and special applications Welding of cast irons

Packaging Operating conditions for TETRA wiresTechnical information Alphabetical Index

1212141820

2224

25262727

Since its foundation in 1966, the Welding Alloys Group, an independent group, has specialised in the manufacture of cored welding wires for cladding applications – 100% produced in our modern factories – 100% our own technology.

WA Joining Technology is a division of the Welding Alloys Group and is devoted exclusively to our range of cored welding wires for joining applications.

Our wide range of non-alloyed, low-alloyed and high-alloyed wires meets or exceeds the most severe metallurgical standards.

A policy of permanent R and D, hand in hand with industrial development, enables us to offer the quality guarantees required by international codes of practice, as exist in the nuclear, petrochemical, offshore, LNG and transport industries.

As a global company, our engineers and technicians are available locally. Technical support and service is provided where it is needed, from international WA Joining specialists.

WA Performance guarantee means we will always recommend the product and service with the highest performance for our customers’ applications.

Joining wires

Welding products and techniques evolve constantly. All descriptions, illustrations and properties given in this catalogue are subject to change and can only be considered as general guidance.

Joining

PA

24 25 Joining

CAST NICI

1.2 to 2.4

CAST NiFe

1.6 to 2.4O

G

G

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISOstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm [MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of cast irons

• FeNi deposit for rebuilding ductile or spheroidal cast iron and for joining cast irons to each other • Reduced heat affected zone (HAZ)• Dissimilar joints between cast irons and steels

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

• NiFe deposit for joining heavy thicknesses of ductile and spheroidal cast iron and for restrained joints• Reduced heat affected zone (HAZ)• Easily machined deposit

C: 0.75Mn: 4.00Si: 0.60Ni: 45.0

C: 1.30Mn: 4.00Si: 0.70Ni: 45.0

1.2 and 1.6

T C NiFe-2

T C NiFe-2

T C NiFe-2

550 340 16

450 300 15

C: 0.50Mn: 2.50Si: 0.50Ni: 60.0

590 400 15

-

-

-

CAST

Shielding gas

Welding positions

Argon + 1-5% O2 (M13)Argon + 2-20% CO2 (M12-M21)

Joining

Thewinningtechnology

The real value of Welding Alloys Cored Wires

Purchase cost is not the only consideration when deciding upon a welding consumable, though it is a strong factor. The choice must include the critical factors of production time, re-working, finishing costs, and associated consumable costs. Welding Alloys manufactures cored welding wires of the highest technological standards, offering constant quality and high productivity, a combination that gives the best overall value and cost control.

Quality • Very clean fusion and very good bead appearance • Virtually no spatter • Deposit soundness comparable to that of electrodes • Low welding energy which limits deformation, while guaranteeing excellent mechanical and metallurgical properties

Flexibility • Various arc welding processes: open-arc, gas shielded, submerged arc • Usable with all types of power sources and with low cost standard gas mixtures • Wide range of welding parameters – all-position welding is much easier than with solid wires • Possibility of purchasing small quantities adapted to particular technical specifications

Performance • High deposit rates (kg/h), around three times greater than with coated electrodes • Optimised arc time • High welding speed • The penetration characteristics allow for work with narrower chamfers, thus reducing the quantity of the weld metal

In view of their technological and economic advantages, cored wires represent a growing share of the welding market. They are specified and approved by constructors and engineers in leading-edge industries, which impose the strictest requirements in terms of quality and productivity.

24 25 Joining

CAST NICI

1.2 to 2.4

CAST NiFe

1.6 to 2.4O

G

G

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISOstandards

Composition- Fe balance

Mechanical properties

KCV[J]

A5[%]

Rm [MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of cast irons

• FeNi deposit for rebuilding ductile or spheroidal cast iron and for joining cast irons to each other • Reduced heat affected zone (HAZ)• Dissimilar joints between cast irons and steels

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

• NiFe deposit for joining heavy thicknesses of ductile and spheroidal cast iron and for restrained joints• Reduced heat affected zone (HAZ)• Easily machined deposit

C: 0.75Mn: 4.00Si: 0.60Ni: 45.0

C: 1.30Mn: 4.00Si: 0.70Ni: 45.0

1.2 and 1.6

T C NiFe-2

T C NiFe-2

T C NiFe-2

550 340 16

450 300 15

C: 0.50Mn: 2.50Si: 0.50Ni: 60.0

590 400 15

-

-

-

CAST

Shielding gas

Welding positions

Argon + 1-5% O2 (M13)Argon + 2-20% CO2 (M12-M21)

Packaging

Standard net weight External Ø Internal Ø WidthEN ISO 544 standard

Plastic reel *Standard net weightExternal Ø Internal ØWidthEN ISO 544 standard

Small plastic spool *Standard net weight External Ø Internal Ø Width

Small metal basket spool

Standard net weightExternal ØInternal ØWidthEN ISO 544 standard

Plastic spool *

Standard net weight External Ø Internal Ø Width EN ISO 544 standard

Metal basket spool

Standard net weight

External Ø Height

Drum

: 15kg: 390mm: 305mm: 90mm

: R 435

: 5kg: 200mm: 51.5mm: 55mm

: S 200

: 5kg: 200mm: 51.5mm: 55mm

: 15kg: 300mm: 51.5mm: 103mm

: S 300

: 15kg: 300mm: 51.5mm

: 330kg

: 595mm: 680mm

: 103mm

: BS 300

Standard net weight External Ø Internal Ø

EN ISO 544 standard

Metal basket reel : 25kg: 410mm: 300mm: 105mm

: B 450

Wire Capacity

DimensionsDiameterHeightFully recyclable cardboard packaging

WA Pack - not shown : 400kg

: 800mm: 950mm

* Manufactured to order on client’s request

4 5

Our commitment to quality

The Welding Alloys Group orientates all its economic and strategic choices with an eye to the future. Our responsibilities are towards our customers, our personnel, and our environment.

The Welding Alloys Group mission is:

“To supply our customers with the most advanced technology, to ensure them long term profit and satisfaction, thanks to our expertise in the field of welding applications.”

The ISO-approved quality assurance system has been in place for the Group wire production units since 1993, and is a fundamental ingredient in achieving our quality objectives.

The daily commitment from all of our employees guarantees the utmost respect for the quality requirements and values that are consistent with this dedication: - Production according to strict procedures, conforming to current standards and customer specifications- Customer service by specialists, allowing the best technical and economic choices to be made- Permanent commitment to customer satisfaction- Team spirit driven by the pride of belonging to a dynamic and innovative group

Research and Development programmes

The success of Welding Alloys cored welding wires is due to their quality and performance. This is closely linked to our commitment to continuous improvement and to our substantial investment in R and D. As a true partner in progress, Welding Alloys collaboratesclosely with customers on their own specific projects. We maintain technological awareness, allowing us to anticipate future needs by proposing welding products suited to new construction steels.

O P E R A T I N G 24/ 7

ISO 9001

BUREAU VERITASCertification

22 23 Joining

Standarddiameters

[mm]

EN ISO standardMaterial No.

ASME / AWS standard

Composition- Ni balance

Mechanical properties

Kv [J]

A5 [%]

Rm [MPa]

ProcessO: open-arc

G: gas-shieldedS: sub-arc Rp 0.2%

[MPa]

Product Name Description and applications Base material

Welding of nickel alloys and special applications

• Basic type wire depositing a 625 type alloy • Conforms to the requirements of the ENiCrMo-3 classification for stick electrodes• Joining and cladding of Ni base alloys of corresponding types • Joining of steels exposed to low temperatures : CrNi (Mo,N) austenitic steels and 5-9% Ni quench-hardening steels• Dissimilar joints between Ni base alloys or to low alloy or stainless steels • Joining of super-austenitic stainless steels • Service temperatures from -196°C to +1100°C

• Joining and cladding of corrosion and heat resistant type 600 nickel alloys• Dissimilar joints between stainless steels and CrMo steels• Joining of heat resistant steels • Joining and repair of steels with limited weldability

• Basic type wire depositing a NiCrFe alloy• Conforms to the requirements of the ENiCrFe-3 classification for stick electrodes• Service temperatures from -196°C to +900°C

(1.4816) NiCr 15Fe, 600 alloys, 600L, 800H

(2.4856) NiCr22Mo9Nb, (2.4858) NiCr21Mo, (1.4876) X10 NiCrAlTi 32-20H, (1.4876) X10 NiCrAlTi 32-21, X8 Ni9; ASTM A 533 Gr1, 625 alloys, 800H

• Basic type wire depositing a NiCr alloy• Reduced Fe content and raised Cr content• Service temperatures from -269°C to over +1000°C

GAMMA 182 1.2 and 1.6

ENi6182

2.4807

ENiCrFe-3

610 380 45 -196oC: 90G

C: 0.010Mn: 6.00Si: 0.30Cr: 17.0Nb: 1.70Fe: 6.00

650 400 40 +20oC: 1001.2 and 1.6G

ENi6082

2.4648

ENiCrFe-2

C: 0.020Mn: 5.00Si: 0.20Cr: 20.0Mo: 1.20Nb: 2.50Fe: 3.00

GAMMA 4648

C: 0.020Mn: 0.40Si: 0.30Cr: 21.0Mo: 9.00Nb: 3.40Fe: 0.40

ENi6625

2.4621

ENiCrMo-3

780 500 40 -196oC: 701.2 and 1.6GGAMMA 625

740 500 30 -196oC: 601.2 and 1.6GGAMMA V 276ENi6276

2.4883

ENiCrMo4T1-4

C: 0.015Mn: 0.60Si: 0.10Cr: 16.0Mo: 0.60W: 4.00Fe: 5.0

FCAWWelding process

GAMMA

Slag

Shielding gas

Basic

Welding positions *

Features

Argon + 5-25% CO2 (M21)

* Please consult us for all-position wires : GAMMA V series

Benefits • Increased productivity, excellent weld penetration and enhanced wetting properties• Meets the most stringent quality requirements

• Optimized basic slag system• Bead appearance identical to that of the latest SMAW electrodes• Produced with strip of the same compositional type as the deposit • X-ray quality crack resistant welds• Tight control of trace elements

(1.4465) X1 CrNiMoN 25-25-2, (1.4563) X1 NiCrMoCu 31-27-4, (1.4577) X5CrNiMoTi25-25, (2.4858) NiCr21Mo, 825 alloys

• Basic type wire depositing a 825 type alloy • Excellent resistance to hot cracking and intergranular corrosion• Joining of alloys of corresponding types • Joining and cladding of lower-alloyed austenitic stainless steels• Service temperatures from -196°C to +350°C • Under-layer with Gamma 4655

C: 0.015Mn: 0.40Si: 0.20Cr: 16.0

Mo: 16.00W: 4.00Fe: 5.0

ENi6276

2.4819

ENiCrMo4T0-4

1.2 and 1.6GGAMMA 276 740 500 30 -196oC: 60

6 7 Joining

SPEEDARC T4 1.0 to 3.2T 38 Z W N 3

E70T-4

SPEEDARC T11

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Mild steels

• Horizontal welding at high deposition rates• Easy arc starting and restarting: simplifies tack welding• Well suited to welding of poorly fitted joints

S275 JR-S235J0G3-S235GH-P255NH-P295GH

S275 JR-S235J0G3-S235GH-P255NH-P295GH-P235 T1&T2- P355T1&T2. ASTM: A36a - A53 all grades, A106 Gr A, B, C, A283 Gr A, B, C, D

• All-position welding under negative polarity DC -• Particularly recommended for fillet welding and lap joints in thin sheet • Very wide range of welding parameters

C: 0.20Mn: 0.55Si: 0.20Al: 1.30

1.2 to 1.6 600 440 25T 42 Z Z N 1

E71T-11

C: 0.10Mn: 0.50Si: 0.30Al: 1.40

610 450 25

-

-

C: 0.020Mn: 0.040Si: 0.40Cr: 21.0Mo: 8.80Nb: 3.20Fe: <1.0

ENi6625

2.4648

ENiCrMo-3 T1-1/-4

1.2 and 1.6GGAMMA V 625 780 510 40 -196oC: 60

6 7 Joining

SPEEDARC T4 1.0 to 3.2T 38 Z W N 3

E70T-4

SPEEDARC T11

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of constructional steels

Mild steels

• Horizontal welding at high deposition rates• Easy arc starting and restarting: simplifies tack welding• Well suited to welding of poorly fitted joints

S275 JR-S235J0G3-S235GH-P255NH-P295GH

• All-position welding under negative polarity DC• Particularly recommended for fillet welding and lap joints in thin sheet • Very wide range of welding parameters

C: 0.20Mn: 0.55Si: 0.20Al: 1.30

1.2 to 1.6 600 440 25T 42 Z Z N 1

E71T-11

C: 0.10Mn: 0.50Si: 0.30Al: 1.40

610 450 25

-

-

Self shielded welding

ROBOFIL

Coppered tubular cored wire

Product name: ROBOFIL X XXX R: Rutile M: Metal cored B: Basic

Argon +5-25% CO2 (M21) Rutile: Metal cored:

Basic:

Description

Slag

Shielding gas (G)

Welding positions All positions

All positions

SPEEDARC *

Uncoppered cored wire with a seam

No gas

T4 type:

T11 type:

* Features for SPEEDARC wires presented in this catalogue

By courtesy of SICES Spa

22 23 Joining

GAMMA 182 1.2 and 1.6

ENi6182 *

2.4807

ENiCrFe-3 *

Standarddiameters

[mm]

EN ISO standardMaterial No.

ASME / AWS standard

Composition- Ni balance

Mechanical properties

KCV [J]

A5 [%]

Rm [MPa]

ProcessO: open-arc

G: gas-shieldedS: sub-arc Rp 0.2%

[MPa]

Product Name Description and applications Base material

Welding of nickel alloys and special applications

• Basic type wire depositing a 625 type alloy • Conforms to the requirements of the ENiCrMo-3 classification for stick electrodes• Joining and cladding of Ni base alloys of corresponding types • Joining of steels exposed to low temperatures : CrNi (Mo,N) austenitic steels and 5-9% Ni quench-hardening steels• Dissimilar joints between Ni base alloys or to low alloy or stainless steels • Joining of super-austenitic stainless steels • Service temperatures from -196°C to +1100°C

• Joining and cladding of corrosion and heat resistant type 600 nickel alloys• Dissimilar joints between stainless steels and CrMo steels• Joining of heat resistant steels • Joining and repair of steels with limited weldability

• Basic type wire depositing a NiCrFe alloy• Conforms to the requirements of the ENiCrFe-3 classification for stick electrodes• Service temperatures from -196°C to +900°C

(1.4816) NiCr 15Fe, 600 alloys, 600L, 800H

(2.4856) NiCr22Mo9Nb, (2.4858) NiCr21Mo, (1.4876) X10 NiCrAlTi 32-20H, (1.4876) X10 NiCrAlTi 32-21, X8 Ni9; ASTM A 533 Gr1, 625 alloys, 800H

• Basic type wire depositing a NiCr alloy• Reduced Fe content and raised Cr content• Service temperatures from -269°C to over +1000°C650 400 40 +20oC: 100

610 380 45 -196oC: 90

1.2 and 1.6

G

G

C: 0.010Mn: 6.00Si: 0.30Cr: 17.0Nb: 1.70Fe: 6.00

ENi6082 *

2.4648

ENiCrFe-2*

C: 0.020Mn: 5.00Si: 0.20Cr: 20.0Mo: 1.20Nb: 2.50Fe: 3.00

ENi6625 *

2.4621

ENiCrMo-3 *

C: 0.020Mn: 0.40Si: 0.30Cr: 21.0Mo: 9.00Nb: 3.40Fe: 0.40

GAMMA 4648

780 500 40 -196oC: 701.2 and 1.6G

600 390 30 +20oC: 110

GAMMA 625

ENi6625*

2.4648

ENiCrMo-3 T1-1/-4

C: 0.020Mn: 0.040Si: 0.40Cr: 21.0Mo: 8.80Nb: 3.20Fe: <1.0

1.2 and 1.6GGAMMA V 625

1.2 and 1.6GGAMMA 825ENi8065 *

2.4656

ENiFeCr-1 *

C: 0.020Mn: 2.00Si: 0.30Cr: 22.5Mo: 3.00Cu: 1.60Fe: 28.0Ti: 0.70

FCAWWelding process

GAMMA

Slag

Shielding gas

Basic

Welding positions *

Features

Argon + 5-25% CO2 (M21)

* Please consult us for all-position wires : GAMMA V series

Benefits • Increased productivity, excellent weld penetration and enhanced wetting properties• Meets the most stringent quality requirements

• Optimized basic slag system• Bead appearance identical to that of the latest SMAW electrodes• Produced with strip of the same compositional type as the deposit • X-ray quality crack resistant welds• Tight control of trace elements STELLOY NI520

STELLOY CCO

TNi4

STELLOY C TNi2

TNi2

Complementary nickel base wires for repair and maintenance are presented in the hardfacing catalogue.

Product name EN ISO 14700 standard

• Basic type wire depositing a 825 type alloy • Excellent resistance to hot cracking and intergranular corrosion• Joining of alloys of corresponding types • Joining and cladding of lower-alloyed austenitic stainless steels• Service temperatures from -196°C to +350°C • Under-layer with Gamma 4655

* No AWS or EN ISO classifications is available for Ni-base cored wires. Equivalent classifications for stick electrodes and/or solid wires are given.

