Post on 18-Aug-2018
Nonmagnetic stainless steels Magnadur
02 OUR TECHNOLOGY AND EXPERTISE IN OIL AND GAS FIELD APPLICATIONS
The technology in the oil and gas explora-tion is continuously developing. Using the directional drilling, new oil and gas deposits - up to depths of 5 km and distances of 10 km away from the rig - can be tapped. This has the advantage that different deposits can be reached with only one rig.
With the help of extremely sensitive meas-urement tools near the drill bit, the current position of the drill bit can be determined.
The measuring methods of the tools can be distinguished in two methods:» MWD (Measuring While Drilling)» LWD (Logging While Drilling)
MWDs are using the magnetic field of the earth to define the three-dimensional-position of the drilling tool as well as the drilling direction, whereas LWDs determine information about the geological structure of the formation.
To explore the resources deep under the seabed, steels with excellent corrosion resistance and strength, especially for the drill string components e.g. drill collars, internals and connections, are required.The stainless steels Magnadur of Deutsche Edelstahlwerke fulfil the increasing require-ments of the oil and gas industry.
Due to their special properties, such as the high corrosion resistance against aggressive media, the high strength and the low relative magnetic permeability, these stainless steels are the best choice for components of MWDs and LWDs as well as drill collars.
Furthermore, the magnetic field of the earth remains uninfluenced by the use of Magnadur. Hereby precise measurements for determining the position of the drill bit are possible.
Our technology and expertise in oil and gas field applications
03MAGNADUR
The nonmagnetic stainless steels Magnadur are based upon a combination of high chromium, manganese, molybdenum and nitrogen content plus small amounts of nickel to ensure the stable austenitic micro-structure. A homogeneous austenitic micro-structure is the prerequisite for guarantee-ing the specific magnetic permeability of µr < 1.01. All our Magnadur grades pass through special metallurgical processes, selective temperature control throughout the whole production as well as a demand-ing hot-cold forming process.
Depending on existing stresses and application in the oil and gas exploration, Deutsche Edelstahlwerke supplies the nonmagnetic stainless steels:» Magnadur 501» Magnadur 509» Magnadur 601
For simple drill collars, heavy weights, flex collars and stabilisers with a low requirement on the strength level, according to AP 7, Magnadur 501 can be used.
For higher demands on corrosion resist-ance and strength, like the housings of the MWDs and MWD/LWDs itselves, we recom-mend the use of Magnadur 601. Due to the higher nitrogen content and work hardening Magnadur 601 offers both higher ultimate tensile strength (> 150 ksi) and corrosion resistance.
Through specific and application-oriented development Deutsche Edelstahlwerke broadened its portfolio of nonmagnetic stainless steels with Magnadur 509.
Due to a richer chemistry than Magnadur 501, Magnadur 509 performs better in more ag-gressive media. As a benefit of the modified chemical composition Magnadur 509 is able to reach the strength level of Magnadur 601.
High performance nonmagnetic steels with defined mechanical, physical and chemical properties – Magnadur
CONSTRUCTION OF DRILLING TOOLS IN THE OIL AND GAS EXPLORATION
1. Drill collars» Thick-walled pipes to put pressure on the drill bit» SAE 4145» Magnadur 501 / Magnadur 509
2. Stabiliser» Stabilising the thinner drill string within the hole» Magnadur 501
3. Measurement and tracking housing» MWD / LWD technology (Measurements While Drilling / Logging While Drilling)» Magnadur 509 / Magnadur 601
4. Rotor / Stator» Downhole motor of the drill head (stainless or tungsten carbide coated engineering grades)
5. Drive Subs» Coupling between the drill bit and drive motor (engineering grades)
6. Drill bit
Seabed
Oil deposit
1 Drill collars
2 Stabiliser
3 Measurement and tracking housing
4 Rotor / Stator
5 Drive Subs
6 Drill bit
04
Standards and designationsMagnadur 501 is a non-standard special steel from Deutsche Edelstahlwerke GmbH.
Special PropertiesNonmagnetic alloy µr < 1.01 in combina-tion with high strength and high corrosion resistance.
Corrosion Resistance(PREN1 = 19 - 23)Magnadur 501 has a high resistance against intergranular corrosion according ASTM A 262 practice A and E and possesses a good resistance against stress corrosion cracking especially when a suit-able surface treatment like shot or hammer peening is applied. The pitting corrosion re-sistance is suitable for standard drill collar applications.
1PREN: Pitting resistance equivalent number %Cr + 3.3x %Mo + 16x %N
MAGNADUR 501
Magnadur 501
C Si Mn P S Cr Ni Mo N
Min. - 0.30 18.5 - - 13.0 0.25 0.35 0.32
Max. 0.04 0.60 22.0 0.03 0.005 15.0 0.50 0.50 0.40
CHEMICAL COMPOSITION (IN WEIGHT-%)
Customer specific limitations of standard analysis are possible after consultation with the Deutsche Edelstahlwerke GmbH.
