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Steel Sucker Rods & Pony Rods

NORRIS

Engineered performance. Designed tough.

Norris stands behind

every product that it sells.

We guarantee that if

any newly manufactured

Norris product fails to comply

with API Specification 11B,

Norris will replace it at

no cost to the customer.

A detailed explanation of our

Zero Defects Guarantee

may be found on our website,

www.norrisrods.com.

to relieve residual stresses, air-quenched and tempered

to refine and homogenize grain structure, and surface

shot-blasted to remove any remaining heat treat scale.

Upset pin blanks are machined and dimensions gauged.

Pin threads are cold-formed to strengthen the thread from

fatigue. An inhibitor-lubricant is applied to each pin and

thread protector installed. An oil soluble coating protects

Norris rods from atmospheric corrosion in storage.

All rods are bundled to prevent handling damage during

transportation to the well site. Quality control inspections

are performed at each step of the manufacturing process.

Norris Pony Rods are manufactured to the same chemical

and physical properties, dimensions, tolerances and rod

body diameters as Norris rods. Pony rods are available

in 2 ft. (0,61 m), 4 ft. (1,22 m), 6 ft. (1,83 m), 8 ft. (2,44 m)

and 10 ft. (3,05 m) lengths, depending on size and grade.

Other lengths are available on special order.

Norris Steel Sucker Rods& Pony RodsNorris Steel Sucker Rods are manufactured from

micro-alloyed, modified special quality hot rolled carbon

or alloy steel. Bar and sucker rod dimensions and tolerances

conform to API Specification 11B, latest edition, and AISI

Steel Products Manual. Sucker rods are available in 5/8

inch (15,88 mm), 3/4 inch (19,05 mm), 7/8 inch (22,23

mm), 1 inch (25,4 mm), 1-1/8 inch (25,58 mm) and 1-1/4

inch (31,75 mm) rod body diameters and in both 25 ft.

(7,62 m) and 30 ft. (9,144 m) lengths, depending on size

and grade.

All rods are straightened and inspected by Eddy Current

for surface defects. Both ends are upset by automatic

high-speed hot forging. Rods are full length normalized

30 40 54 78 75/90 96 97

Body6-Point Pin End Socket White Blue OrangeBrown Yellow Green Purple

5/8”(15,88 mm)

1-3/16” •3/4”

(19,05 mm) 1-3/8”

7/8”(22,23 mm)

1-7/16”

1”(25,4 mm)

1-3/4”

1-1/8”(28, 58 mm)

1-7/8”

1-1/4”(31, 75)

1-7/8”

• •- - - †

• • •• • • •

• • •• • • •

† • • • • •-

-

-

•

-

-

- -

†•

-

†

†

•

†

End

Cap

Colo

r Cod

e

† = Special Order

P001-V02-100908 Subject to change w

ithout notice.

• = Standard Availability

C

AISI C-1541-M Carbon Steel

Designed for reciprocating lift applications in shallow-to-medium depth wells, the Type 30 is heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids.

Type 30

API Grade

Steel Series

Application

K

AISI A-4621-M Nickel-Chromium-Molybdenum Alloy Steel

Designed for reciprocating lift applications in shallow-to-medium depth wells, the Type 40 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids.

Type 40

API Grade

Steel Series

Application

D Carbon


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 54 is effectively heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids. The Type 54 grade can be utilized in some Progressing Cavity Pump (PCP) applications.

Type 54

API Grade

Steel Series

Application

D Alloy

AISI A-4142-M Chromium-Molybdenum Alloy Steel

Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 78 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids. The Type 78 grade is recommended in Progressing Cavity Pump (PCP) applications.

Type 78

API Grade

Steel Series

Application

D Special


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 90 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids. The Type 90 grade is ideally suited for some Progressing Cavity Pump (PCP) applications.

Type 90

API Grade

Steel Series

Application

Special Service High Strength


Designed for heavy load reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 96 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids. The Type 96 grade can be utilized in some Progressing Cavity Pump (PCP) applications.