780 510 40 -196oC: 60 • Special flux cored nickel-based wire for gas shielded arc welding• Latest generation basic slag quality guarantees optimum metallurgical quality and attractive welder appeal• Meets the NiCrMo-4 requirements• Together with enhanced productivity, GAMMA 276 offers many other advantages compared to solid wires improved weldability, almost no spatter, better arc stability, enhanced wetting properties, better bead aspect and shape, and use of classical M21 gas mixtures (2.4819) NiMo 16Cr15W (1.5680) X12 Ni5

/12 Ni 19 (1.5662) X8 Ni 9

20 21 Joining

TETRA S 1.2 to 1.6 T 18 8 Mn R M 3 (C3)E307T0-1/-4 *

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Type Rp 0.2% [MPa]

Product name Description and applications

Welding of highly alloyed steels

• Austeno-ferritic deposit in over-alloyed CrNi steel - type 309L, with optimised ferrite content for joining dissimilar metals• Joining of steels with similar compositions and joining carbon steels to stainless steels.• Buffering before cladding• Service temperatures from -60°C to +350°C

• Austenitic deposit in CrNiMo steel –modified type 308Mo, offering high mechanical strength • Fabrication of armoured vehicles, joining of steels with high yield points and limited weldability, dissimilar joints • High resistance to hot cracking• Service temperatures from -60°C to +300°C

• Work-hardening austenitic deposit in CrNiMn steel – modified type 307• Dissimilar joints, welding of steels of unknown types, armouring steels, buffering • Joining of 14% Mn austenitic steels • Service temperatures from -120°C to +300°C

710 530 30 +20oC: 50

650 450 40 +20oC: 90

630 480 40 +20oC: 50

630 480 40 +20oC: 50

1.2

1.2 to 2.4

1.2 to 1.6

G

G

G/S

G

307

307

307

20 9 3

T 18 8 Mn P M 1 (C1)E307T1-1/-4 *

T 18 8 Mn M M 1EC307 *

T 20 10 3 R M 3 (C3)E308MoT0-1/-4 *

C: 0.10Mn: 6.00Si: 0.70Cr: 19.0Ni: 9.00

TETRA S 1.2 to 1.6 T 19 12 3 Nb R M 3 (C3)E309LNbT0-1/-4

TETRA V

TUBE S

• Austeno-ferritic deposit – type 309 LNb• Joining of steels with similar compositions and joining carbon steels to stainless steels• Single-layer cladding to reach 347 chemistry• Service temperatures from -60°C to +350°C

650 490 25 +20oC: 50

650 490 25 +20oC: 50

650 490 25 +20oC: 50

1.2 to 1.6

1.2 to 1.6

G

G

G

309LNb

309LNb

309LNb

T 19 12 3 Nb P M 3 (C3)E309LNbT1-1/-4

T 19 12 3 Nb M M 1 EC309LNb

C: 0.030Mn: 1.30Si: 0.80Cr: 23.5Ni: 13.00Nb: 0.85

TETRA S

1.2 T 20 10 3 P M 1 (C1)E308MoT1-1/-4 *TETRA V

TUBE S

• Austeno-ferritic deposit in CrNi steel - type 312, offering exceptional cracking resistance• Joining of unknown or hard-to-weld steels• Dissimilar joints, including those to steels with high carbon equivalents : high speed steels, tool steels, Mn steels, high strength constructional steels, abrasion-resistant steel plates

• Austeno-ferritic deposit in over-alloyed CrNiMo steel - type 309LMo, for joining dissimilar metals• Joining of stainless steels to mild or low-alloyed steels at high dilution levels• Buffering before cladding• Service temperatures from -60°C to +350°C

580 460 35 -60oC: 40

580 460 35 -60oC: 35

780 600 35 +20oC: 60

750 520 30 +20oC: 60

1.2 to 2.4

0.9 to 1.6

0.9 to 1.2

G

G/S

G

G

20 9 3

20 9 3

309L

309L

T 20 10 3 M M 1EC308Mo *

T 23 12 L R M 3 (C3)E309LT0-1/-4

T 23 12 L P M 1 (C1)E309LT1-1/-4

C: 0.050Mn: 1.50Si: 0.80Cr: 20.5Ni: 9.70Mo: 2.90

C: 0.030Mn: 1.40Si: 0.70Cr: 23.5Ni: 13.0

1.2 and 1.6 T 25 20 R M 3 (C3)(E310T0-1/-4) (*)

800 610 25 +20oC: 40

860 650 25 +20oC: 40

860 650 25 +20oC: 40

760 590 32 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

1.2 to 2.4G/S

G

G

G/S

309LMo

312

312

312

T 29 9 R M 3 (C3)E312T0-1/-4

T 29 9 P M 1 (C1)E312T1-1/-4

T 29 9 M M 1EC312

C: 0.030Mn: 1.30Si: 0.80Cr: 29.0Ni: 8.60Mo: 0.40

1.2 to 2.4

760 590 32 +20oC: 50

760 590 32 +20oC: 50

580 470 35 -60oC: 50

TETRA S

TETRA V

1.2 and 1.6

1.2

G/S

G

G

309L

309LMo

309LMo

T 23 12 L M M 1EC309L

T 23 12 2 L M M 1EC309LMo

T 23 12 2 L P M 1 (C1)E309LMoT1-1/-4

T 23 12 2 L R M 3 (C3)E309LMoT0-1/-4 C: 0.030

Mn: 1.40Si: 0.80Cr: 23.0Ni: 13.5Mo: 2.80

TETRA S

TETRA V

TUBE S

TUBE S

TETRA S

TETRA V

TUBE S

Grade

ProcessO: open arc

G: gas shieldedS: sub arc

Detailed operating conditions: see page 26

Dissimilar joints & repair welding

* Nearest

By courtesy of Welders NV

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

8 9 Joining

1.2 and 1.6T 46 2 P M 1 H5

E71T-1M H4\E71T-1C H4

1.2 to 2.8

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of constructional steels

• Rutile-type wire usable in all-positions with one single parameter setting• Protection : mixed gas

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460NH, P275NL1 to 460NL1, L210 to L290, L360MB to L415, X42 (API-5L)

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L)

S235J2W, S355K2W, S355J2G3Cu, CORTEN-A, PATINAX 37, ASTM: A36, A283 Gr B,C

L450NB, L245MB-L450MB, P355NL1-P460NL1, P355NL2- P460NL2, S460N, P355NH-P460NH, S380NL-S460NL, S380NL1-S460NL1;ASTM: A516 Gr 65, A572 Gr 55, 60, 65, A633 Gr E, A618 Gr I, A537 Gr 1-3

12Ni14-10Ni14, ASTM: A350 Gr LF3

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L). ASTM: A 283/ 285 Gr A, B, C, A328-A366, A516 Gr 55,60, 65, 70, A570 Gr 30, 33, 36, 40, 45, A572 Gr 42, 50

• Metal-cored wire – Slag-free deposit with easily-removed traces of residual silicates• Good mechanical properties and optimum productivity

• Metal-cored wire • Recommended for welding of heavily worked or restrained joints with toughness required down to –40°C

• Strongly basic slag• Welding of thick joints and of safety-critical assemblies in high carbon, high sulphur or high phosphorus steels, under heavy static or dynamic stresses

• Weld deposit with the same colour as that of weathered steel

• 1% Ni alloyed wire for welding fine-grained steels with toughness required down to – 60°C• High resistance to initiation and propagation of cracks on account of its particularly low diffusible hydrogen content (< 4 ml/ 100g)

• Metal-cored wire specially developed for welding 3.5% nickel steels• Excellent toughness down to – 105°C after heat treatment at 620°C for 1 hour

Metal cored wire for single or multi-pass welding and for automatic welding

C: 0.05Mn: 1.40Si: 0.45

1.0 to 1.6 570 480 26 -20oC: 80T 46 2 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.50Si: 0.65

570 510 25 -20oC: 80

Gas shielded welding

1.0 to 1.6T 46 6 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.40Si: 0.60

1.2 and 1.6 580 480 28 -50oC: 80T 46 6 B M 3 H5

E71T-5MJH4

C: 0.05Mn: 1.40Si: 0.40

580 510 26 -40oC: 80

1.2 and 1.6 570 500 22 +20oC: 110T 46 2 Z M M 1 H5

E70C-G H4

C: 0.06Mn: 1.20Si: 0.50Cr: 0.20Ni: 0.50Cu: 0.40

1.2 and 1.6

T 50 4 1Ni P M 1

E81T1/Ni1MJ H4

C: 0.05Mn: 1.20Si: 0.40Ni: 0.95

1.2 and 1.6 620 540 26T 50 6 1Ni M M 1 H5

E80C-Ni1 H4

C: 0.03Mn: 1.30Si: 0.60Ni: 0.90

-60oC: 80

625 550 25 -40oC: 70

1.2 and 1.6T 46 6 1Ni B M 3 H5

E80T5-G H4

C: 0.06Mn: 1.40Si: 0.40Ni: 1.10

1.2 and 1.6 560 480 29T 46 6 3Ni B M 1 H5

E81T5-Ni3MJ H4

C: 0.04Mn: 0.70Si: 0.30Ni: 3.30

PWHT1h/620oC

-101oC: 100

Mild steels

Cold tough steels

Weathering steels

ROBOFIL – SPEEDARC : description, shielding gas and welding positions – see page 6

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL R 71 +

1.2 and 1.6T 46 2 P C 1 H5

E71T-1C-H4 / E491T-1C-H4

• Rutile-type wire usable in all-positions except vertical-down• Protection : CO2

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

C: 0.05Mn: 1.40Si: 0.45

570 500 25 -20oC: 80

570 480 26 -20oC: 80

ROBOFIL KX 71T1 +

ROBOFIL M 70

ROBOFIL M 71

ROBOFIL B 71

ROBOFIL M 71Cu

ROBOFIL R Ni1 +

ROBOFIL M Ni1

ROBOFIL B Ni1

ROBOFIL M Ni3

Rutile type wire for all-position welding

Metal cored wire for single or multi-pass welding and for automatic welding

Strongly basic wire satisfying very high toughness requirements

ROBOFIL R Ni1SRT 50 6 1Ni P M 1 H5

E81T1/Ni1MJ H4

C: 0.06Mn: 1.20Si: 0.40Ni: 0.90

620 550 24 -60oC: 701.2 and 1.6

24 -60oC: 80520600

20 21 Joining

TETRA S 1.2 to 1.6 T 18 8 Mn R M21 3 (C1 3)E307T0-1/-4 *

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Type Rp 0.2% [MPa]

Product name Description and applications

Welding of highly alloyed steels

• Austeno-ferritic deposit in over-alloyed CrNi steel - type 309L, with optimised ferrite content for joining dissimilar metals• Joining of steels with similar compositions and joining carbon steels to stainless steels.• Buffering before cladding• Service temperatures from -60°C to +350°C

• Austenitic deposit in CrNiMo steel –modified type 308Mo, offering high mechanical strength • Fabrication of armoured vehicles, joining of steels with high yield points and limited weldability, dissimilar joints • High resistance to hot cracking• Service temperatures from -60°C to +300°C

• Work-hardening austenitic deposit in CrNiMn steel – modified type 307• Dissimilar joints, welding of steels of unknown types, armouring steels, buffering • Joining of 14% Mn austenitic steels • Service temperatures from -120°C to +300°C

710 530 30 +20oC: 50

650 450 40 +20oC: 90

630 480 40 +20oC: 50

630 480 40 +20oC: 50

1.2

1.2 to 2.4

1.2 to 1.6

G

G

G/S

G

307

307

307

20 9 3

T 18 8 Mn P M21 1 (C1 1)E307T1-1/-4 *

T 18 8 Mn M M12 1EC307 *

T 20 10 3 R M21 3 (C1 3)E308MoT0-1/-4 *

C: 0.10Mn: 6.00Si: 0.70Cr: 19.0Ni: 9.00

TETRA S 1.2 to 1.6 T 19 12 3 Nb R M21 3 (C1 3)E309LNbT0-1/-4

TETRA V

TUBE S

• Austeno-ferritic deposit – type 309 LNb• Joining of steels with similar compositions and joining carbon steels to stainless steels• Single-layer cladding to reach 347 chemistry• Service temperatures from -60°C to +350°C

650 490 25 +20oC: 50

650 490 25 +20oC: 50

650 490 25 +20oC: 50

1.2 to 1.6

1.2 to 1.6

G

G

G

309LNb

309LNb

309LNb

T 19 12 3 Nb P M21 3 (C1 3)E309LNbT1-1/-4

T 19 12 3 Nb M M12 1 EC309LNb

C: 0.030Mn: 1.30Si: 0.80Cr: 23.5Ni: 13.00Nb: 0.85

TETRA S

1.2 T 20 10 3 P M21 1 (C1 1)E308MoT1-1/-4 *TETRA V

TUBE S

• Austeno-ferritic deposit in CrNi steel - type 312, offering exceptional cracking resistance• Joining of unknown or hard-to-weld steels• Dissimilar joints, including those to steels with high carbon equivalents : high speed steels, tool steels, Mn steels, high strength constructional steels, abrasion-resistant steel plates

• Austeno-ferritic deposit in over-alloyed CrNiMo steel - type 309LMo, for joining dissimilar metals• Joining of stainless steels to mild or low-alloyed steels at high dilution levels• Buffering before cladding• Service temperatures from -60°C to +350°C

580 460 35 -60oC: 40

580 460 35 -60oC: 35

780 600 35 +20oC: 60

750 520 30 +20oC: 60

1.2 to 2.4

0.9 to 1.6

0.9 to 1.2

G

G/S

G

G

20 9 3

20 9 3

309L

309L

T 20 10 3 M M12 1EC308Mo *

T 23 12 L R M21 3 (C1 3)E309LT0-1/-4

T 23 12 L P M21 1 (C1 1)E309LT1-1/-4

C: 0.050Mn: 1.50Si: 0.80Cr: 20.5Ni: 9.70Mo: 2.90

C: 0.030Mn: 1.40Si: 0.70Cr: 23.5Ni: 13.0

1.2 and 1.6 T 25 20 R M 3 (C3)(E310T0-1/-4) (*)

800 610 25 +20oC: 40

860 650 25 +20oC: 40

860 650 25 +20oC: 40

760 590 32 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

1.2 to 2.4G/S

G

G

G/S

309LMo

312

312

312

T 29 9 R M21 3 (C1 3)E312T0-1/-4

T 29 9 P M21 1 (C1 1)E312T1-1/-4

T 29 9 M M12 1EC312

C: 0.030Mn: 1.30Si: 0.80Cr: 29.0Ni: 8.60Mo: 0.40

1.2 to 2.4

760 590 32 +20oC: 50

760 590 32 +20oC: 50

580 470 35 -60oC: 50

TETRA S

TETRA V

1.2 and 1.6

1.2

G/S

G

G

309L

309LMo

309LMo

T 23 12 L M M12 1EC309L

T 23 12 2 L M M12 1EC309LMo

T 23 12 2 L P M21 1 (C1 1)E309LMoT1-1/-4

T 23 12 2 L R M21 3 (C1 3)E309LMoT0-1/-4 C: 0.030

Mn: 1.40Si: 0.80Cr: 23.0Ni: 13.5Mo: 2.80

TETRA S

TETRA V

TUBE S

TUBE S

TETRA S

TETRA V

TUBE S

Grade

ProcessO: open arc

G: gas shieldedS: sub arc

Detailed operating conditions: see page 26

Dissimilar joints & repair welding

* Nearest

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

8 9 Joining

1.2 and 1.6T 46 4 P M 1 H5

E71T-1MJ H4

1.2 to 2.8

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of constructional steels

• Rutile-type wire usable in all-positions with one single parameter setting• Protection: mixed gas and pure CO2

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460NH, P275NL1 to 460NL1, L210 to L290, L360MB to L415, X42 (API-5L)

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L)

S235J2W, S355K2W, S355J2G3Cu, CORTEN-A, PATINAX 37, ASTM: A36, A283 Gr B,C

L450NB, L245MB-L450MB, P355NL1-P460NL1, P355NL2- P460NL2, S460N, P355NH-P460NH, S380NL-S460NL, S380NL1-S460NL1;ASTM: A516 Gr 65, A572 Gr 55, 60, 65, A633 Gr E, A618 Gr I, A537 Gr 1-3

12Ni14-10Ni14, ASTM: A350 Gr LF3

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L). ASTM: A 283/ 285 Gr A, B, C, A328-A366, A516 Gr 55,60, 65, 70, A570 Gr 30, 33, 36, 40, 45, A572 Gr 42, 50

• Metal-cored wire – Slag-free deposit with easily-removed traces of residual silicates• Good mechanical properties and optimum productivity

• Metal-cored wire • Recommended for welding of heavily worked or restrained joints with toughness required down to –40°C

• Strongly basic slag• Welding of thick joints and of safety-critical assemblies in high carbon, high sulphur or high phosphorus steels, under heavy static or dynamic stresses

• Weld deposit with the same colour as that of weathered steel

• 1% Ni alloyed wire for welding fine-grained steels with toughness required down to – 60°C• High resistance to initiation and propagation of cracks on account of its particularly low diffusible hydrogen content (< 4 ml/ 100g)

• Metal-cored wire specially developed for welding 3.5% nickel steels• Excellent toughness down to – 105°C after heat treatment at 620°C for 1 hour

Metal cored wire for single or multi-pass welding and for automatic welding

C: 0.05Mn: 1.40Si: 0.45

1.0 to 1.6 570 480 26 -20oC: 80T 46 2 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.50Si: 0.65

580 540 26 -40oC: 80

Gas shielded welding

1.0 to 1.6T 46 6 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.40Si: 0.60

1.2 and 1.6 580 480 28 -50oC: 80T 46 6 B M 3 H5

E71T-5MJH4

C: 0.05Mn: 1.40Si: 0.40

580 510 26 -40oC: 80

1.2 and 1.6 570 500 22 +20oC: 110T 46 A Z M M 1 H5

E70C-G H4

C: 0.06Mn: 1.20Si: 0.50Cr: 0.20Ni: 0.50Cu: 0.40

1.2 and 1.6T 50 4 1Ni P M 1

E81T1/Ni1MJH4

C: 0.05Mn: 1.20Si: 0.40Ni: 0.95

1.2 and 1.6 620 540 26T 50 6 1Ni M M 1 H5

E80C-Ni1 H4

C: 0.03Mn: 1.30Si: 0.60Ni: 0.90

-60oC: 80

625 550 25 -40oC: 70

1.2 and 1.6T 46 6 1Ni B M 3 H5

E80T5-G H4

C: 0.06Mn: 1.40Si: 0.40Ni: 1.10

-60oC: 80

1.2 and 1.6 560 480 29T 46 6 3Ni B M 1 H5

E81T5-Ni3MJ H4

C: 0.04Mn: 0.70Si: 0.30Ni: 3.30

PWHT1h/620oC

-101oC: 100

600 520 24

Mild steels

Cold tough steels

Weathering steels

ROBOFIL – SPEEDARC : description, shielding gas and welding positions – see page 6

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL R 71

1.2 and 1.6T 46 4 P C 2 H5

E71T-1J H4

• Rutile-type wire usable in all-positions except vertical-down• Protection : Pure CO2

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

C: 0.05Mn: 1.40Si: 0.45

580 540 26 -40oC: 80

570 480 26 -20oC: 80

ROBOFIL KX 71T1

ROBOFIL M 70

ROBOFIL M 71

ROBOFIL B 71

ROBOFIL M 71Cu

ROBOFIL R Ni1

ROBOFIL M Ni1

ROBOFIL B Ni1

ROBOFIL M Ni3

Rutile type wire for all-position welding

Stress relievable

Metal cored wire for single or multi-pass welding and for automatic welding

Strongly basic wire satisfying very high toughness requirements

S690QL1, N’AXTRA63-70; ASTM: A225 Gr C, A514 et 517 Gr A, B, C, E, F, H, J, K, M, P, A656, A678Gr C

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base materialStandarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL M NiMo