PHYSICAL PROPERTIES
Density in kg/dm3 at » 20°C 7.8
Young’s modulus in GPa at» 20°C 195
Thermal conductivity in W/(m K) at » 20°C 14.0
Thermal expansion coefficient in 10-6 K-1
» 20°C – 100°C» 20°C – 200°C» 20°C – 300°C
16.517.618.5
Specific heat capacityin kJ/(kg K) at » 20°C 0.50
Density in Lb/in3 at» 68°F 0.282
Young’s modulusin ksi at » 68°F 28.3 x 103
Thermal conductivity in BTU in/(h ft2 °F) at » 68°F 97.16
Thermal expansion coefficient in 10-6 F-1
» 68°F - 212°F» 68°F - 392°F» 68°F - 572°F
9.179.7810.28
Specific heat capacityin BTU/(Lb °F) at » 68°F 0.119
05MAGNADUR 501
MECHANICAL PROPERTIES IN FORGED AND WORK-HARDENED CONDITION AT ROOM TEMPERATURE1
1 All specimens are
taken in accordance
to API-standard in
longitudinal direction
one inch below the
surface.
2 Rotating bending
@ 107 cycles
Ø» in mm» in in
50 - 1752 - 67/8
176 - 279.47 - 11
Hardness in HB ≥ 275 ≥ 275
Min. Rp0.2
» in MPa» in ksi
825120
770 112
Min Rm
» in MPa» in ksi
930 135
900130
Min. A2’’ in % 25 25
Min. Z in % 50 50
Min. AV» in J» in ft-lbs
160120
160120
Min. Fatigue strength2
» in MPa» in ksi
35050
35050
06
Standards and designationsMagnadur 509 is a non-standard special steel from Deutsche Edelstahlwerke GmbH.
Special PropertiesNonmagnetic alloy µr < 1.01 in combina-tion with high strength and high corrosion resistance.
Corrosion Resistance(PREN1 = 28 - 33)Magnadur 509 has an excellent resistance against intergranular corrosion according to ASTM A 262 practice A and E and canwithstand stress corrosion cracking to a certain extent. A surface treatment also improves SCC resistance to higher limits. With regard to pitting corrosion Magnadur 509 shows excellent values. The critical pitting corrosion potential is higher than the potential of Magnadur 501 and close to the potential of Magnadur 601.
1PREN: Pitting resistance equivalent number %Cr + 3.3x %Mo + 16x %N
MAGNADUR 509
Magnadur 509
C Si Mn P S Cr Ni Mo N
Min. - - 18.0 - - 17.0 2.50 0.90 0.50
Max. 0.05 0.30 20.0 0.03 0.005 19.0 3.50 1.20 0.60
CHEMICAL COMPOSITION (IN WEIGHT-%)
Customer specific limitations of standard analysis are possible after consultation with the Deutsche Edelstahlwerke GmbH.
PHYSICAL PROPERTIES
Density in kg/dm3 at» 20°C» 100°C» 200°C» 300°C
7.687.657.607.56
Young’s modulus in GPa at» 20°C 196.5
Thermal conductivity in W/(m K) at» 20°C» 100°C» 200°C» 300°C
12.714.215.817.0
Thermal expansion coefficient in 10-6 K-1
» 20°C – 100°C» 20°C – 200°C» 20°C – 300°C
16.517.518.6
Specific heat capacityin kJ/(kg K) at» 20°C» 100°C» 200°C» 300°C
0.48 0.590.540.57
Density in Lb/in3 at» 68°F» 212°F» 392°F» 572°F
0.2770.2760.2750.273
Young’s modulusin ksi at » 68°F 28.5 x 103
Thermal conductivity in BTU in/(h ft2 °F) at» 68°F» 212°F» 392°F» 572°F
88.1498.55109.65117.98
Thermal expansion coefficient in 10-6 F-1
» 68°F - 212°F» 68°F - 392°F» 68°F - 572°F
9.179.7210.33
Specific heat capacityin BTU/(Lb °F) at» 68°F» 212°F» 392°F» 572°F
0.1150.1410.1290.136
07MAGNADUR 509
MECHANICAL PROPERTIES IN FORGED AND WORK-HARDENED CONDITION AT ROOM TEMPERATURE1
1 All specimens are
taken in accordance
to API-standard in
longitudinal direction
one inch below the
surface.
2 Rotating bending
@ 107 cycles
Ø» in mm» in in
75 - 2163 - 81/2
217 - 25083/4 - 93/4
Hardness in HB ≥ 290 ≥ 290
Min. Rp0.2
» in MPa» in ksi
900130
830 120
Min Rm
» in MPa» in ksi
965 140
900130
Min. A2’’ in % 20 20
Min. Z in % 50 50
Min. AV» in J» in ft-lbs
135100
135100
Min. Fatigue strength2
» in MPa» in ksi
445 65
445 65
08
Standards and designationsMagnadur 601 is a non-standard special steel from Deutsche Edelstahlwerke GmbH.