Type 96

Grade

Steel Series

Application

Selection Guide

D Special


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 75 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids. The Type 75 grade is ideally suited for and recommended in Progressing Cavity Pump (PCP) applications.

Type 75

API Grade

Steel Series

Application



Designed for extremely heavy load reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 97 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids. The Type 97 grade can be utilized in some Progressing Cavity Pump (PCP) applications.

Type 97

Grade

Steel Series

Application

C


Designed for reciprocating lift applications in shallow-to-medium depth wells, the Type 30 is heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids.

Type 30

API Grade

Steel Series

Application

K


Designed for reciprocating lift applications in shallow-to-medium depth wells, the Type 40 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids.

Type 40

API Grade

Steel Series

Application

D Carbon


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 54 is effectively heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids. The Type 54 grade can be utilized in some Progressing Cavity Pump (PCP) applications.

Type 54

API Grade

Steel Series

Application

D Alloy


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 78 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids. The Type 78 grade is recommended in Progressing Cavity Pump (PCP) applications.

Type 78

API Grade

Steel Series

Application

D Special


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 90 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids. The Type 90 grade is ideally suited for some Progressing Cavity Pump (PCP) applications.

Type 90

API Grade

Steel Series

Application



Designed for heavy load reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 96 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its performance in non-corrosive or effectively inhibited corrosive fluids. The Type 96 grade can be utilized in some Progressing Cavity Pump (PCP) applications.

Type 96

Grade

Steel Series

Application

Selection Guide

D Special


Designed for reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 75 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids. The Type 75 grade is ideally suited for and recommended in Progressing Cavity Pump (PCP) applications.

Type 75

API Grade

Steel Series

Application



Designed for extremely heavy load reciprocating lift applications at any depth not exceeding the maximum allowable stress rating, the Type 97 is alloyed and effectively heat-treated to maximize its fatigue resistance and improve its corrosion tolerance in effectively inhibited corrosive fluids. The Type 97 grade can be utilized in some Progressing Cavity Pump (PCP) applications.

Type 97

Grade

Steel Series

Application


Physical Properties1

As Normalized & Tempered30 40 54 78 90 96 97

Type 30

Chromium (Cr)

C-1536-M

Phosphorus (P)

AISI Series

API Grade

Carbon (C)

40 54 78 90 96 97

C

A-4621-M

K

C-1541-VM

D Carbon

A-4142-M

D Alloy

A-4320-M

D Special

A-4138-M

-

A-4330-M

-

Chemical Properties. % 30 40 54 78 90 96 97

0.3/0.39 0.18/0.25 0.36/0.45 0.38/0.45 0.18/0.24 0.36/0.45 0.28/0.35

0.3 Max. 0.25 Max. 0.3 Max. 0.8/1.1 0.7/0.9 0.52/0.88 0.7/1.0

0.04 Max. 0.035 Max. 0.04 Max. 0.035 Max. 0.025 Max. 0.035 Max.

Sulfur (S)

Vanadium (V)

Tensile

ksi

Yield, 2% Offset

Silicon (Si) 0.15/0.35 0.15/0.35 0.15/0.35 0.15/0.35 0.15/0.35 0.2/0.35 0.15/0.35

0.045 Max. 0.04 Max.

0.02/0.07 0.02/0.07 0.04/0.09 0.02/0.07 0.04/0.09 0.04/0.09 0.04/0.09

90/115 90/115 115/140 120/140 120/140 140/150 140/150

621/793 621/793 793/965 827/965 827/965 965/1 034 965/1 034

0.035 Max.

0.035 Max. 0.035 Max. 0.04 Max. 0.04 Max.0.025 Max.

Mpa

ksi

Mpa

60 Min. 60 Min. 85 Min. 95 Min. 95 Min. 115 Min. 115 Min.


Elongation, 8”

Reduction, %

Hardness, HRC



(9)2/23 (9)2/23 22/30 23/31 23/31 30/34 30/34

75

75

A-4330-M

D Special

75

0.3/0.34

0.8/1.0

Niobium (Columbium) (Nb) - - - - - 0.02/0.045 --

0.035 Max.

0.15/0.35

0.04/0.09

125/140

861/965

0.04 Max.

100 Min.

689 Min.

10 Min.

45 Min.

25/31

1 Tensile strength and yield strength values are the only steel sucker rod and pony rod physical requirements in API Specification 11B. All other physical properties are expected values only and may deviate from the listed values shown above.