ROBOFIL B NiMo

ROBOFIL M 700

ROBOFIL B 700

ROBOFIL M Mo

ROBOFIL M CrMo1

ROBOFIL B CrMo1

ROBOFIL M CrMo2

ROBOFIL B CrMo2

ROBOFIL B P91

T 55 5 Z M M 1 H5

E90C-K3 H4

C: 0.05Mn: 1.60Si: 0.40Ni: 1.60Mo: 0.30

T 55 6 1NiMoB M3 H5

E90T5-G H4

C: 0.05Mn: 1.40Si: 0.40Ni: 1.20Mo: 0.40

T 69 5 Mn2NiCrMo M M1 H5

E110C-K4 H4

C: 0.06Mn: 1.50Si: 0.50Cr: 0.45Ni: 2.40Mo: 0.45

T 69 5 Mn2NiCrMo B M3 H5

E110T5-K4

T Mo M M 1 H5

E80C-G H4

C: 0.06Mn: 1.20Si: 0.40Mo: 0.50

C: 0.05Mn: 1.40Si: 0.30Cr: 0.50Ni: 2.40Mo: 0.50

T CrMo1 M M 1 H5

E80C-B2 H4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo1 B M 3 H5

E80T5-B2-MH4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo2 M M 1 H5

E90C-B3 H4

C: 0.06Mn: 1.10Si: 0.30Cr: 2.30Mo: 1.00

T CrMo2 B M 3 H5

E90T5-B3M H4

-

E90T5-G H4

C: 0.06Mn:1.10Si: 0.40Cr: 2.30Mo: 1.00

C: 0.10Mn: 0.70Si: 0.20Cr: 9.20Ni: 0.80Mo:1.00Nb, V, N

720 610 24 -50oC: 80

860 810 17 -50oC: 50

680 600 24 -60oC: 55

600 510 25 -40oC: 50

900 840 20 -50oC: 60

650 580 23

630 530 24

680 580 22

820 750 17

PWHT1h/690oC+20oC: 90

PWHT4h/750oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC+20oC: 90

680 580 21

Gas-shielded welding

Rutile type wire for all-position welding

1.2 and 1.6T55 2 1NiMo P M 2 H10

E621T1-K1M-JH8

C: 0.05Mn: 1.30Si: 0.30Ni: 0.90Mo 0.50

720 640 20 -20oC: 60ROBOFIL R 91

18 19 Joining

TETRA S 1.2 and 1.6 T 19 9 H R M21 3 (C1 3)E308HT0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

Welding of highly alloyed steels

• Heat resistant austenitic deposit in CrNi steel - type 309, oxidation resistant up to 900°C• Joining of steel forgings and castings with similar compositions

• Austenitic deposit in CrNi steel - type 308H with controlled ferrite level, heat resistant up to 650°C and oxidation resistant up to 800°C• Joining and cladding of stabilised or non stabilised creep-resistant austenitic steels with similar compositions

• Heat resistant austenitic deposit for applications up to 850°C • Unique resistance to hot cracking

(1.4948) X6 CrNiNb 18-11, (1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 304H-321H-347H

(1.4948) X6 CrNi 18-11, (1.4941) X8 CrNiTi 18-10,(1.4961) X8 CrNiNb 16-13, (1.4919) X6 CrNiMo 17-13

(1.4828) X15CrNiSi20-12, (1.4826) G-X 40CrNiSi 22-9, (1.4833) X7 CrNi 23-14. AISI 305, ASTM : A297 HF

600 430 35 +20oC: 70

625 470 35 +20oC: 60

590 410 40 +20oC: 80

625 470 35 +20oC: 60

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

308H

308H

308H

308H

T 19 9 H B M21 3E308HT0-4

T 19 9 H P M21 1 (C1 1)E308HT1-1/-4

T 19 9 H M M12 1EC308H

C: 0.06Mn: 1.40Si: 0.80Cr: 20.5Ni: 10.5

TETRA V 620 460 40 +20oC: 701.2 and 1.6G1682 T Z 16 8 2 R M21 3 (C1 3)- **

C: 0.06, Mn: 1.40Si: 0.50, Cr: 16.5

Ni: 9.6, Bi:<20ppm

TETRA S 1.2 and 1.6T 22 12 H R M21 3 (C1 3)

E309T0-1/-4

TETRA S B

TETRA V

TUBE S

• Heat resistant austenitic deposit in CrNi steel - type 310, resistant to oxidation up to 1150°C• Joining of stainless steels with similar compositions • Good resistance to hot cracking during welding

• Austeno-ferritic deposit in CrNi steel corresponding to the material no 1.4820 • Resists oxidation to 1150°C and reducing sulphurous gases• Joining of Cr Al Si type heat resistant steels

• Austenitic deposit in CrNiNb steel - type 347 with controlled ferrite level, creep resistant • Heat resistant up to 700°C• Joining and cladding of steels with similar compositions

• Heat resistant austenitic deposit in CrNi steel – modified type 309, with additions of nitrogen and rare earths • Joining of steels with similar compositions resisting oxidation up to 1000°C• Good resistance to fatigue and to deformation linked to rapid and repeated temperature variations

(1.4837 ) GX40CrNiSi 25-12, (1.4840) GX15CrNi25-20, (1.4841) X15CrNiSi 25-20; ASTM: A297HF

(1.4821) X20 CrNiSi 25-4, (1.4823) G-X40CrNiSi 27 4 (1.4713) X10CrAl7, (1.4724) X10 CrAl13, (1.4762) X10 CrAl25, (1.4740) G-X40 Crsi17, (1.4347) GX8CrNi26-7; ASTM327, ASTM: A297HC

(1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 321H-347H

(1.4835) X9CrNiSiNCe 21-11-2, UNS S30815, S30415

620 450 35 +20oC: 60

600 495 33 +20oC: 50

590 480 35 +20oC: 70

600 495 33 +20oC: 50

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

309H

309H

309H

309H

T 22 12 H B M21 3E309T0-4

T 22 12 H P M21 1 (C1 1)E309T1-1/-4

T 22 12 H M M12 1EC309

C: 0.06Mn: 1.40Si: 0.80Cr: 23.0Ni: 12.8

TETRA S 1.2 and 1.6T 25 20 R M21 3 (C1 3)

(E310T0-1/-4) *

TETRA S B

TETRA V

TUBE S 630 420 30 +20oC: 70

580 410 30 +20oC: 50

580 400 30 +20oC: 80

560 410 30 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

310

310

310

310

T 25 20 B M21 3(E310T0-4) *

T 25 20 P M21 1 (C1 1)(E310T1-1/-4) *

T 25 20 M M12 1(EC310) *

C: 0.15Mn: 4.00Si: 0.60Cr: 26.0Ni: 20.5

1.2 and 1.6

720 530 32 +20oC: 50

730 540 27 +20oC: 90

720 530 33 +20oC: 50TETRA S

TETRA S B

TETRA V

1.2 and 1.6

1.2

G

G

G

309HT

309HT

309HT

T Z 22 10 N H R M21 3 (C1 3)- **

T Z 22 10 N H P M21 1 (C1 1)- **

T Z 22 10 N H B M21 3- **

C: 0.06Mn: 1.00Si: 1.40Cr: 22.0Ni: 10.0N + Ce

1.2 and 1.6

750 570 20 +20oC: 40

750 570 20 +20oC: 40TETRA S

TUBE S 1.2 to 2.4

G

G/S

329

329

T Z 25 4 R M21 3 (C1 3)- **

T Z 25 4 M M12 1- **

C: 0.08Mn: 0.70Si: 0.80Cr: 25.0Ni: 4.00

1.2 and 1.6

640 450 35 +20oC: 70

620 470 35 +20oC: 60

620 470 35 +20oC: 60TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

347H

347H

347H

T 19 9 Nb R M21 3 (C1 3)E347T0-1/-4

T 19 9 Nb M M12 1EC347

T 19 9 Nb P M21 1 (C1 1)E347T1-1/-4

C: 0.06Mn: 1.40Si: 0.90Cr: 19.5Ni: 10.5Nb: 0.70

ProcessO: open arc

G: gas shieldedS: sub arc

Heat resistant steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

* Please refer to your local Welding Alloys technicians

� 1.5% Ni weld deposit for service temperature down to -60C� Welding of fine-grained steels with low temperature toughness� Especially low diffusible hydrogen content

Metal cored wire for single or multi-pass welding and for aautomatic welding

Metal cored wire for single or multi-pass welding and for aautomatic welding

Strong basic wire satisfying very high toughness requirements

� Strong basic wire satisfying very high toughness requirements� Very good sound deposit

Very high strength nickel-chromium-molybdenum alloyed weld deposit

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base materialStandarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL B NiMo

ROBOFIL M 700

ROBOFIL B 700

ROBOFIL M Mo

ROBOFIL M CrMo1

ROBOFIL B CrMo1

ROBOFIL M CrMo2

ROBOFIL B CrMo2

ROBOFIL B P91

T 55 6 1NiMoB M3 H5

E90T5-G H4

C: 0.05Mn: 1.40Si: 0.40Ni: 1.20Mo: 0.40

T 69 5 Mn2NiCrMo M M1 H5

E110C-K4 H4

C: 0.06Mn: 1.50Si: 0.50Cr: 0.45Ni: 2.40Mo: 0.45

T 69 5 Mn2NiCrMo B M3 H5

E110T5-K4

T Mo M M 1 H5

E80C-G H4

C: 0.06Mn: 1.20Si: 0.40Mo: 0.50

C: 0.05Mn: 1.40Si: 0.30Cr: 0.50Ni: 2.40Mo: 0.50

T CrMo1 M M 1 H5

E80C-B2 H4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo1 B M 3 H5

E80T5-B2-M H4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo2 M M 1 H5

E90C-B3 H4

C: 0.06Mn: 1.10Si: 0.30Cr: 2.30Mo: 1.00

T CrMo2 B M 3 H5

E90T5-B3M H4

-

E90T5-G H4

C: 0.06Mn:1.10Si: 0.40Cr: 2.30Mo: 1.00

C: 0.10Mn: 0.70Si: 0.20Cr: 9.20Ni: 0.80Mo:1.00Nb, V, N

60°C

S690QL1, N’AXTRA63-70; ASTM: A225 Gr C, A514 et 517 Gr A, B, C, E, F, H, J, K, M, P, A656, A678Gr C

860 810 17 -50oC: 50

680 600 24 -60oC: 55

600 510 25 -40oC: 50

900 840 20 -50oC: 60

650 580 23

630 530 24

680 580 22

820 750 17

PWHT1h/690oC+20oC: 90

PWHT4h/750oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC+20oC: 90

680 580 21

Gas-shielded welding

Rutile type wire for all-position weldingWelding fine-grained and pipe steels with toughness required down to -60°C

1.2 and 1.6T 55 5 Z M M 1 H5

E90C-K3 H4

C: 0.05Mn: 1.60Si: 0.40Ni: 1.60Mo: 0.30

720 610 24 -50oC: 80ROBOFIL M NiMo S235J2G3 to S355K2G, S235J2GH to P355GHStE255 - StE500, StE35.8, StE45.8, X42-X80 (API-5L)

18 19 Joining

TETRA S 1.2 and 1.6 T 19 9 H R M 3 (C3)E308HT0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

Welding of highly alloyed steels

• Heat resistant austenitic deposit in CrNi steel - type 309, oxidation resistant up to 900°C• Joining of steel forgings and castings with similar compositions

• Austenitic deposit in CrNi steel - type 308H with controlled ferrite level, heat resistant up to 650°C and oxidation resistant up to 800°C• Joining and cladding of stabilised or non stabilised creep-resistant austenitic steels with similar compositions

• Heat resistant austenitic deposit for applications up to 850°C • Unique resistance to hot cracking

(1.4948) X6 CrNiNb 18-11, (1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 304H-321H-347H

(1.4948) X6 CrNi 18-11, (1.4941) X8 CrNiTi 18-10,(1.4961) X8 CrNiNb 16-13, (1.4919) X6 CrNiMo 17-13

(1.4828) X15CrNiSi20-12, (1.4826) G-X 40CrNiSi 22-9, (1.4833) X7 CrNi 23-14. AISI 305, ASTM : A297 HF

600 430 35 +20oC: 70

625 470 35 +20oC: 60

590 410 40 +20oC: 80

625 470 35 +20oC: 60

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

308H

308H

308H

308H

T 19 9 H Z M 3E308HT0-4

T 19 9 H P M 1 (C1)E308HT1-1/-4

T 19 9 H M M 1EC308H

C: 0.06Mn: 1.40Si: 0.80Cr: 20.5Ni: 10.5

TETRA V 620 460 40 +20oC: 701.2 and 1.6G1682 T Z 16 8 2 R M 3 (C3)- **

C: 0.06, Mn: 1.40Si: 0.50, Cr: 16.5Ni: 9.6, Bi: <0.002

TETRA S 1.2 and 1.6T 22 12 H R M 3 (C3)

E309T0-1/-4

TETRA S B

TETRA V

TUBE S

• Heat resistant austenitic deposit in CrNi steel - type 310, resistant to oxidation up to 1150°C• Joining of stainless steels with similar compositions • Good resistance to hot cracking during welding

• Austeno-ferritic deposit in CrNi steel corresponding to the material no 1.4820 • Resists oxidation to 1150°C and reducing sulphurous gases• Joining of Cr Al Si type heat resistant steels

• Austenitic deposit in CrNiNb steel - type 347 with controlled ferrite level, creep resistant • Heat resistant up to 700°C• Joining and cladding of steels with similar compositions

• Heat resistant austenitic deposit in CrNi steel – modified type 309, with additions of nitrogen and rare earths • Joining of steels with similar compositions resisting oxidation up to 1000°C• Good resistance to fatigue and to deformation linked to rapid and repeated temperature variations

(1.4837 ) GX40CrNiSi 25-12, (1.4840) GX15CrNi25-20, (1.4841) X15CrNiSi 25-20; ASTM: A297HF

(1.4821) X20 CrNiSi 25-4, (1.4823) G-X40CrNiSi 27 4 (1.4713) X10CrAl7, (1.4724) X10 CrAl13, (1.4762) X10 CrAl25, (1.4740) G-X40 Crsi17, (1.4347) GX8CrNi26-7; ASTM327, ASTM: A297HC

(1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 321H-347H

(1.4835) X9CrNiSiNCe 21-11-2, UNS S30815, S30415

620 450 35 +20oC: 60

600 495 33 +20oC: 50

590 480 35 +20oC: 70

600 495 33 +20oC: 50

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

309H

309H

309H

309H

T 22 12 H Z M 3E309T0-4

T 22 12 H P M 1 (C1)E309T1-1/-4

T 22 12 H M M 1EC309

C: 0.06Mn: 1.40Si: 0.80Cr: 23.0Ni: 12.8

TETRA S 1.2 and 1.6T 25 20 R M 3 (C3)

(E310T0-1/-4) *

TETRA S B

TETRA V

TUBE S 630 420 30 +20oC: 70

580 410 30 +20oC: 50

580 400 30 +20oC: 80

560 410 30 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

310

310

310

310

T 25 20 Z M 3(E310T0-4) *

T 25 20 P M 1 (C1)(E310T1-1/-4) *

T 25 20 M M 1(EC310) *

C: 0.15Mn: 4.00Si: 0.60Cr: 26.0Ni: 20.5

1.2 and 1.6

720 530 32 +20oC: 50

730 540 27 +20oC: 90

720 530 33 +20oC: 50TETRA S

TETRA S B

TETRA V

1.2 and 1.6

1.2

G

G

G

309HT

309HT

309HT

T Z 22 10 N H R M 3 (C3)- **

T Z 22 10 N H P M 1 (C1)- **

T Z 22 10 N H Z M 3- **

C: 0.06Mn: 1.00Si: 1.40Cr: 22.0Ni: 10.0N + Ce

1.2 and 1.6

750 570 20 +20oC: 40

750 570 20 +20oC: 40TETRA S

TUBE S 1.2 to 2.4

G

G/S

329

329

T Z 25 4 R M 3 (C3)- **

T Z 25 4 M M 1- **

C: 0.08Mn: 0.70Si: 0.80Cr: 25.0Ni: 4.00

1.2 and 1.6

640 450 35 +20oC: 70

620 470 35 +20oC: 60

620 470 35 +20oC: 60TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

347H

347H

347H

T 19 9 Nb R M 3 (C3)E347T0-1/-4

T 19 9 Nb M M 1EC347

T 19 9 Nb P M 1 (C1)E347T1-1/-4

C: 0.06Mn: 1.40Si: 0.90Cr: 19.5Ni: 10.5Nb: 0.70

ProcessO: open arc

G: gas shieldedS: sub arc

Heat resistant steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

* Please refer to your local Welding Alloys technicians

ROBOFIL R 690T 69 4 Z P M 1 H5

E111T1-G M-J H4

C: 0.05Mn: 1.80Si: 0.30Ni: 2.20Mo: 0.15

800 740 19 -40oC: 50

1.2 and 1.6T 69 4 Mn2NiMo P M 1 H5

E111T1-K3M-J H4

C: 0.05Mn: 1.85Si: 0.30Ni: 2.20Mo: 0.35

800 740 19 -40oC: 50ROBOFIL R 690 +

12 13 Joining

TETRA S

1.2 and 1.6

0.9 to 1.6 T 22 9 3 N L R M 3 (C3)E2209T0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

• Austenitic-ferritic deposit in CrNiMo steel - type 2553• Joining of superduplex stainless steels • Great flexibility of use with type 80/20 mixed gas • Very good corrosion resistance: CPT: 40°C

• Austenitic-ferritic deposit in CrNiMo steel - type 2209• Joining of duplex stainless steels and dissimilar assemblies • Very good corrosion resistance: CPT: 25°C

(1.4462) X2CrNiMoN22-5-3; (1.4362) X2CrNiN 23-4; UNS S31803, S32205, J92205, S31500, S32304, S32404

(1.4507) X2CrNiMoCuN25-6-3, (1.4410) X2CrNiMoN25-7-4 (1.4501), X2CrNiMoCuWN 25-7-4, (1.4517) X3CrNiMoCuN25-6-3-3;UNS S S32520, S32550, S32750, S32760, S32740, J93404, J93390, J93370910 705 26 -29oC: 32

910 720 25 -29oC: 45

950 830 22 -29oC: 30

800 610 28 -60oC: 32

780 630 28 -60oC: 32

790 610 26 -60oC: 45

830 670 28 -60oC: 32

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 5-25% CO2 + 10-30% He (M211)

Argon + 5-25% CO2 (M21)

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 1-3% CO2 (M12)

Argon + 10-35% He + 0-2% CO2 (M12/1)

Argon + 1-3% O2 (M13)

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

AWS type

Slag

Flux for submerged arc welding (S)

Welding positions

Features and benefits

Shielding gas (G)

T0-1/4 T0-4 T1-1/4

- - -

ECXXX

Rutile slow freezing Basic Rutile fast freezing No slag (metal powder)