Special PropertiesNonmagnetic alloy µr < 1.01 in combina-tion with high strength and high corrosion resistance.
Corrosion Resistance(PREN1 = 29.5 - 35)Magnadur 601 has an excellent resistance against stress corrosion cracking as far as tensile stresses are lower than 0.5 x yield strength. The pitting corrosion potential is far better than the potential of Magnadur 501. Although the PREN values of Magna-dur 509 and 601 are in the same approx-imate range, Magnadur 601 is performing better with regard to pitting corrosion due to higher molybdenum content.
1PREN: Pitting resistance equivalent number %Cr + 3.3x %Mo + 16x %N
MAGNADUR 601
Magnadur 601
C Si Mn P S Cr Ni Mo N
Min. 18.0 15.5 4.20 2.00 0.40
Max. 0.05 0.30 20.0 0.03 0.005 17.5 5.00 2.80 0.50
CHEMICAL COMPOSITION (IN WEIGHT-%)
Customer specific limitations of standard analysis are possible after consultation with the Deutsche Edelstahlwerke GmbH.
PHYSICAL PROPERTIES
Density in kg/dm3 at» 20°C 7.79
Young’s modulus in GPa at» 20°C 196.5
Thermal conductivity in W/(m K) at» 20°C» 100°C» 200°C» 300°C
12.814.616.317.3
Thermal expansion coefficient in 10-6 K-1
» 20°C – 100°C» 20°C – 200°C» 20°C – 300°C
14.616.317.3
Specific heat capacityin kJ/(kg K) at» 20°C» 100°C» 200°C» 300°C
0.47 0.510.530.55
Density in Lb/in3 at» 68°F 0.281
Young’s modulusin ksi at » 68°F 28.5 x 103
Thermal conductivity in BTU in/(h ft2 °F) at» 68°F» 212°F» 392°F» 572°F
88.83101.32113.12120.06
Thermal expansion coefficient in 10-6 F-1
» 68°F - 212°F» 68°F - 392°F» 68°F - 572°F
8.119.069.61
Specific heat capacityin BTU/(Lb °F) at» 68°F» 212°F» 392°F» 572°F
0.1120.1220.1270.131
09MAGNADUR 601
MECHANICAL PROPERTIES IN FORGED AND WORK-HARDENED CONDITION AT ROOM TEMPERATURE1
1 All specimens are
taken in accordance
to API-standard in
longitudinal direction
one inch below the
surface.
2 Rotating bending
@ 107 cycles
Ø» in mm» in in
75 - 2353 - 91/4
> 235 - 250> 91/4 - 93/4
Hardness in HB 300 - 400 300 - 400
Min. Rp0.2
» in MPa» in ksi
965140
900 130
Min Rm
» in MPa» in ksi
1035150
1035150
Min. A2’’ in % 20 20
Min. Z in % 50 50
Min. AV» in J» in ft-lbs
135100
135100
Min. Fatigue strength2
» in MPa» in ksi
44565
44565
10 CURRENT DENSITY – POTENTIAL CURVE OF MAGNADUR ALLOYScu
rren
t d
ensi
ty i
log
[mA
/cm
2 ]
102
101
100
10-1
10-2
10-3
10-4
10-5
10-6
potential U [mVH]
-200 -100 0 100 200 300 400 500 600 700 800 900 1000 1100
solution: 800 ppm CI-
temperature: 23°Cvelocity: 0,1 mV/s
Magnadur 501 Magnadur 509 Magnadur 601
CURRENT DENSITY – POTENTIAL CURVE OF MAGNADUR ALLOYS
11DELIVERY FORMS AND DIMENSIONS
General note (liability)All statements regarding the properties or utilisation of the materials or products mentioned are for the purpose of description only. Guarantees regarding the existence of certain properties or certain utilisation are only ever valid if agreed upon in writing.
Magnadur Form of delivery Diameter in mm Diameter in in
501Forged bars, work-hardened, peeled / machined, solid or bored with common API IDs
50 - 250 2 - 93/4
509Forged bars, work-hardened, peeled / machined, solid or bored with common API IDs 75 - 250
3 - 93/4
601Forged bars work-hardened, peeled / machined, solid or bored with common API IDs 75 - 250
3 - 93/4
Delivery forms and dimensionsTypically Magnadur is used in the work-hardened condition. Through a controlled forging process on a rotary hammer forging machine a uniform strain distribution over the entire circumference is achieved. Due to a rapid quenching after the pre-forging process the Magnadur steels are practically free of undesirably precipitations. This has an extremely posi-tive effect on different types of corrosion.
Delivery Programme You can find our complete delivery programme in the brochure „High-tech Steel Solutions for tomorrow’s World (Products and Services)“ on www.dew-stahl.com.
DELIVERY FORMS AND DIMENSIONS
2016-0060
Deutsche Edelstahlwerke GmbH & Co. KG
Auestr. 458452 WittenGermany
Phone: +49 (0)2302 29 - 0Fax: +49 (0)2302 29 - 4000
oiltool@dew-stahl.comwww.dew-stahl.com