All positions *All positions

Neutral Flux

Optimized bead appearance and

productivity in flat and downhand positions

Ultimate impact toughness and crack resistance

Ideal for out-of-position

welding

• Special composition• Thin gauge plates• X-ray quality on heavy sections

TETRA S

TETRA S B

TUBE S

1.2 and 1.6

1.2

1.2 to 2.4

1.2 and 1.6

1.2 to 2.4

G

G

G

G

G/S

G

G/S

D57L

22 9 3L

D57L

22 9 3L

22 9 3L

22 9 3L

D57L

Duplex and Superduplex

T 22 9 3 N L Z M 3E2209T0-4

T 22 9 3 N L P M 1 (C1)E2209T1-1/-4

T 22 9 3 N L M M 1EC2209

T Z 25 9 4 Cu N L R M 3E2553T0-4 *

T Z 25 9 4 Cu N L M M 1EC2553 *

T Z 25 9 4 Cu N L Z M 3E2553T0-4 *

C: 0.030Mn: 1.40Si: 0.80Cr: 23.0Ni: 9.00Mo: 3.20N: >0.15

C: 0.030Mn: 1.40Si: 0.60Cr: 25.0Ni: 9.50Mo: 3.80Cu: 1.00N: 0.26

Detailed operating conditions: see page 26

* Nearest

Welding of stainless steels - A product for each application

Welding of highly alloyed steels

* Please refer to your local Welding Alloys technicians

16 17 Joining

TETRA S

1.2 and 1.6

1.2 and 1.6 T 19 13 4 N L R M21 3 (C1 3)E317LT0-1/-4

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Grade Type Rp 0.2% [MPa]

Product name Description and applications Base material

• Austenitic deposit in CrNiMoNb steel - type 318• Joining and cladding of Ti or Nb stabilised steels of similar compositions • Service temperatures up to 400°C

• Austenitic deposit in CrNiMo steel - type 317L• Joining of low-carbon steels with similar compositions for increased corrosion resistance• Conforms exactly to the standard AWS/ASME IIC : E317L• Service temperatures up to 350°C

• Fully austenitic deposit in CrNiMoCu steel – type 385• Great flexibility of use: unique rutile type slag in the TETRA version• Specially developed for the phosphate industry• Welding of matching steel 1.4539 (UB6), 904L• Service temperatures from -110°C to +350°C

(1.4429) X2 CrNiMoN 17-13-3, (1.4435) X2CrNiMo 18-14-3, (1.4438) X2 CrNiMo 18-15-4; AISI 316L-316LN-317LN-317L

(1.4751) X6CrNiMoTi 17-12-2, (1.4580) X6CrNiMoNb18-12, (1.4401) X5CrNiMo17-12-2, (1.4435) X2CrNiMo;UNS S31653, AISI 316Ti-316Cb

(1.4539) X1NiCrMoCu 25-20-5, (1.4537) X1 CrNiMoCuN 25-25-5, (1.4505) X4NiCrMoCuNb 20-18-2;UNS N08904, S31726

(1.4466) X2CrNiMo25-22-2, (1.4465) X1 CrNiMoN 25-25-2, (1.4435) X2CrNiMo 18-14-3

640 430 32 -110oC: 35

640 480 32 +20oC: 50

620 480 34 +20oC: 50

620 480 34 +20oC: 50

600 400 35 +20oC: 50

630 490 35 +20oC: 45

630 490 35 +20oC: 45

TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

1.2

1.2 to 2.4

G

G

G

G/S

G

G/S

318L

317L

318L

317L

317L

318L

T 19 13 4 N L P M21 1 (C1 1)E317LT1-1/-4

T 19 13 4 N L M M12 1EC317L

T 19 12 3 Nb R M21 3 (C1 3)E318T0-1/-4 *

T 19 12 3 Nb M M12 1EC318

T 19 12 3 Nb P M21 1 (C1 1)E318T1-1/-4 *

TETRA S 1.2 and 1.6

1.2 and 1.6

T Z 20 25 5 Cu L R M21 3 (C1 3)E385LT0-1/-4 *

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

904L

904L

904L

T Z 20 25 5 Cu L P M21 1 (C1 1)E385LT1-1/-4 *

T Z 20 25 5 Cu L M M12 1EC385

• Austenitic deposit in CrNiMnMo steel – modified type 310Mo• Joining and cladding of steels with similar compositions • Exceptional corrosion resistance in nitric acid, ammonium carbamate and chloride-containing media

600 410 35 +20oC: 80

640 410 35 -110oC: 35

640 430 32 -110oC: 35

TETRA S B 1.2 and 1.6G465 T Z 25 22 2 N L B M21 3- **

C: 0.020Mn: 3.50Si: 0.25Cr: 25.0Ni: 22.0Mo: 2.20N: 0.13

C: 0.030Mn: 1.40Si: 0.80Cr: 19.5Ni: 13.0Mo: 3.50

C: 0.030Mn: 1.50Si: 0.90Cr: 19.5Ni: 12.0Mo: 2.90Nb: 0.45

C: 0.030Mn: 3.00Si: 0.50Cr: 20.5Ni: 25.5Mo: 4.90Cu: 1.50

ProcessO: open arc

G: gas shieldedS: sub arc

Austenitic stainless steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

Welding of highly alloyed steels

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

12 13 Joining

TETRA S

1.2 and 1.6

0.9 to 1.6 T 22 9 3 N L R M21 3 (C1 3)E2209T0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

• Austenitic-ferritic deposit in CrNiMo steel - type 2553• Joining of superduplex stainless steels • Great flexibility of use with type 80/20 mixed gas • Very good corrosion resistance: CPT: 40°C

• Austenitic-ferritic deposit in CrNiMo steel - type 2209• Joining of duplex stainless steels and dissimilar assemblies • Very good corrosion resistance: CPT: 25°C

(1.4462) X2CrNiMoN22-5-3; (1.4362) X2CrNiN 23-4; UNS S31803, S32205, J92205, S31500, S32304, S32404

(1.4507) X2CrNiMoCuN25-6-3, (1.4410) X2CrNiMoN25-7-4 (1.4501), X2CrNiMoCuWN 25-7-4, (1.4517) X3CrNiMoCuN25-6-3-3;UNS S S32520, S32550, S32750, S32760, S32740, J93404, J93390, J93370910 705 26 -29oC: 32

910 720 25 -45oC: 47

950 830 22 -29oC: 30

800 610 28 -60oC: 32

780 630 28 -60oC: 32

790 610 26 -60oC: 45

830 650 28 -50oC: 27

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 5-25% CO2 + 10-30% He (M211)

Argon + 5-25% CO2 (M21)

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 1-3% CO2 (M12)

Argon + 10-35% He + 0-2% CO2 (M12/1)

Argon + 1-3% O2 (M13)

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

AWS type

Slag

Flux for submerged arc welding (S)

Welding positions

Features and benefits

Shielding gas (G)

T0-1/4 T0-4 T1-1/4

- - -

ECXXX

Rutile slow freezing Basic Rutile fast freezing No slag (metal powder)

All positions *All positions

Neutral Flux

Optimized bead appearance and

productivity in flat and downhand positions

Ultimate impact toughness and crack resistance

Ideal for out-of-position

welding

• Special composition• Thin gauge plates• X-ray quality on heavy sections

TETRA S

TETRA S B

TUBE S

1.2 and 1.6

1.2

1.2 to 2.4

1.2 and 1.6

1.2 to 2.4

G

G

G

G

G/S

G

G/S

D57L

22 9 3L

D57L

22 9 3L

22 9 3L

22 9 3L

D57L

Duplex and Superduplex

T 22 9 3 N L B M21 3E2209T0-4

T 22 9 3 N L P M21 1 (C1 1)E2209T1-1/-4

T 22 9 3 N L M M12 1EC2209

T Z 25 9 4 Cu N L R M21 3E2553T0-4 *

T Z 25 9 4 Cu N L M M12 1EC2553 *

T Z 25 9 4 Cu N L B M21 3E2553T0-4 *

C: 0.030Mn: 1.40Si: 0.80Cr: 23.0Ni: 9.00Mo: 3.20N: >0.15

C: 0.030Mn: 1.40Si: 0.60Cr: 25.0Ni: 9.50Mo: 3.80Cu: 1.00N: 0.26

Detailed operating conditions: see page 26

* Nearest

Welding of stainless steels - A product for each application

Welding of highly alloyed steels

By courtesy of Welders NV

* Please refer to your local Welding Alloys technicians

16 17 Joining

TETRA S

1.2 and 1.6

1.2 and 1.6 T 19 13 4 N L R M 3 (C3)E317LT0-1/-4

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Grade Type Rp 0.2% [MPa]

Product name Description and applications Base material

• Austenitic deposit in CrNiMoNb steel - type 318• Joining and cladding of Ti or Nb stabilised steels of similar compositions • Service temperatures up to 400°C

• Austenitic deposit in CrNiMo steel - type 317L• Joining of low-carbon steels with similar compositions for increased corrosion resistance• Conforms exactly to the standard AWS/ASME IIC : E317L• Service temperatures up to 350°C

• Fully austenitic deposit in CrNiMoCu steel – type 385• Great flexibility of use: unique rutile type slag in the TETRA version• Specially developed for the phosphate industry• Welding of matching steel 1.4539 (UB6), 904L• Service temperatures from -110°C to +350°C

(1.4429) X2 CrNiMoN 17-13-3, (1.4435) X2CrNiMo 18-14-3, (1.4438) X2 CrNiMo 18-15-4; AISI 316L-316LN-317LN-317L

(1.4751) X6CrNiMoTi 17-12-2, (1.4580) X6CrNiMoNb18-12, (1.4401) X5CrNiMo17-12-2, (1.4435) X2CrNiMo;UNS S31653, AISI 316Ti-316Cb

(1.4539) X1NiCrMoCu 25-20-5, (1.4537) X1 CrNiMoCuN 25-25-5, (1.4505) X4NiCrMoCuNb 20-18-2;UNS N08904, S31726

(1.4466) X2CrNiMo25-22-2, (1.4465) X1 CrNiMoN 25-25-2, (1.4435) X2CrNiMo 18-14-3

640 430 32 -110oC: 35

640 480 32 +20oC: 50

620 480 34 +20oC: 50

620 480 34 +20oC: 50

600 400 35 +20oC: 50

630 490 35 +20oC: 45

630 490 35 +20oC: 45

TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

1.2

1.2 to 2.4

G

G

G

G/S

G

G/S

318L

317L

318L

317L

317L

318L

T 19 13 4 N L P M 1 (C1)E317LT1-1/-4

T 19 13 4 N L M M 1EC317L

T 19 12 3 Nb R M 3 (C3)E318T0-1/-4 *

T 19 12 3 Nb M M 1EC318

T 19 12 3 Nb P M 1 (C1)E318T1-1/-4 *

TETRA S 1.2 and 1.6

1.2 and 1.6

T Z 20 25 5 Cu L R M 3 (C3)E385LT0-1/-4 *

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

904L

904L

904L

T Z 20 25 5 Cu L P M 1 (C1)E385LT1-1/-4 *

T Z 20 25 5 Cu L M M 1EC385

• Austenitic deposit in CrNiMnMo steel – modified type 310Mo• Joining and cladding of steels with similar compositions • Exceptional corrosion resistance in nitric acid, ammonium carbamate and chloride-containing media

600 410 35 +20oC: 80

640 410 35 -110oC: 35

640 430 32 -110oC: 35

TETRA S B 1.2 and 1.6G465 T Z 25 22 2 N L Z M 3- **

C: 0.020Mn: 3.50Si: 0.25Cr: 25.0Ni: 22.0Mo: 2.20N: 0.13

C: 0.030Mn: 1.40Si: 0.80Cr: 19.5Ni: 13.0Mo: 3.50

C: 0.030Mn: 1.50Si: 0.90Cr: 19.5Ni: 12.0Mo: 2.90Nb: 0.45

C: 0.030Mn: 3.00Si: 0.50Cr: 20.5Ni: 25.5Mo: 4.90Cu: 1.50

ProcessO: open arc

G: gas shieldedS: sub arc

Austenitic stainless steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

Welding of highly alloyed steels

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

14 15 Joining

TETRA S

1.2 and 1.6

0.9 to 1.6 T 19 9 L R M21 3 (C1 3)E308LT0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

Welding of highly alloyed steels

• Austenitic deposit in CrNiNb steel - type 347• Joining of Ti or Nb stabilised steels of similar composition, resistant to corrosion • Weld overlaying of clad plates of the same or similar compositions• Service temperatures from -196°C to +400°C

• Austenitic deposit in CrNi steel - type 308L• Joining of low carbon steels and/or stabilised steels with similar compositions, resistant to corrosion • Service temperatures from -196°C to +350°C

(1.4306) X2CrNi19-11, (1.4301) X5CrNi18.10, (1.4311) X2 CrNiN18-10, (1.4312) GX10CrNi18-8. AISI 304-304L-304LN-302-321-347;ASTM: A157 Gr C9, A320 Gr B8C or D

(1.4550) X6CrNiNb18-10, (1.4541) X6CrNiTi18-10, (1.4552) GX5CrNiNb19-11, (1.4311) X2 CrNiN 18.10, (1.4301) X5CrNi18-10, (1.4546) X5CrNiNb 18-10; AISI 347-321-302-304, ASTM A296 Gr.CF 8 C, A157Gr. C9; A320Gr. B8C or D620 430 35 -196oC: 35

660 470 35 -196oC: 34

660 470 35 -196oC: 34

600 430 40 -196oC: 35

620 460 36 -196oC: 34

560 390 40 -196oC: 40

620 460 36 -196oC: 32

Detailed operating conditions: see page 26

TETRA S

TETRA V

TUBE S

1.2 and 1.6

0.9 to 1.2

1.2 to 2.4

1.2

1.2 to 2.4

G

G

G

G

G/S

G

G/S

347L

308L

347L

308L

308L

308L

347L

T 19 9 L B M21 3E308LT0-4

T 19 9 L P M21 1 (C1 1)E308LT1-1/-4

T 19 9 L M M12 1EC308L

T 19 9 Nb R M21 3 (C1 3)E347T0-1/-4

T 19 9 Nb M M12 1EC347

T 19 9 Nb P M21 1 (C1 1)E347T1-1/-4

C: 0.030Mn: 1.40Si: 0.70Cr: 20.0Ni: 10.5

TETRA S 0.9 to 1.6 T 19 12 3 L R M21 3 (C1 3)E316LT0-1/-4

TETRA S B

TETRA V

TUBE S

• Austenitic deposit in CrNiMo steel - type 316L, over-alloyed• Joining of low-carbon CrNiMo steels, resistant to localised, intergranular and stress corrosion, in chloride-containing media• Ferrite free deposit• Service temperatures from -110°C to +350°C

• Austenitic deposit in CrNiMo steel – type 316L – resistant to intercrystalline corrosion under humid conditions up to 400°C.• Joining of low-carbon or stabilised steels with similar compositions • Weld overlaying of clad plates of the same or similar compositions• Service temperatures from -110°C to +400°C

(1.4439) X2 CrNiMoN 17-13-5, (1.4438) X2 CrNiMo 18-16-4, (1.4436) X3CrNiMo17-13-3, (1.4583) X10CrNiMoNb18-12;AISI 316Cb-316LN-317LN-317L, UNS S 31726

(1.4401) X5CrNiMo17-12-2, (1.4404) X2CrNiMo17-12-2, (1.4435) X2CrNiMo18-14-3, (1.4436) X3CrNiMo17-13-3, (1.4571) X6CrNiMoTi17-12-2, (1.4580) X6CrNiMoNb17-12-2, (1.4583) X10CrNiMoNb18-12, (1.4409) GX2CrNiMo19-11-2;UNS S 31603, 31600, 31653, AISI316L, 316Ti, 316Cb

610 450 35 -110oC: 35

600 490 32 -110oC: 35

550 430 40 -110oC: 50

600 490 32 -110oC: 35

1.2 and 1.6

0.9 to 1.2

1.2 to 2.4

G

G

G

G/S

316L

316L

316L

316L

T 19 12 3 L B M21 3E316LT0-4

TETRA S B 600 420 40 +20oC: 701.2 and 1.6G316NFL T 18 16 5 N L ZB M21 3-

T 19 12 3 L P M21 1 (C1 1)E316LT1-1/-4

T 19 12 3 L M M12 1EC316L

C: 0.030Mn: 1.40Si: 0.80Cr: 19.0Ni: 12.0Mo: 2.90

C: 0.030Mn: 3.00Si: 0.25Cr: 19.5Ni: 16.5Mo: 4.00N: 0.10

C: 0.030Mn: 1.40Si: 0.90Cr: 19.5Ni: 10.5Nb: 0.50

Austenitic stainless steels

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

By courtesy of Welders NV* Please refer to your local Welding Alloys technicians

12 13 Joining

TETRA S

1.2 and 1.6

0.9 to 1.6 T 22 9 3 N L R M21 3 (C1 3)E2209T0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

• Austenitic-ferritic deposit in CrNiMo steel - type 2553• Joining of superduplex stainless steels • Great flexibility of use with type 80/20 mixed gas • Very good corrosion resistance: CPT: 40°C

• Austenitic-ferritic deposit in CrNiMo steel - type 2209• Joining of duplex stainless steels and dissimilar assemblies • Very good corrosion resistance: CPT: 25°C

(1.4462) X2CrNiMoN22-5-3; (1.4362) X2CrNiN 23-4; UNS S31803, S32205, J92205, S31500, S32304, S32404

(1.4507) X2CrNiMoCuN25-6-3, (1.4410) X2CrNiMoN25-7-4 (1.4501), X2CrNiMoCuWN 25-7-4, (1.4517) X3CrNiMoCuN25-6-3-3;UNS S S32520, S32550, S32750, S32760, S32740, J93404, J93390, J93370910 705 26 -29oC: 32

910 720 25 -45oC: 47

950 830 22 -29oC: 30

800 610 28 -60oC: 32

780 630 28 -60oC: 32

790 610 26 -60oC: 45

830 650 28 -50oC: 27

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 5-25% CO2 + 10-30% He (M211)

Argon + 5-25% CO2 (M21)

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 1-3% CO2 (M12)

Argon + 10-35% He + 0-2% CO2 (M12/1)

Argon + 1-3% O2 (M13)

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

AWS type

Slag

Flux for submerged arc welding (S)

Welding positions

Features and benefits

Shielding gas (G)

T0-1/4 T0-4 T1-1/4

- - -

ECXXX

Rutile slow freezing Basic Rutile fast freezing No slag (metal powder)

All positions *All positions

Neutral Flux

Optimized bead appearance and

productivity in flat and downhand positions

Ultimate impact toughness and crack resistance

Ideal for out-of-position

welding

• Special composition• Thin gauge plates• X-ray quality on heavy sections

TETRA S

TETRA S B

TUBE S

1.2 and 1.6

1.2

1.2 to 2.4

1.2 and 1.6

1.2 to 2.4

G

G

G

G

G/S

G

G/S

D57L

22 9 3L

D57L

22 9 3L

22 9 3L

22 9 3L

D57L

Duplex and Superduplex

T 22 9 3 N L B M21 3E2209T0-4

T 22 9 3 N L P M21 1 (C1 1)E2209T1-1/-4

T 22 9 3 N L M M12 1EC2209

T Z 25 9 4 Cu N L R M21 3E2553T0-4 *

T Z 25 9 4 Cu N L M M12 1EC2553 *

T Z 25 9 4 Cu N L B M21 3E2553T0-4 *

C: 0.030Mn: 1.40Si: 0.80Cr: 23.0Ni: 9.00Mo: 3.20N: >0.15

C: 0.030Mn: 1.40Si: 0.60Cr: 25.0Ni: 9.50Mo: 3.80Cu: 1.00N: 0.26

Detailed operating conditions: see page 26

* Nearest

Welding of stainless steels - A product for each application

Welding of highly alloyed steels

By courtesy of Welders NV

* Please refer to your local Welding Alloys technicians

16 17 Joining

TETRA S

1.2 and 1.6

1.2 and 1.6 T 19 13 4 N L R M 3 (C3)E317LT0-1/-4

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Grade Type Rp 0.2% [MPa]

Product name Description and applications Base material

• Austenitic deposit in CrNiMoNb steel - type 318• Joining and cladding of Ti or Nb stabilised steels of similar compositions • Service temperatures up to 400°C

• Austenitic deposit in CrNiMo steel - type 317L• Joining of low-carbon steels with similar compositions for increased corrosion resistance• Conforms exactly to the standard AWS/ASME IIC : E317L• Service temperatures up to 350°C

• Fully austenitic deposit in CrNiMoCu steel – type 385• Great flexibility of use: unique rutile type slag in the TETRA version• Specially developed for the phosphate industry• Welding of matching steel 1.4539 (UB6), 904L• Service temperatures from -110°C to +350°C

(1.4429) X2 CrNiMoN 17-13-3, (1.4435) X2CrNiMo 18-14-3, (1.4438) X2 CrNiMo 18-15-4; AISI 316L-316LN-317LN-317L

(1.4751) X6CrNiMoTi 17-12-2, (1.4580) X6CrNiMoNb18-12, (1.4401) X5CrNiMo17-12-2, (1.4435) X2CrNiMo;UNS S31653, AISI 316Ti-316Cb

(1.4539) X1NiCrMoCu 25-20-5, (1.4537) X1 CrNiMoCuN 25-25-5, (1.4505) X4NiCrMoCuNb 20-18-2;UNS N08904, S31726

(1.4466) X2CrNiMo25-22-2, (1.4465) X1 CrNiMoN 25-25-2, (1.4435) X2CrNiMo 18-14-3

640 430 32 -110oC: 35

640 480 32 +20oC: 50

620 480 34 +20oC: 50

620 480 34 +20oC: 50

600 400 35 +20oC: 50

630 490 35 +20oC: 45

630 490 35 +20oC: 45

TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

1.2

1.2 to 2.4

G

G

G

G/S

G

G/S

318L

317L

318L

317L

317L

318L

T 19 13 4 N L P M 1 (C1)E317LT1-1/-4

T 19 13 4 N L M M 1EC317L

T 19 12 3 Nb R M 3 (C3)E318T0-1/-4 *

T 19 12 3 Nb M M 1EC318

T 19 12 3 Nb P M 1 (C1)E318T1-1/-4 *

TETRA S 1.2 and 1.6

1.2 and 1.6

T Z 20 25 5 Cu L R M 3 (C3)E385LT0-1/-4 *

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

904L

904L

904L

T Z 20 25 5 Cu L P M 1 (C1)E385LT1-1/-4 *

T Z 20 25 5 Cu L M M 1EC385

• Austenitic deposit in CrNiMnMo steel – modified type 310Mo• Joining and cladding of steels with similar compositions • Exceptional corrosion resistance in nitric acid, ammonium carbamate and chloride-containing media

600 410 35 +20oC: 80

640 410 35 -110oC: 35

640 430 32 -110oC: 35

TETRA S B 1.2 and 1.6G465 T Z 25 22 2 N L Z M 3- **

C: 0.020Mn: 3.50Si: 0.25Cr: 25.0Ni: 22.0Mo: 2.20N: 0.13

C: 0.030Mn: 1.40Si: 0.80Cr: 19.5Ni: 13.0Mo: 3.50

C: 0.030Mn: 1.50Si: 0.90Cr: 19.5Ni: 12.0Mo: 2.90Nb: 0.45

C: 0.030Mn: 3.00Si: 0.50Cr: 20.5Ni: 25.5Mo: 4.90Cu: 1.50

ProcessO: open arc

G: gas shieldedS: sub arc

Austenitic stainless steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

Welding of highly alloyed steels

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

12 13 Joining

TETRA S

1.2 and 1.6

0.9 to 1.6 T 22 9 3 N L R M 3 (C3)E2209T0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

• Austenitic-ferritic deposit in CrNiMo steel - type 2553• Joining of superduplex stainless steels • Great flexibility of use with type 80/20 mixed gas • Very good corrosion resistance: CPT: 40°C

• Austenitic-ferritic deposit in CrNiMo steel - type 2209• Joining of duplex stainless steels and dissimilar assemblies • Very good corrosion resistance: CPT: 25°C

(1.4462) X2CrNiMoN22-5-3; (1.4362) X2CrNiN 23-4; UNS S31803, S32205, J92205, S31500, S32304, S32404

(1.4507) X2CrNiMoCuN25-6-3, (1.4410) X2CrNiMoN25-7-4 (1.4501), X2CrNiMoCuWN 25-7-4, (1.4517) X3CrNiMoCuN25-6-3-3;UNS S S32520, S32550, S32750, S32760, S32740, J93404, J93390, J93370910 705 26 -29oC: 32

910 720 25 -29oC: 45

950 830 22 -29oC: 30

800 610 28 -60oC: 32

780 630 28 -60oC: 32

790 610 26 -60oC: 45

830 670 28 -60oC: 32

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 5-25% CO2 + 10-30% He (M211)

Argon + 5-25% CO2 (M21)

Argon + 5-50% CO2 (-)

100% CO2 (C1)

Argon + 1-3% CO2 (M12)

Argon + 10-35% He + 0-2% CO2 (M12/1)

Argon + 1-3% O2 (M13)

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

AWS type

Slag

Flux for submerged arc welding (S)

Welding positions

Features and benefits

Shielding gas (G)

T0-1/4 T0-4 T1-1/4

- - -

ECXXX

Rutile slow freezing Basic Rutile fast freezing No slag (metal powder)

All positions *All positions

Neutral Flux

Optimized bead appearance and

productivity in flat and downhand positions

Ultimate impact toughness and crack resistance

Ideal for out-of-position

welding

• Special composition• Thin gauge plates• X-ray quality on heavy sections

TETRA S

TETRA S B

TUBE S

1.2 and 1.6

1.2

1.2 to 2.4

1.2 and 1.6

1.2 to 2.4

G

G

G

G

G/S

G

G/S

D57L

22 9 3L

D57L

22 9 3L

22 9 3L

22 9 3L

D57L

Duplex and Superduplex

T 22 9 3 N L Z M 3E2209T0-4

T 22 9 3 N L P M 1 (C1)E2209T1-1/-4

T 22 9 3 N L M M 1EC2209

T Z 25 9 4 Cu N L R M 3E2553T0-4 *

T Z 25 9 4 Cu N L M M 1EC2553 *

T Z 25 9 4 Cu N L Z M 3E2553T0-4 *

C: 0.030Mn: 1.40Si: 0.80Cr: 23.0Ni: 9.00Mo: 3.20N: >0.15

C: 0.030Mn: 1.40Si: 0.60Cr: 25.0Ni: 9.50Mo: 3.80Cu: 1.00N: 0.26

Detailed operating conditions: see page 26

* Nearest

Welding of stainless steels - A product for each application

Welding of highly alloyed steels

* Please refer to your local Welding Alloys technicians

16 17 Joining

TETRA S

1.2 and 1.6

1.2 and 1.6 T 19 13 4 N L R M21 3 (C1 3)E317LT0-1/-4

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Grade Type Rp 0.2% [MPa]

Product name Description and applications Base material

• Austenitic deposit in CrNiMoNb steel - type 318• Joining and cladding of Ti or Nb stabilised steels of similar compositions • Service temperatures up to 400°C

• Austenitic deposit in CrNiMo steel - type 317L• Joining of low-carbon steels with similar compositions for increased corrosion resistance• Conforms exactly to the standard AWS/ASME IIC : E317L• Service temperatures up to 350°C

• Fully austenitic deposit in CrNiMoCu steel – type 385• Great flexibility of use: unique rutile type slag in the TETRA version• Specially developed for the phosphate industry• Welding of matching steel 1.4539 (UB6), 904L• Service temperatures from -110°C to +350°C

(1.4429) X2 CrNiMoN 17-13-3, (1.4435) X2CrNiMo 18-14-3, (1.4438) X2 CrNiMo 18-15-4; AISI 316L-316LN-317LN-317L

(1.4751) X6CrNiMoTi 17-12-2, (1.4580) X6CrNiMoNb18-12, (1.4401) X5CrNiMo17-12-2, (1.4435) X2CrNiMo;UNS S31653, AISI 316Ti-316Cb

(1.4539) X1NiCrMoCu 25-20-5, (1.4537) X1 CrNiMoCuN 25-25-5, (1.4505) X4NiCrMoCuNb 20-18-2;UNS N08904, S31726

(1.4466) X2CrNiMo25-22-2, (1.4465) X1 CrNiMoN 25-25-2, (1.4435) X2CrNiMo 18-14-3

640 430 32 -110oC: 35

640 480 32 +20oC: 50

620 480 34 +20oC: 50

620 480 34 +20oC: 50

600 400 35 +20oC: 50

630 490 35 +20oC: 45

630 490 35 +20oC: 45

TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

1.2

1.2 to 2.4

G

G

G

G/S

G

G/S

318L

317L

318L

317L

317L

318L

T 19 13 4 N L P M21 1 (C1 1)E317LT1-1/-4

T 19 13 4 N L M M12 1EC317L

T 19 12 3 Nb R M21 3 (C1 3)E318T0-1/-4 *

T 19 12 3 Nb M M12 1EC318

T 19 12 3 Nb P M21 1 (C1 1)E318T1-1/-4 *

TETRA S 1.2 and 1.6

1.2 and 1.6

T Z 20 25 5 Cu L R M21 3 (C1 3)E385LT0-1/-4 *

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

904L

904L

904L

T Z 20 25 5 Cu L P M21 1 (C1 1)E385LT1-1/-4 *

T Z 20 25 5 Cu L M M12 1EC385

• Austenitic deposit in CrNiMnMo steel – modified type 310Mo• Joining and cladding of steels with similar compositions • Exceptional corrosion resistance in nitric acid, ammonium carbamate and chloride-containing media

600 410 35 +20oC: 80

640 410 35 -110oC: 35

640 430 32 -110oC: 35

TETRA S B 1.2 and 1.6G465 T Z 25 22 2 N L B M21 3- **

C: 0.020Mn: 3.50Si: 0.25Cr: 25.0Ni: 22.0Mo: 2.20N: 0.13

C: 0.030Mn: 1.40Si: 0.80Cr: 19.5Ni: 13.0Mo: 3.50

C: 0.030Mn: 1.50Si: 0.90Cr: 19.5Ni: 12.0Mo: 2.90Nb: 0.45

C: 0.030Mn: 3.00Si: 0.50Cr: 20.5Ni: 25.5Mo: 4.90Cu: 1.50

ProcessO: open arc

G: gas shieldedS: sub arc

Austenitic stainless steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

Welding of highly alloyed steels

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base materialStandarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL B NiMo

ROBOFIL M 700

ROBOFIL B 700

ROBOFIL M Mo

ROBOFIL M CrMo1

ROBOFIL B CrMo1

ROBOFIL M CrMo2

ROBOFIL B CrMo2

ROBOFIL B P91

T 55 6 1NiMoB M3 H5

E90T5-G H4

C: 0.05Mn: 1.40Si: 0.40Ni: 1.20Mo: 0.40

T 69 5 Mn2NiCrMo M M1 H5

E110C-K4 H4

C: 0.06Mn: 1.50Si: 0.50Cr: 0.45Ni: 2.40Mo: 0.45

T 69 5 Mn2NiCrMo B M3 H5

E110T5-K4

T Mo M M 1 H5

E80C-G H4

C: 0.06Mn: 1.20Si: 0.40Mo: 0.50

C: 0.05Mn: 1.40Si: 0.30Cr: 0.50Ni: 2.40Mo: 0.50

T CrMo1 M M 1 H5

E80C-B2 H4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo1 B M 3 H5

E80T5-B2-M H4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo2 M M 1 H5

E90C-B3 H4

C: 0.06Mn: 1.10Si: 0.30Cr: 2.30Mo: 1.00

T CrMo2 B M 3 H5

E90T5-B3M H4

-

E90T5-G H4

C: 0.06Mn:1.10Si: 0.40Cr: 2.30Mo: 1.00

C: 0.10Mn: 0.70Si: 0.20Cr: 9.20Ni: 0.80Mo:1.00Nb, V, N

60°C

S690QL1, N’AXTRA63-70; ASTM: A225 Gr C, A514 et 517 Gr A, B, C, E, F, H, J, K, M, P, A656, A678Gr C

860 810 17 -50oC: 50

680 600 24 -60oC: 55

600 510 25 -40oC: 50

900 840 20 -50oC: 60

650 580 23

630 530 24

680 580 22

820 750 17

PWHT1h/690oC+20oC: 90

PWHT4h/750oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC+20oC: 90

680 580 21

Gas-shielded welding

Rutile type wire for all-position weldingWelding fine-grained and pipe steels with toughness required down to -60°C

1.2 and 1.6T 55 5 Z M M 1 H5

E90C-K3 H4

C: 0.05Mn: 1.60Si: 0.40Ni: 1.60Mo: 0.30

720 610 24 -50oC: 80ROBOFIL M NiMo S235J2G3 to S355K2G, S235J2GH to P355GHStE255 - StE500, StE35.8, StE45.8, X42-X80 (API-5L)

18 19 Joining

TETRA S 1.2 and 1.6 T 19 9 H R M 3 (C3)E308HT0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

Welding of highly alloyed steels

• Heat resistant austenitic deposit in CrNi steel - type 309, oxidation resistant up to 900°C• Joining of steel forgings and castings with similar compositions

• Austenitic deposit in CrNi steel - type 308H with controlled ferrite level, heat resistant up to 650°C and oxidation resistant up to 800°C• Joining and cladding of stabilised or non stabilised creep-resistant austenitic steels with similar compositions

• Heat resistant austenitic deposit for applications up to 850°C • Unique resistance to hot cracking

(1.4948) X6 CrNiNb 18-11, (1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 304H-321H-347H

(1.4948) X6 CrNi 18-11, (1.4941) X8 CrNiTi 18-10,(1.4961) X8 CrNiNb 16-13, (1.4919) X6 CrNiMo 17-13

(1.4828) X15CrNiSi20-12, (1.4826) G-X 40CrNiSi 22-9, (1.4833) X7 CrNi 23-14. AISI 305, ASTM : A297 HF

600 430 35 +20oC: 70

625 470 35 +20oC: 60

590 410 40 +20oC: 80

625 470 35 +20oC: 60

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

308H

308H

308H

308H

T 19 9 H Z M 3E308HT0-4

T 19 9 H P M 1 (C1)E308HT1-1/-4

T 19 9 H M M 1EC308H

C: 0.06Mn: 1.40Si: 0.80Cr: 20.5Ni: 10.5

TETRA V 620 460 40 +20oC: 701.2 and 1.6G1682 T Z 16 8 2 R M 3 (C3)- **

C: 0.06, Mn: 1.40Si: 0.50, Cr: 16.5Ni: 9.6, Bi: <0.002

TETRA S 1.2 and 1.6T 22 12 H R M 3 (C3)

E309T0-1/-4

TETRA S B

TETRA V

TUBE S

• Heat resistant austenitic deposit in CrNi steel - type 310, resistant to oxidation up to 1150°C• Joining of stainless steels with similar compositions • Good resistance to hot cracking during welding

• Austeno-ferritic deposit in CrNi steel corresponding to the material no 1.4820 • Resists oxidation to 1150°C and reducing sulphurous gases• Joining of Cr Al Si type heat resistant steels

• Austenitic deposit in CrNiNb steel - type 347 with controlled ferrite level, creep resistant • Heat resistant up to 700°C• Joining and cladding of steels with similar compositions

• Heat resistant austenitic deposit in CrNi steel – modified type 309, with additions of nitrogen and rare earths • Joining of steels with similar compositions resisting oxidation up to 1000°C• Good resistance to fatigue and to deformation linked to rapid and repeated temperature variations

(1.4837 ) GX40CrNiSi 25-12, (1.4840) GX15CrNi25-20, (1.4841) X15CrNiSi 25-20; ASTM: A297HF

(1.4821) X20 CrNiSi 25-4, (1.4823) G-X40CrNiSi 27 4 (1.4713) X10CrAl7, (1.4724) X10 CrAl13, (1.4762) X10 CrAl25, (1.4740) G-X40 Crsi17, (1.4347) GX8CrNi26-7; ASTM327, ASTM: A297HC

(1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 321H-347H

(1.4835) X9CrNiSiNCe 21-11-2, UNS S30815, S30415

620 450 35 +20oC: 60

600 495 33 +20oC: 50

590 480 35 +20oC: 70

600 495 33 +20oC: 50

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

309H

309H

309H

309H

T 22 12 H Z M 3E309T0-4

T 22 12 H P M 1 (C1)E309T1-1/-4

T 22 12 H M M 1EC309

C: 0.06Mn: 1.40Si: 0.80Cr: 23.0Ni: 12.8

TETRA S 1.2 and 1.6T 25 20 R M 3 (C3)

(E310T0-1/-4) *

TETRA S B

TETRA V

TUBE S 630 420 30 +20oC: 70

580 410 30 +20oC: 50

580 400 30 +20oC: 80

560 410 30 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

310

310

310

310

T 25 20 Z M 3(E310T0-4) *

T 25 20 P M 1 (C1)(E310T1-1/-4) *

T 25 20 M M 1(EC310) *

C: 0.15Mn: 4.00Si: 0.60Cr: 26.0Ni: 20.5

1.2 and 1.6

720 530 32 +20oC: 50

730 540 27 +20oC: 90

720 530 33 +20oC: 50TETRA S

TETRA S B

TETRA V

1.2 and 1.6

1.2

G

G

G

309HT

309HT

309HT

T Z 22 10 N H R M 3 (C3)- **

T Z 22 10 N H P M 1 (C1)- **

T Z 22 10 N H Z M 3- **

C: 0.06Mn: 1.00Si: 1.40Cr: 22.0Ni: 10.0N + Ce

1.2 and 1.6

750 570 20 +20oC: 40

750 570 20 +20oC: 40TETRA S

TUBE S 1.2 to 2.4

G

G/S

329

329

T Z 25 4 R M 3 (C3)- **

T Z 25 4 M M 1- **

C: 0.08Mn: 0.70Si: 0.80Cr: 25.0Ni: 4.00

1.2 and 1.6

640 450 35 +20oC: 70

620 470 35 +20oC: 60

620 470 35 +20oC: 60TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

347H

347H

347H

T 19 9 Nb R M 3 (C3)E347T0-1/-4

T 19 9 Nb M M 1EC347

T 19 9 Nb P M 1 (C1)E347T1-1/-4

C: 0.06Mn: 1.40Si: 0.90Cr: 19.5Ni: 10.5Nb: 0.70

ProcessO: open arc

G: gas shieldedS: sub arc

Heat resistant steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

* Please refer to your local Welding Alloys technicians

ROBOFIL R 690T 69 4 Z P M 1 H5

E111T1-G M-J H4

C: 0.05Mn: 1.80Si: 0.30Ni: 2.20Mo: 0.15

800 740 19 -40oC: 50

1.2 and 1.6T 69 4 Mn2NiMo P M 1 H5

E111T1-K3M-J H4

C: 0.05Mn: 1.85Si: 0.30Ni: 2.20Mo: 0.35

800 740 19 -40oC: 50ROBOFIL R 690 +S690QL1, N’AXTRA63-70; ASTM: A225 Gr C, A514 et 517 Gr A, B, C, E, F, H, J, K, M, P, A656, A678Gr C

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base materialStandarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL M NiMo

ROBOFIL B NiMo

ROBOFIL M 700

ROBOFIL B 700

ROBOFIL M Mo

ROBOFIL M CrMo1

ROBOFIL B CrMo1

ROBOFIL M CrMo2

ROBOFIL B CrMo2

ROBOFIL B P91

T 55 5 Z M M 1 H5

E90C-K3 H4

C: 0.05Mn: 1.60Si: 0.40Ni: 1.60Mo: 0.30

T 55 6 1NiMoB M3 H5

E90T5-G H4

C: 0.05Mn: 1.40Si: 0.40Ni: 1.20Mo: 0.40

T 69 5 Mn2NiCrMo M M1 H5

E110C-K4 H4

C: 0.06Mn: 1.50Si: 0.50Cr: 0.45Ni: 2.40Mo: 0.45

T 69 5 Mn2NiCrMo B M3 H5

E110T5-K4

T Mo M M 1 H5

E80C-G H4

C: 0.06Mn: 1.20Si: 0.40Mo: 0.50

C: 0.05Mn: 1.40Si: 0.30Cr: 0.50Ni: 2.40Mo: 0.50

T CrMo1 M M 1 H5

E80C-B2 H4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo1 B M 3 H5

E80T5-B2-MH4

C: 0.06Mn: 1.10Si: 0.40Cr: 1.20Mo: 0.50

T CrMo2 M M 1 H5

E90C-B3 H4

C: 0.06Mn: 1.10Si: 0.30Cr: 2.30Mo: 1.00

T CrMo2 B M 3 H5

E90T5-B3M H4

-

E90T5-G H4

C: 0.06Mn:1.10Si: 0.40Cr: 2.30Mo: 1.00

C: 0.10Mn: 0.70Si: 0.20Cr: 9.20Ni: 0.80Mo:1.00Nb, V, N

720 610 24 -50oC: 80

860 810 17 -50oC: 50

680 600 24 -60oC: 55

600 510 25 -40oC: 50

900 840 20 -50oC: 60

650 580 23

630 530 24

680 580 22

820 750 17

PWHT1h/690oC+20oC: 90

PWHT4h/750oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC

+20oC: 120

PWHT1h/690oC+20oC: 90

680 580 21

Gas-shielded welding

Rutile type wire for all-position welding

1.2 and 1.6T55 2 1NiMo P M 2 H10

E621T1-K1M-JH8

C: 0.05Mn: 1.30Si: 0.30Ni: 0.90Mo 0.50

720 640 20 -20oC: 60ROBOFIL R 91

18 19 Joining

TETRA S 1.2 and 1.6 T 19 9 H R M21 3 (C1 3)E308HT0-1/-4

TETRA S B

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa] Grade Type Rp 0.2%

[MPa]

Product name Description and applications Base material

Welding of highly alloyed steels

• Heat resistant austenitic deposit in CrNi steel - type 309, oxidation resistant up to 900°C• Joining of steel forgings and castings with similar compositions

• Austenitic deposit in CrNi steel - type 308H with controlled ferrite level, heat resistant up to 650°C and oxidation resistant up to 800°C• Joining and cladding of stabilised or non stabilised creep-resistant austenitic steels with similar compositions

• Heat resistant austenitic deposit for applications up to 850°C • Unique resistance to hot cracking

(1.4948) X6 CrNiNb 18-11, (1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 304H-321H-347H

(1.4948) X6 CrNi 18-11, (1.4941) X8 CrNiTi 18-10,(1.4961) X8 CrNiNb 16-13, (1.4919) X6 CrNiMo 17-13

(1.4828) X15CrNiSi20-12, (1.4826) G-X 40CrNiSi 22-9, (1.4833) X7 CrNi 23-14. AISI 305, ASTM : A297 HF

600 430 35 +20oC: 70

625 470 35 +20oC: 60

590 410 40 +20oC: 80

625 470 35 +20oC: 60

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

308H

308H

308H

308H

T 19 9 H B M21 3E308HT0-4

T 19 9 H P M21 1 (C1 1)E308HT1-1/-4

T 19 9 H M M12 1EC308H

C: 0.06Mn: 1.40Si: 0.80Cr: 20.5Ni: 10.5

TETRA V 620 460 40 +20oC: 701.2 and 1.6G1682 T Z 16 8 2 R M21 3 (C1 3)- **

C: 0.06, Mn: 1.40Si: 0.50, Cr: 16.5

Ni: 9.6, Bi:<20ppm

TETRA S 1.2 and 1.6T 22 12 H R M21 3 (C1 3)

E309T0-1/-4

TETRA S B

TETRA V

TUBE S

• Heat resistant austenitic deposit in CrNi steel - type 310, resistant to oxidation up to 1150°C• Joining of stainless steels with similar compositions • Good resistance to hot cracking during welding

• Austeno-ferritic deposit in CrNi steel corresponding to the material no 1.4820 • Resists oxidation to 1150°C and reducing sulphurous gases• Joining of Cr Al Si type heat resistant steels

• Austenitic deposit in CrNiNb steel - type 347 with controlled ferrite level, creep resistant • Heat resistant up to 700°C• Joining and cladding of steels with similar compositions

• Heat resistant austenitic deposit in CrNi steel – modified type 309, with additions of nitrogen and rare earths • Joining of steels with similar compositions resisting oxidation up to 1000°C• Good resistance to fatigue and to deformation linked to rapid and repeated temperature variations

(1.4837 ) GX40CrNiSi 25-12, (1.4840) GX15CrNi25-20, (1.4841) X15CrNiSi 25-20; ASTM: A297HF

(1.4821) X20 CrNiSi 25-4, (1.4823) G-X40CrNiSi 27 4 (1.4713) X10CrAl7, (1.4724) X10 CrAl13, (1.4762) X10 CrAl25, (1.4740) G-X40 Crsi17, (1.4347) GX8CrNi26-7; ASTM327, ASTM: A297HC

(1.4850) X6CrNiNb 18-10, (1.4878) X12CrNiTi 18-9; AISI 321H-347H

(1.4835) X9CrNiSiNCe 21-11-2, UNS S30815, S30415

620 450 35 +20oC: 60

600 495 33 +20oC: 50

590 480 35 +20oC: 70

600 495 33 +20oC: 50

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

309H

309H

309H

309H

T 22 12 H B M21 3E309T0-4

T 22 12 H P M21 1 (C1 1)E309T1-1/-4

T 22 12 H M M12 1EC309

C: 0.06Mn: 1.40Si: 0.80Cr: 23.0Ni: 12.8

TETRA S 1.2 and 1.6T 25 20 R M21 3 (C1 3)

(E310T0-1/-4) *

TETRA S B

TETRA V

TUBE S 630 420 30 +20oC: 70

580 410 30 +20oC: 50

580 400 30 +20oC: 80

560 410 30 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

G

G

G

G/S

310

310

310

310

T 25 20 B M21 3(E310T0-4) *

T 25 20 P M21 1 (C1 1)(E310T1-1/-4) *

T 25 20 M M12 1(EC310) *

C: 0.15Mn: 4.00Si: 0.60Cr: 26.0Ni: 20.5

1.2 and 1.6

720 530 32 +20oC: 50

730 540 27 +20oC: 90

720 530 33 +20oC: 50TETRA S

TETRA S B

TETRA V

1.2 and 1.6

1.2

G

G

G

309HT

309HT

309HT

T Z 22 10 N H R M21 3 (C1 3)- **

T Z 22 10 N H P M21 1 (C1 1)- **

T Z 22 10 N H B M21 3- **

C: 0.06Mn: 1.00Si: 1.40Cr: 22.0Ni: 10.0N + Ce

1.2 and 1.6

750 570 20 +20oC: 40

750 570 20 +20oC: 40TETRA S

TUBE S 1.2 to 2.4

G

G/S

329

329

T Z 25 4 R M21 3 (C1 3)- **

T Z 25 4 M M12 1- **

C: 0.08Mn: 0.70Si: 0.80Cr: 25.0Ni: 4.00

1.2 and 1.6

640 450 35 +20oC: 70

620 470 35 +20oC: 60

620 470 35 +20oC: 60TETRA S

TETRA V

TUBE S

1.2

1.2 to 2.4

G

G

G/S

347H

347H

347H

T 19 9 Nb R M21 3 (C1 3)E347T0-1/-4

T 19 9 Nb M M12 1EC347

T 19 9 Nb P M21 1 (C1 1)E347T1-1/-4

C: 0.06Mn: 1.40Si: 0.90Cr: 19.5Ni: 10.5Nb: 0.70

ProcessO: open arc

G: gas shieldedS: sub arc

Heat resistant steels

Detailed operating conditions: see page 26

* Nearest ** No AWS specification is available

* Please refer to your local Welding Alloys technicians

� 1.5% Ni weld deposit for service temperature down to -60C� Welding of fine-grained steels with low temperature toughness� Especially low diffusible hydrogen content

Metal cored wire for single or multi-pass welding and for aautomatic welding

Metal cored wire for single or multi-pass welding and for aautomatic welding

Strong basic wire satisfying very high toughness requirements

� Strong basic wire satisfying very high toughness requirements� Very good sound deposit

Very high strength nickel-chromium-molybdenum alloyed weld deposit

20 21 Joining

TETRA S 1.2 to 1.6 T 18 8 Mn R M 3 (C3)E307T0-1/-4 *

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Type Rp 0.2% [MPa]

Product name Description and applications

Welding of highly alloyed steels

• Austeno-ferritic deposit in over-alloyed CrNi steel - type 309L, with optimised ferrite content for joining dissimilar metals• Joining of steels with similar compositions and joining carbon steels to stainless steels.• Buffering before cladding• Service temperatures from -60°C to +350°C

• Austenitic deposit in CrNiMo steel –modified type 308Mo, offering high mechanical strength • Fabrication of armoured vehicles, joining of steels with high yield points and limited weldability, dissimilar joints • High resistance to hot cracking• Service temperatures from -60°C to +300°C

• Work-hardening austenitic deposit in CrNiMn steel – modified type 307• Dissimilar joints, welding of steels of unknown types, armouring steels, buffering • Joining of 14% Mn austenitic steels • Service temperatures from -120°C to +300°C

710 530 30 +20oC: 50

650 450 40 +20oC: 90

630 480 40 +20oC: 50

630 480 40 +20oC: 50

1.2

1.2 to 2.4

1.2 to 1.6

G

G

G/S

G

307

307

307

20 9 3

T 18 8 Mn P M 1 (C1)E307T1-1/-4 *

T 18 8 Mn M M 1EC307 *

T 20 10 3 R M 3 (C3)E308MoT0-1/-4 *

C: 0.10Mn: 6.00Si: 0.70Cr: 19.0Ni: 9.00

TETRA S 1.2 to 1.6 T 19 12 3 Nb R M 3 (C3)E309LNbT0-1/-4

TETRA V

TUBE S

• Austeno-ferritic deposit – type 309 LNb• Joining of steels with similar compositions and joining carbon steels to stainless steels• Single-layer cladding to reach 347 chemistry• Service temperatures from -60°C to +350°C

650 490 25 +20oC: 50

650 490 25 +20oC: 50

650 490 25 +20oC: 50

1.2 to 1.6

1.2 to 1.6

G

G

G

309LNb

309LNb

309LNb

T 19 12 3 Nb P M 3 (C3)E309LNbT1-1/-4

T 19 12 3 Nb M M 1 EC309LNb

C: 0.030Mn: 1.30Si: 0.80Cr: 23.5Ni: 13.00Nb: 0.85

TETRA S

1.2 T 20 10 3 P M 1 (C1)E308MoT1-1/-4 *TETRA V

TUBE S

• Austeno-ferritic deposit in CrNi steel - type 312, offering exceptional cracking resistance• Joining of unknown or hard-to-weld steels• Dissimilar joints, including those to steels with high carbon equivalents : high speed steels, tool steels, Mn steels, high strength constructional steels, abrasion-resistant steel plates

• Austeno-ferritic deposit in over-alloyed CrNiMo steel - type 309LMo, for joining dissimilar metals• Joining of stainless steels to mild or low-alloyed steels at high dilution levels• Buffering before cladding• Service temperatures from -60°C to +350°C

580 460 35 -60oC: 40

580 460 35 -60oC: 35

780 600 35 +20oC: 60

750 520 30 +20oC: 60

1.2 to 2.4

0.9 to 1.6

0.9 to 1.2

G

G/S

G

G

20 9 3

20 9 3

309L

309L

T 20 10 3 M M 1EC308Mo *

T 23 12 L R M 3 (C3)E309LT0-1/-4

T 23 12 L P M 1 (C1)E309LT1-1/-4

C: 0.050Mn: 1.50Si: 0.80Cr: 20.5Ni: 9.70Mo: 2.90

C: 0.030Mn: 1.40Si: 0.70Cr: 23.5Ni: 13.0

1.2 and 1.6 T 25 20 R M 3 (C3)(E310T0-1/-4) (*)

800 610 25 +20oC: 40

860 650 25 +20oC: 40

860 650 25 +20oC: 40

760 590 32 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

1.2 to 2.4G/S

G

G

G/S

309LMo

312

312

312

T 29 9 R M 3 (C3)E312T0-1/-4

T 29 9 P M 1 (C1)E312T1-1/-4

T 29 9 M M 1EC312

C: 0.030Mn: 1.30Si: 0.80Cr: 29.0Ni: 8.60Mo: 0.40

1.2 to 2.4

760 590 32 +20oC: 50

760 590 32 +20oC: 50

580 470 35 -60oC: 50

TETRA S

TETRA V

1.2 and 1.6

1.2

G/S

G

G

309L

309LMo

309LMo

T 23 12 L M M 1EC309L

T 23 12 2 L M M 1EC309LMo

T 23 12 2 L P M 1 (C1)E309LMoT1-1/-4

T 23 12 2 L R M 3 (C3)E309LMoT0-1/-4 C: 0.030

Mn: 1.40Si: 0.80Cr: 23.0Ni: 13.5Mo: 2.80

TETRA S

TETRA V

TUBE S

TUBE S

TETRA S

TETRA V

TUBE S

Grade

ProcessO: open arc

G: gas shieldedS: sub arc

Detailed operating conditions: see page 26

Dissimilar joints & repair welding

* Nearest

By courtesy of Welders NV

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

8 9 Joining

1.2 and 1.6T 46 2 P M 1 H5

E71T-1M H4\E71T-1C H4

1.2 to 2.8

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of constructional steels

• Rutile-type wire usable in all-positions with one single parameter setting• Protection : mixed gas

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460NH, P275NL1 to 460NL1, L210 to L290, L360MB to L415, X42 (API-5L)

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L)

S235J2W, S355K2W, S355J2G3Cu, CORTEN-A, PATINAX 37, ASTM: A36, A283 Gr B,C

L450NB, L245MB-L450MB, P355NL1-P460NL1, P355NL2- P460NL2, S460N, P355NH-P460NH, S380NL-S460NL, S380NL1-S460NL1;ASTM: A516 Gr 65, A572 Gr 55, 60, 65, A633 Gr E, A618 Gr I, A537 Gr 1-3

12Ni14-10Ni14, ASTM: A350 Gr LF3

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L). ASTM: A 283/ 285 Gr A, B, C, A328-A366, A516 Gr 55,60, 65, 70, A570 Gr 30, 33, 36, 40, 45, A572 Gr 42, 50

• Metal-cored wire – Slag-free deposit with easily-removed traces of residual silicates• Good mechanical properties and optimum productivity

• Metal-cored wire • Recommended for welding of heavily worked or restrained joints with toughness required down to –40°C

• Strongly basic slag• Welding of thick joints and of safety-critical assemblies in high carbon, high sulphur or high phosphorus steels, under heavy static or dynamic stresses

• Weld deposit with the same colour as that of weathered steel

• 1% Ni alloyed wire for welding fine-grained steels with toughness required down to – 60°C• High resistance to initiation and propagation of cracks on account of its particularly low diffusible hydrogen content (< 4 ml/ 100g)

• Metal-cored wire specially developed for welding 3.5% nickel steels• Excellent toughness down to – 105°C after heat treatment at 620°C for 1 hour

Metal cored wire for single or multi-pass welding and for automatic welding

C: 0.05Mn: 1.40Si: 0.45

1.0 to 1.6 570 480 26 -20oC: 80T 46 2 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.50Si: 0.65

570 510 25 -20oC: 80

Gas shielded welding

1.0 to 1.6T 46 6 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.40Si: 0.60

1.2 and 1.6 580 480 28 -50oC: 80T 46 6 B M 3 H5

E71T-5MJH4

C: 0.05Mn: 1.40Si: 0.40

580 510 26 -40oC: 80

1.2 and 1.6 570 500 22 +20oC: 110T 46 2 Z M M 1 H5

E70C-G H4

C: 0.06Mn: 1.20Si: 0.50Cr: 0.20Ni: 0.50Cu: 0.40

1.2 and 1.6

T 50 4 1Ni P M 1

E81T1/Ni1MJ H4

C: 0.05Mn: 1.20Si: 0.40Ni: 0.95

1.2 and 1.6 620 540 26T 50 6 1Ni M M 1 H5

E80C-Ni1 H4

C: 0.03Mn: 1.30Si: 0.60Ni: 0.90

-60oC: 80

625 550 25 -40oC: 70

1.2 and 1.6T 46 6 1Ni B M 3 H5

E80T5-G H4

C: 0.06Mn: 1.40Si: 0.40Ni: 1.10

1.2 and 1.6 560 480 29T 46 6 3Ni B M 1 H5

E81T5-Ni3MJ H4

C: 0.04Mn: 0.70Si: 0.30Ni: 3.30

PWHT1h/620oC

-101oC: 100

Mild steels

Cold tough steels

Weathering steels

ROBOFIL – SPEEDARC : description, shielding gas and welding positions – see page 6

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL R 71 +

1.2 and 1.6T 46 2 P C 1 H5

E71T-1C-H4 / E491T-1C-H4

• Rutile-type wire usable in all-positions except vertical-down• Protection : CO2

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

C: 0.05Mn: 1.40Si: 0.45

570 500 25 -20oC: 80

570 480 26 -20oC: 80

ROBOFIL KX 71T1 +

ROBOFIL M 70

ROBOFIL M 71

ROBOFIL B 71

ROBOFIL M 71Cu

ROBOFIL R Ni1 +

ROBOFIL M Ni1

ROBOFIL B Ni1

ROBOFIL M Ni3

Rutile type wire for all-position welding

Metal cored wire for single or multi-pass welding and for automatic welding

Strongly basic wire satisfying very high toughness requirements

ROBOFIL R Ni1SRT 50 6 1Ni P M 1 H5

E81T1/Ni1MJ H4

C: 0.06Mn: 1.20Si: 0.40Ni: 0.90

620 550 24 -60oC: 701.2 and 1.6

24 -60oC: 80520600

20 21 Joining

TETRA S 1.2 to 1.6 T 18 8 Mn R M21 3 (C1 3)E307T0-1/-4 *

TETRA V

TUBE S

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Type Rp 0.2% [MPa]

Product name Description and applications

Welding of highly alloyed steels

• Austeno-ferritic deposit in over-alloyed CrNi steel - type 309L, with optimised ferrite content for joining dissimilar metals• Joining of steels with similar compositions and joining carbon steels to stainless steels.• Buffering before cladding• Service temperatures from -60°C to +350°C

• Austenitic deposit in CrNiMo steel –modified type 308Mo, offering high mechanical strength • Fabrication of armoured vehicles, joining of steels with high yield points and limited weldability, dissimilar joints • High resistance to hot cracking• Service temperatures from -60°C to +300°C

• Work-hardening austenitic deposit in CrNiMn steel – modified type 307• Dissimilar joints, welding of steels of unknown types, armouring steels, buffering • Joining of 14% Mn austenitic steels • Service temperatures from -120°C to +300°C

710 530 30 +20oC: 50

650 450 40 +20oC: 90

630 480 40 +20oC: 50

630 480 40 +20oC: 50

1.2

1.2 to 2.4

1.2 to 1.6

G

G

G/S

G

307

307

307

20 9 3

T 18 8 Mn P M21 1 (C1 1)E307T1-1/-4 *

T 18 8 Mn M M12 1EC307 *

T 20 10 3 R M21 3 (C1 3)E308MoT0-1/-4 *

C: 0.10Mn: 6.00Si: 0.70Cr: 19.0Ni: 9.00

TETRA S 1.2 to 1.6 T 19 12 3 Nb R M21 3 (C1 3)E309LNbT0-1/-4

TETRA V

TUBE S

• Austeno-ferritic deposit – type 309 LNb• Joining of steels with similar compositions and joining carbon steels to stainless steels• Single-layer cladding to reach 347 chemistry• Service temperatures from -60°C to +350°C

650 490 25 +20oC: 50

650 490 25 +20oC: 50

650 490 25 +20oC: 50

1.2 to 1.6

1.2 to 1.6

G

G

G

309LNb

309LNb

309LNb

T 19 12 3 Nb P M21 3 (C1 3)E309LNbT1-1/-4

T 19 12 3 Nb M M12 1 EC309LNb

C: 0.030Mn: 1.30Si: 0.80Cr: 23.5Ni: 13.00Nb: 0.85

TETRA S

1.2 T 20 10 3 P M21 1 (C1 1)E308MoT1-1/-4 *TETRA V

TUBE S

• Austeno-ferritic deposit in CrNi steel - type 312, offering exceptional cracking resistance• Joining of unknown or hard-to-weld steels• Dissimilar joints, including those to steels with high carbon equivalents : high speed steels, tool steels, Mn steels, high strength constructional steels, abrasion-resistant steel plates

• Austeno-ferritic deposit in over-alloyed CrNiMo steel - type 309LMo, for joining dissimilar metals• Joining of stainless steels to mild or low-alloyed steels at high dilution levels• Buffering before cladding• Service temperatures from -60°C to +350°C

580 460 35 -60oC: 40

580 460 35 -60oC: 35

780 600 35 +20oC: 60

750 520 30 +20oC: 60

1.2 to 2.4

0.9 to 1.6

0.9 to 1.2

G

G/S

G

G

20 9 3

20 9 3

309L

309L

T 20 10 3 M M12 1EC308Mo *

T 23 12 L R M21 3 (C1 3)E309LT0-1/-4

T 23 12 L P M21 1 (C1 1)E309LT1-1/-4

C: 0.050Mn: 1.50Si: 0.80Cr: 20.5Ni: 9.70Mo: 2.90

C: 0.030Mn: 1.40Si: 0.70Cr: 23.5Ni: 13.0

1.2 and 1.6 T 25 20 R M 3 (C3)(E310T0-1/-4) (*)

800 610 25 +20oC: 40

860 650 25 +20oC: 40

860 650 25 +20oC: 40

760 590 32 +20oC: 60

1.2 and 1.6

1.2

1.2 to 2.4

1.2 to 2.4G/S

G

G

G/S

309LMo

312

312

312

T 29 9 R M21 3 (C1 3)E312T0-1/-4

T 29 9 P M21 1 (C1 1)E312T1-1/-4

T 29 9 M M12 1EC312

C: 0.030Mn: 1.30Si: 0.80Cr: 29.0Ni: 8.60Mo: 0.40

1.2 to 2.4

760 590 32 +20oC: 50

760 590 32 +20oC: 50

580 470 35 -60oC: 50

TETRA S

TETRA V

1.2 and 1.6

1.2

G/S

G

G

309L

309LMo

309LMo

T 23 12 L M M12 1EC309L

T 23 12 2 L M M12 1EC309LMo

T 23 12 2 L P M21 1 (C1 1)E309LMoT1-1/-4

T 23 12 2 L R M21 3 (C1 3)E309LMoT0-1/-4 C: 0.030

Mn: 1.40Si: 0.80Cr: 23.0Ni: 13.5Mo: 2.80

TETRA S

TETRA V

TUBE S

TUBE S

TETRA S

TETRA V

TUBE S

Grade

ProcessO: open arc

G: gas shieldedS: sub arc

Detailed operating conditions: see page 26

Dissimilar joints & repair welding

* Nearest

FCAW FCAW FCAW FCAW or SAWWelding process

TETRA S TETRA S B TETRA V TUBE S

Slag

Welding positions

Rutile slow freezing Basic Rutile fast freezing Metal cored

All positions *All positions

* Please refer to your local Welding Alloys technicians

8 9 Joining

1.2 and 1.6T 46 4 P M 1 H5

E71T-1MJ H4

1.2 to 2.8

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of constructional steels

• Rutile-type wire usable in all-positions with one single parameter setting• Protection: mixed gas and pure CO2

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460NH, P275NL1 to 460NL1, L210 to L290, L360MB to L415, X42 (API-5L)

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L)

S235J2W, S355K2W, S355J2G3Cu, CORTEN-A, PATINAX 37, ASTM: A36, A283 Gr B,C

L450NB, L245MB-L450MB, P355NL1-P460NL1, P355NL2- P460NL2, S460N, P355NH-P460NH, S380NL-S460NL, S380NL1-S460NL1;ASTM: A516 Gr 65, A572 Gr 55, 60, 65, A633 Gr E, A618 Gr I, A537 Gr 1-3

12Ni14-10Ni14, ASTM: A350 Gr LF3

S235JR to S355GR, P235GH, P265GH, S275S355N, P295GH, P275NH-P355NH, P275NL1-P355NL1, X42 to X70 (API-5L). ASTM: A 283/ 285 Gr A, B, C, A328-A366, A516 Gr 55,60, 65, 70, A570 Gr 30, 33, 36, 40, 45, A572 Gr 42, 50

• Metal-cored wire – Slag-free deposit with easily-removed traces of residual silicates• Good mechanical properties and optimum productivity

• Metal-cored wire • Recommended for welding of heavily worked or restrained joints with toughness required down to –40°C

• Strongly basic slag• Welding of thick joints and of safety-critical assemblies in high carbon, high sulphur or high phosphorus steels, under heavy static or dynamic stresses

• Weld deposit with the same colour as that of weathered steel

• 1% Ni alloyed wire for welding fine-grained steels with toughness required down to – 60°C• High resistance to initiation and propagation of cracks on account of its particularly low diffusible hydrogen content (< 4 ml/ 100g)

• Metal-cored wire specially developed for welding 3.5% nickel steels• Excellent toughness down to – 105°C after heat treatment at 620°C for 1 hour

Metal cored wire for single or multi-pass welding and for automatic welding

C: 0.05Mn: 1.40Si: 0.45

1.0 to 1.6 570 480 26 -20oC: 80T 46 2 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.50Si: 0.65

580 540 26 -40oC: 80

Gas shielded welding

1.0 to 1.6T 46 6 M M 1 H5

E70C-6M H4

C: 0.05Mn: 1.40Si: 0.60

1.2 and 1.6 580 480 28 -50oC: 80T 46 6 B M 3 H5

E71T-5MJH4

C: 0.05Mn: 1.40Si: 0.40

580 510 26 -40oC: 80

1.2 and 1.6 570 500 22 +20oC: 110T 46 A Z M M 1 H5

E70C-G H4

C: 0.06Mn: 1.20Si: 0.50Cr: 0.20Ni: 0.50Cu: 0.40

1.2 and 1.6T 50 4 1Ni P M 1

E81T1/Ni1MJH4

C: 0.05Mn: 1.20Si: 0.40Ni: 0.95

1.2 and 1.6 620 540 26T 50 6 1Ni M M 1 H5

E80C-Ni1 H4

C: 0.03Mn: 1.30Si: 0.60Ni: 0.90

-60oC: 80

625 550 25 -40oC: 70

1.2 and 1.6T 46 6 1Ni B M 3 H5

E80T5-G H4

C: 0.06Mn: 1.40Si: 0.40Ni: 1.10

-60oC: 80

1.2 and 1.6 560 480 29T 46 6 3Ni B M 1 H5

E81T5-Ni3MJ H4

C: 0.04Mn: 0.70Si: 0.30Ni: 3.30

PWHT1h/620oC

-101oC: 100

600 520 24

Mild steels

Cold tough steels

Weathering steels

ROBOFIL – SPEEDARC : description, shielding gas and welding positions – see page 6

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

ROBOFIL R 71

1.2 and 1.6T 46 4 P C 2 H5

E71T-1J H4

• Rutile-type wire usable in all-positions except vertical-down• Protection : Pure CO2

S235J2G3 to S355K2G3, P235GH to P355GH, S420NL, P275NH to P460 NH, P275NL1 to P460NL1, L210 to L290, L360MB to L415, X42 to X60 (API – 5L)

C: 0.05Mn: 1.40Si: 0.45

580 540 26 -40oC: 80

570 480 26 -20oC: 80

ROBOFIL KX 71T1

ROBOFIL M 70

ROBOFIL M 71

ROBOFIL B 71

ROBOFIL M 71Cu

ROBOFIL R Ni1

ROBOFIL M Ni1

ROBOFIL B Ni1

ROBOFIL M Ni3

Rutile type wire for all-position welding

Stress relievable

Metal cored wire for single or multi-pass welding and for automatic welding

Strongly basic wire satisfying very high toughness requirements

6 7 Joining

SPEEDARC T4 1.0 to 3.2T 38 Z W N 3

E70T-4

SPEEDARC T11

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of constructional steels

Mild steels

• Horizontal welding at high deposition rates• Easy arc starting and restarting: simplifies tack welding• Well suited to welding of poorly fitted joints

S275 JR-S235J0G3-S235GH-P255NH-P295GH

• All-position welding under negative polarity DC• Particularly recommended for fillet welding and lap joints in thin sheet • Very wide range of welding parameters

C: 0.20Mn: 0.55Si: 0.20Al: 1.30

1.2 to 1.6 600 440 25T 42 Z Z N 1

E71T-11

C: 0.10Mn: 0.50Si: 0.30Al: 1.40

610 450 25

-

-

Self shielded welding

ROBOFIL

Coppered tubular cored wire

Product name: ROBOFIL X XXX R: Rutile M: Metal cored B: Basic

Argon +5-25% CO2 (M21) Rutile: Metal cored:

Basic:

Description

Slag

Shielding gas (G)

Welding positions All positions

All positions

SPEEDARC *

Uncoppered cored wire with a seam

No gas

T4 type:

T11 type:

* Features for SPEEDARC wires presented in this catalogue

By courtesy of SICES Spa

22 23 Joining

GAMMA 182 1.2 and 1.6

ENi6182 *

2.4807

ENiCrFe-3 *

Standarddiameters

[mm]

EN ISO standardMaterial No.

ASME / AWS standard

Composition- Ni balance

Mechanical properties

KCV [J]

A5 [%]

Rm [MPa]

ProcessO: open-arc

G: gas-shieldedS: sub-arc Rp 0.2%

[MPa]

Product Name Description and applications Base material

Welding of nickel alloys and special applications

• Basic type wire depositing a 625 type alloy • Conforms to the requirements of the ENiCrMo-3 classification for stick electrodes• Joining and cladding of Ni base alloys of corresponding types • Joining of steels exposed to low temperatures : CrNi (Mo,N) austenitic steels and 5-9% Ni quench-hardening steels• Dissimilar joints between Ni base alloys or to low alloy or stainless steels • Joining of super-austenitic stainless steels • Service temperatures from -196°C to +1100°C

• Joining and cladding of corrosion and heat resistant type 600 nickel alloys• Dissimilar joints between stainless steels and CrMo steels• Joining of heat resistant steels • Joining and repair of steels with limited weldability

• Basic type wire depositing a NiCrFe alloy• Conforms to the requirements of the ENiCrFe-3 classification for stick electrodes• Service temperatures from -196°C to +900°C

(1.4816) NiCr 15Fe, 600 alloys, 600L, 800H

(2.4856) NiCr22Mo9Nb, (2.4858) NiCr21Mo, (1.4876) X10 NiCrAlTi 32-20H, (1.4876) X10 NiCrAlTi 32-21, X8 Ni9; ASTM A 533 Gr1, 625 alloys, 800H

• Basic type wire depositing a NiCr alloy• Reduced Fe content and raised Cr content• Service temperatures from -269°C to over +1000°C650 400 40 +20oC: 100

610 380 45 -196oC: 90

1.2 and 1.6

G

G

C: 0.010Mn: 6.00Si: 0.30Cr: 17.0Nb: 1.70Fe: 6.00

ENi6082 *

2.4648

ENiCrFe-2*

C: 0.020Mn: 5.00Si: 0.20Cr: 20.0Mo: 1.20Nb: 2.50Fe: 3.00

ENi6625 *

2.4621

ENiCrMo-3 *

C: 0.020Mn: 0.40Si: 0.30Cr: 21.0Mo: 9.00Nb: 3.40Fe: 0.40

GAMMA 4648

780 500 40 -196oC: 701.2 and 1.6G

600 390 30 +20oC: 110

GAMMA 625

ENi6625*

2.4648

ENiCrMo-3 T1-1/-4

C: 0.020Mn: 0.040Si: 0.40Cr: 21.0Mo: 8.80Nb: 3.20Fe: <1.0

1.2 and 1.6GGAMMA V 625

1.2 and 1.6GGAMMA 825ENi8065 *

2.4656

ENiFeCr-1 *

C: 0.020Mn: 2.00Si: 0.30Cr: 22.5Mo: 3.00Cu: 1.60Fe: 28.0Ti: 0.70

FCAWWelding process

GAMMA

Slag

Shielding gas

Basic

Welding positions *

Features

Argon + 5-25% CO2 (M21)

* Please consult us for all-position wires : GAMMA V series

Benefits • Increased productivity, excellent weld penetration and enhanced wetting properties• Meets the most stringent quality requirements

• Optimized basic slag system• Bead appearance identical to that of the latest SMAW electrodes• Produced with strip of the same compositional type as the deposit • X-ray quality crack resistant welds• Tight control of trace elements STELLOY NI520

STELLOY CCO

TNi4

STELLOY C TNi2

TNi2

Complementary nickel base wires for repair and maintenance are presented in the hardfacing catalogue.

Product name EN ISO 14700 standard

• Basic type wire depositing a 825 type alloy • Excellent resistance to hot cracking and intergranular corrosion• Joining of alloys of corresponding types • Joining and cladding of lower-alloyed austenitic stainless steels• Service temperatures from -196°C to +350°C • Under-layer with Gamma 4655

* No AWS or EN ISO classifications is available for Ni-base cored wires. Equivalent classifications for stick electrodes and/or solid wires are given.

780 510 40 -196oC: 60 • Special flux cored nickel-based wire for gas shielded arc welding• Latest generation basic slag quality guarantees optimum metallurgical quality and attractive welder appeal• Meets the NiCrMo-4 requirements• Together with enhanced productivity, GAMMA 276 offers many other advantages compared to solid wires improved weldability, almost no spatter, better arc stability, enhanced wetting properties, better bead aspect and shape, and use of classical M21 gas mixtures (2.4819) NiMo 16Cr15W (1.5680) X12 Ni5

/12 Ni 19 (1.5662) X8 Ni 9

22 23 Joining

Standarddiameters

[mm]

EN ISO standardMaterial No.

ASME / AWS standard

Composition- Ni balance

Mechanical properties

Kv [J]

A5 [%]

Rm [MPa]

ProcessO: open-arc

G: gas-shieldedS: sub-arc Rp 0.2%

[MPa]

Product Name Description and applications Base material

Welding of nickel alloys and special applications

• Basic type wire depositing a 625 type alloy • Conforms to the requirements of the ENiCrMo-3 classification for stick electrodes• Joining and cladding of Ni base alloys of corresponding types • Joining of steels exposed to low temperatures : CrNi (Mo,N) austenitic steels and 5-9% Ni quench-hardening steels• Dissimilar joints between Ni base alloys or to low alloy or stainless steels • Joining of super-austenitic stainless steels • Service temperatures from -196°C to +1100°C

• Joining and cladding of corrosion and heat resistant type 600 nickel alloys• Dissimilar joints between stainless steels and CrMo steels• Joining of heat resistant steels • Joining and repair of steels with limited weldability

• Basic type wire depositing a NiCrFe alloy• Conforms to the requirements of the ENiCrFe-3 classification for stick electrodes• Service temperatures from -196°C to +900°C

(1.4816) NiCr 15Fe, 600 alloys, 600L, 800H

(2.4856) NiCr22Mo9Nb, (2.4858) NiCr21Mo, (1.4876) X10 NiCrAlTi 32-20H, (1.4876) X10 NiCrAlTi 32-21, X8 Ni9; ASTM A 533 Gr1, 625 alloys, 800H

• Basic type wire depositing a NiCr alloy• Reduced Fe content and raised Cr content• Service temperatures from -269°C to over +1000°C

GAMMA 182 1.2 and 1.6

ENi6182

2.4807

ENiCrFe-3

610 380 45 -196oC: 90G

C: 0.010Mn: 6.00Si: 0.30Cr: 17.0Nb: 1.70Fe: 6.00

650 400 40 +20oC: 1001.2 and 1.6G

ENi6082

2.4648

ENiCrFe-2

C: 0.020Mn: 5.00Si: 0.20Cr: 20.0Mo: 1.20Nb: 2.50Fe: 3.00

GAMMA 4648

C: 0.020Mn: 0.40Si: 0.30Cr: 21.0Mo: 9.00Nb: 3.40Fe: 0.40

ENi6625

2.4621

ENiCrMo-3

780 500 40 -196oC: 701.2 and 1.6GGAMMA 625

740 500 30 -196oC: 601.2 and 1.6GGAMMA V 276ENi6276

2.4883

ENiCrMo4T1-4

C: 0.015Mn: 0.60Si: 0.10Cr: 16.0Mo: 0.60W: 4.00Fe: 5.0

FCAWWelding process

GAMMA

Slag

Shielding gas

Basic

Welding positions *

Features

Argon + 5-25% CO2 (M21)

* Please consult us for all-position wires : GAMMA V series

Benefits • Increased productivity, excellent weld penetration and enhanced wetting properties• Meets the most stringent quality requirements

• Optimized basic slag system• Bead appearance identical to that of the latest SMAW electrodes• Produced with strip of the same compositional type as the deposit • X-ray quality crack resistant welds• Tight control of trace elements

(1.4465) X1 CrNiMoN 25-25-2, (1.4563) X1 NiCrMoCu 31-27-4, (1.4577) X5CrNiMoTi25-25, (2.4858) NiCr21Mo, 825 alloys

• Basic type wire depositing a 825 type alloy • Excellent resistance to hot cracking and intergranular corrosion• Joining of alloys of corresponding types • Joining and cladding of lower-alloyed austenitic stainless steels• Service temperatures from -196°C to +350°C • Under-layer with Gamma 4655

C: 0.015Mn: 0.40Si: 0.20Cr: 16.0

Mo: 16.00W: 4.00Fe: 5.0

ENi6276

2.4819

ENiCrMo4T0-4

1.2 and 1.6GGAMMA 276 740 500 30 -196oC: 60

6 7 Joining

SPEEDARC T4 1.0 to 3.2T 38 Z W N 3

E70T-4

SPEEDARC T11

1.2 to 2.8

Standarddiameters

[mm]

EN ISO

ASME / AWSstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm[MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Mild steels

• Horizontal welding at high deposition rates• Easy arc starting and restarting: simplifies tack welding• Well suited to welding of poorly fitted joints

S275 JR-S235J0G3-S235GH-P255NH-P295GH

S275 JR-S235J0G3-S235GH-P255NH-P295GH-P235 T1&T2- P355T1&T2. ASTM: A36a - A53 all grades, A106 Gr A, B, C, A283 Gr A, B, C, D

• All-position welding under negative polarity DC -• Particularly recommended for fillet welding and lap joints in thin sheet • Very wide range of welding parameters

C: 0.20Mn: 0.55Si: 0.20Al: 1.30

1.2 to 1.6 600 440 25T 42 Z Z N 1

E71T-11

C: 0.10Mn: 0.50Si: 0.30Al: 1.40

610 450 25

-

-

C: 0.020Mn: 0.040Si: 0.40Cr: 21.0Mo: 8.80Nb: 3.20Fe: <1.0

ENi6625

2.4648

ENiCrMo-3 T1-1/-4

1.2 and 1.6GGAMMA V 625 780 510 40 -196oC: 60

24 25 Joining

CAST NICI

1.2 to 2.4

CAST NiFe

1.6 to 2.4O

G

G

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISOstandards

Composition- Fe balance

Mechanical properties

KCV[J]

A5[%]

Rm [MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of cast irons

• FeNi deposit for rebuilding ductile or spheroidal cast iron and for joining cast irons to each other • Reduced heat affected zone (HAZ)• Dissimilar joints between cast irons and steels

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

• NiFe deposit for joining heavy thicknesses of ductile and spheroidal cast iron and for restrained joints• Reduced heat affected zone (HAZ)• Easily machined deposit

C: 0.75Mn: 4.00Si: 0.60Ni: 45.0

C: 1.30Mn: 4.00Si: 0.70Ni: 45.0

1.2 and 1.6

T C NiFe-2

T C NiFe-2

T C NiFe-2

550 340 16

450 300 15

C: 0.50Mn: 2.50Si: 0.50Ni: 60.0

590 400 15

-

-

-

CAST

Shielding gas

Welding positions

Argon + 1-5% O2 (M13)Argon + 2-20% CO2 (M12-M21)

Packaging

Standard net weight External Ø Internal Ø WidthEN ISO 544 standard

Plastic reel *Standard net weightExternal Ø Internal ØWidthEN ISO 544 standard

Small plastic spool *Standard net weight External Ø Internal Ø Width

Small metal basket spool

Standard net weightExternal ØInternal ØWidthEN ISO 544 standard

Plastic spool *

Standard net weight External Ø Internal Ø Width EN ISO 544 standard

Metal basket spool

Standard net weight

External Ø Height

Drum

: 15kg: 390mm: 305mm: 90mm

: R 435

: 5kg: 200mm: 51.5mm: 55mm

: S 200

: 5kg: 200mm: 51.5mm: 55mm

: 15kg: 300mm: 51.5mm: 103mm

: S 300

: 15kg: 300mm: 51.5mm

: 330kg

: 595mm: 680mm

: 103mm

: BS 300

Standard net weight External Ø Internal Ø

EN ISO 544 standard

Metal basket reel : 25kg: 410mm: 300mm: 105mm

: B 450

Wire Capacity

DimensionsDiameterHeightFully recyclable cardboard packaging

WA Pack - not shown : 400kg

: 800mm: 950mm

* Manufactured to order on client’s request

4 5

Our commitment to quality

The Welding Alloys Group orientates all its economic and strategic choices with an eye to the future. Our responsibilities are towards our customers, our personnel, and our environment.

The Welding Alloys Group mission is:

“To supply our customers with the most advanced technology, to ensure them long term profit and satisfaction, thanks to our expertise in the field of welding applications.”

The ISO-approved quality assurance system has been in place for the Group wire production units since 1993, and is a fundamental ingredient in achieving our quality objectives.

The daily commitment from all of our employees guarantees the utmost respect for the quality requirements and values that are consistent with this dedication: - Production according to strict procedures, conforming to current standards and customer specifications- Customer service by specialists, allowing the best technical and economic choices to be made- Permanent commitment to customer satisfaction- Team spirit driven by the pride of belonging to a dynamic and innovative group

Research and Development programmes

The success of Welding Alloys cored welding wires is due to their quality and performance. This is closely linked to our commitment to continuous improvement and to our substantial investment in R and D. As a true partner in progress, Welding Alloys collaboratesclosely with customers on their own specific projects. We maintain technological awareness, allowing us to anticipate future needs by proposing welding products suited to new construction steels.

O P E R A T I N G 24/ 7

ISO 9001

BUREAU VERITASCertification

24 25 Joining

CAST NICI

1.2 to 2.4

CAST NiFe

1.6 to 2.4O

G

G

Standarddiameters

[mm]

ProcessO: open arc

G: gas shieldedS: sub arc

EN ISOstandards

Composition- Fe balance

Mechanical properties

Kv[J]

A5[%]

Rm [MPa]

Rp 0.2% [MPa]

Product name Description and applications Base material

Welding of cast irons

• FeNi deposit for rebuilding ductile or spheroidal cast iron and for joining cast irons to each other • Reduced heat affected zone (HAZ)• Dissimilar joints between cast irons and steels

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

GG10 to GG40, GTS35 to GTS 70, GTW35 to GTW 70, GGG40 to GGG80

• NiFe deposit for joining heavy thicknesses of ductile and spheroidal cast iron and for restrained joints• Reduced heat affected zone (HAZ)• Easily machined deposit

C: 0.75Mn: 4.00Si: 0.60Ni: 45.0

C: 1.30Mn: 4.00Si: 0.70Ni: 45.0

1.2 and 1.6

T C NiFe-2

T C NiFe-2

T C NiFe-2

550 340 16

450 300 15

C: 0.50Mn: 2.50Si: 0.50Ni: 60.0

590 400 15

-

-

-

CAST

Shielding gas

Welding positions

Argon + 1-5% O2 (M13)Argon + 2-20% CO2 (M12-M21)

Joining

Thewinningtechnology

The real value of Welding Alloys Cored Wires

Purchase cost is not the only consideration when deciding upon a welding consumable, though it is a strong factor. The choice must include the critical factors of production time, re-working, finishing costs, and associated consumable costs. Welding Alloys manufactures cored welding wires of the highest technological standards, offering constant quality and high productivity, a combination that gives the best overall value and cost control.

Quality • Very clean fusion and very good bead appearance • Virtually no spatter • Deposit soundness comparable to that of electrodes • Low welding energy which limits deformation, while guaranteeing excellent mechanical and metallurgical properties

Flexibility • Various arc welding processes: open-arc, gas shielded, submerged arc • Usable with all types of power sources and with low cost standard gas mixtures • Wide range of welding parameters – all-position welding is much easier than with solid wires • Possibility of purchasing small quantities adapted to particular technical specifications

Performance • High deposit rates (kg/h), around three times greater than with coated electrodes • Optimised arc time • High welding speed • The penetration characteristics allow for work with narrower chamfers, thus reducing the quantity of the weld metal

In view of their technological and economic advantages, cored wires represent a growing share of the welding market. They are specified and approved by constructors and engineers in leading-edge industries, which impose the strictest requirements in terms of quality and productivity.

Contents

Solutions for the most stringent applications

100% Welding Alloys technology and manufacturingThis catalogue represents a selection of cored wires for joining applications. Welding Alloys standard products for hardfacing, cladding and thermal arc spraying feature in a separate catalogue. We will gladly examine any special request. In fact, each year we receive hundreds of special requests, and as experts in our field we examine them all individually. Please do not hesitate to contact us.

2 3

Introduction Our commitment to quality The real value of the WA Cored Wires

Welding of constructional steels Self-shielded welding - Mild steels Gas-shielded welding - Mild steels Weathering steels Cold tough steels High strength steels Creep resistant steels

24

5

66888

1010

Welding of highly alloyed steels Duplex and superduplex Austenitic stainless steels Heat resistant steels Dissimilar joints and repair welding Welding of nickel alloys and special applications Welding of cast irons

Packaging Operating conditions for TETRA wiresTechnical information Alphabetical Index

1212141820

2224

25262727

Since its foundation in 1966, the Welding Alloys Group, an independent group, has specialised in the manufacture of cored welding wires for cladding applications – 100% produced in our modern factories – 100% our own technology.

WA Joining Technology is a division of the Welding Alloys Group and is devoted exclusively to our range of cored welding wires for joining applications.

Our wide range of non-alloyed, low-alloyed and high-alloyed wires meets or exceeds the most severe metallurgical standards.

A policy of permanent R and D, hand in hand with industrial development, enables us to offer the quality guarantees required by international codes of practice, as exist in the nuclear, petrochemical, offshore, LNG and transport industries.

As a global company, our engineers and technicians are available locally. Technical support and service is provided where it is needed, from international WA Joining specialists.

Joining wires

Product Name Page

Technical Information• All weld metal compositions and mechanical properties given are typical average values. All chemical compositions given are for all weld metal deposits

• Welding Alloys recommends fluxes suited for use with its submerged-arc wires

• Technical data sheets and safety data sheets are available for all products in accordance with EC directives 91/155/CEE and 93/112/CE and to international standard ISO 11014-1

Welding Positions

Welding products and techniques evolve constantly. All descriptions, illustrations and properties given in this catalogue are subject to change and can only be considered as general guidance.

Joining

CAST NICICAST NiFe GAMMA 182GAMMA 4648GAMMA 625GAMMA V 625GAMMA 825ROBOFIL B 700ROBOFIL B 71ROBOFIL B CrMo1ROBOFIL B CrMo2ROBOFIL B Ni1ROBOFIL B NiMoROBOFIL B P91ROBOFIL KX71T1ROBOFIL M 70ROBOFIL M 700ROBOFIL M 71ROBOFIL M 71CuROBOFIL M CrMo1ROBOFIL M CrMo2ROBOFIL M MoROBOFIL M Ni1ROBOFIL M Ni3ROBOFIL M NiMoROBOFIL R 71ROBOFIL R Ni1ROBOFIL R 91SPEEDARC T4SPEEDARC T11TETRA S 20 9 3TETRA S 22 9 3LTETRA S 307TETRA S 308HTETRA S 308LTETRA S 309HTETRA S 309HTTETRA S 309LTETRA S 309LMoTETRA S 309LNbTETRA S 310TETRA S 312TETRA S 316LTETRA S 317LTETRA S 318LTETRA S 329TETRA S 347HTETRA S 347LTETRA S 904LTETRA S B 22 9 3LTETRA S B 308HTETRA S B 308HTETRA S B 308LTETRA S B 309HTETRA S B 309HTETRA S B 309HTTETRA S B 309HTTETRA S B 310TETRA S B 316LTETRA S B 316NFLTETRA S B 465TETRA S B D57TETRA S D57LTETRA V 20 9 3TETRA V 22 9 3LTETRA V 307TETRA V 308HTETRA V 308LTETRA V 309HTETRA V 309HTTETRA V 309LTETRA V 309LMoTETRA V 309LNbTETRA V 310TETRA V 312TETRA V 316LTETRA V 317LTETRA V 318LTETRA V 347HTETRA V 347LTETRA V 904LTETRA V 1682TUBE S 20 3 9TUBE S 22 9 3LTUBE S 307TUBE S 308HTUBE S 308LTUBE S 309HTUBE S 309LTUBE S 309LMoTUBE S 309LNbTUBE S 310TUBE S 312TUBE S 316LTUBE S 317LTUBE S 318LTUBE S 329TUBE S 347HTUBE S 347LTUBE S 904LTUBE S D57L

2424222222222210888

1010888888

108

1010108

10101066

2014201814181820202018201416161818141614181814181818181814141614142014201814181820202018201416161814161820142018141820202018201416161818141614

Standards

EN-ISO

ASME IX

PA PA PB PC PD PE PF PG

1G 1F 2F 2G 4F 4G 3G 3G

By courtesy of Welders NV

version 5.0

Alphabetical Index

ContentsIntroduction Our commitment to quality The real value of the WA Cored Wires

Welding of constructional steelsSelf-shielded welding - Mild steels Gas-shielded welding - Mild steels Weathering steels Cold tough steels High strength steels Creep resistant steels

24

5

66888

1010

Welding of highly alloyed steelsDuplex and superduplex Austenitic stainless steels Heat resistant steels Dissimilar joints and repair weldingWelding of nickel alloys and special applications Welding of cast irons

Packaging Operating conditions for TETRA wiresTechnical information Alphabetical Index

1212141820

2224

25262727

Joining wires

100% Welding Alloys technology and manufacturing

26 27

Welding positions

Type of Joint Plate thickness

[mm]

PA - PB

Lap joint

J joint

V - Root pass

1.5 - 15

3 - 5

5 - 15

5 - 15

10 - 20

1.5 - 5

3 - 7

7 - 15

8 - 20

Wirediameter

[mm]

0.9 - 1.0

1.2

1.2

1.2

1.6

0.9 - 1.0

1.2

1.2

1.6

Current[A]

100 - 160

130 - 150

100 - 150

200 - 280

200 - 350

100 - 160

130 - 220

200 - 280

200 - 350

Voltage[V]

22 - 28

23 - 24

22 - 24

26 - 30

25 - 33

23 - 28

22 - 28

26 - 30

25 - 33

Wire feedspeed[m/min]

8 - 15

4.5 - 6

3.5 - 6

8.5 - 14.5

4.5 - 9.5

8 - 15

4.5 - 10

8.5 - 14.5

4.5 - 9.5

Operating conditions for TETRA wires

Downhand and horizontal fillet welding - TETRA S and TETRA V wires

All-positions welding - TETRA V wires

Welding positions

Type of Joint

3G - 3FV - Root pass

V - Filling passes

Fillet weld

V - Root pass

V - Filling passes

Fillet weld

V - Root pass

V - Filling passes

1.2

1.2

1.2

1.2

1.2

1.2

1.2

1.2

Wirediameter

[mm]

Current[A]

100 - 120

150 - 180

150 - 180

140 - 170

180 - 200

180 - 200

140 - 150

170 - 190

Voltage[V]

22 - 24

24 - 28

24 - 28

24 - 28

26 - 29

26 - 29

23 - 25

26 - 28

Wire feedspeed[m/mn]

3.5 - 4.5

7 - 9

7 - 9

6.5 - 9

9 - 11

9 - 11

4.5 - 7

8 - 10

4G - 4F

2G - 1G

These parameters are valid for all plate thicknesses

90o

90o

90o

90o

80o 45 -50oo10o

80o

90o

80o

90o

Lightly weaved beads

Gas flow rate

Shielding gas

12 - 20 ml/min

10 - 20 mm for wire diameters 0.9 - 1.0mm10 - 25 mm for wire diameters 1.2 - 1.6mmStick out

See table page 13 - When using a 100% CO2 gas shield,1 to 2 volts extra is recommended

Optimum parameters vary according to the welding power source used

Fillet weld

V - Filling passes

70o- 90

o

50o

-80o

Stringer bead. Use of the correct gun angle will give good control of the weld pool, good tie-in and optimum penetration.

50o

90o

80 -90oo90o

Operating conditions for all types of Welding Alloys cored wires: please refer to our technical data sheets

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