2 Numerals (in brackets) are HRC values not ordinarily used but are shown here for comparative reference purposes only.

NOTE: The selection guide is not intended as design criteria. Call Norris for specific rod string design recommendations.

Aluminum (AI) 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max.

Norr

is S

teel

Suc

ker R

ods

Copper (Cu)

Manganese (Mn)

Molybdenum (Mo)

Nickel (Ni)

0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max.

1.1/1.4 0.6/0.8 1.35/1.65 0.8/1.0 0.8/1.0 0.88/1.52 0.7/1.0

0.06 Max. 0.15/0.25 0.06 Max. 0.15/0.25 0.2/0.3 0.25/0.35 0.2/0.3

0.35 Max. 1.65/2.0 0.35 Max. 0.45 Max. 1.15/1.5 0.3 Max. 1.65/2.0

0.35 Max.

0.8/1.0

0.2/0.3

1.65/2.0


Physical Properties1

As Normalized & Tempered30 40 54 78 90 96 97

Type 30

Chromium (Cr)

C-1536-M

Phosphorus (P)

AISI Series

API Grade

Carbon (C)

40 54 78 90 96 97

C

A-4621-M

K

C-1541-VM

D Carbon

A-4142-M

D Alloy

A-4320-M

D Special

A-4138-M

-

A-4330-M

-

Chemical Properties. % 30 40 54 78 90 96 97

0.3/0.39 0.18/0.25 0.36/0.45 0.38/0.45 0.18/0.24 0.36/0.45 0.28/0.35

0.3 Max. 0.25 Max. 0.3 Max. 0.8/1.1 0.7/0.9 0.52/0.88 0.7/1.0

0.04 Max. 0.035 Max. 0.04 Max. 0.035 Max. 0.025 Max. 0.035 Max.

Sulfur (S)

Vanadium (V)

Tensile

ksi

Yield, 2% Offset

Silicon (Si) 0.15/0.35 0.15/0.35 0.15/0.35 0.15/0.35 0.15/0.35 0.2/0.35 0.15/0.35

0.045 Max. 0.04 Max.

0.02/0.07 0.02/0.07 0.04/0.09 0.02/0.07 0.04/0.09 0.04/0.09 0.04/0.09

90/115 90/115 115/140 120/140 120/140 140/150 140/150

621/793 621/793 793/965 827/965 827/965 965/1 034 965/1 034

0.035 Max.

0.035 Max. 0.035 Max. 0.04 Max. 0.04 Max.0.025 Max.

Mpa

ksi

Mpa



Elongation, 8”

Reduction, %

Hardness, HRC



(9)2/23 (9)2/23 22/30 23/31 23/31 30/34 30/34

75

75

A-4330-M

D Special

75

0.3/0.34

0.8/1.0

Niobium (Columbium) (Nb) - - - - - 0.02/0.045 --

0.035 Max.

0.15/0.35

0.04/0.09

125/140

861/965

0.04 Max.

100 Min.

689 Min.

10 Min.

45 Min.

25/31

1 Tensile strength and yield strength values are the only steel sucker rod and pony rod physical requirements in API Specification 11B. All other physical properties are expected values only and may deviate from the listed values shown above.

2 Numerals (in brackets) are HRC values not ordinarily used but are shown here for comparative reference purposes only.

NOTE: The selection guide is not intended as design criteria. Call Norris for specific rod string design recommendations.

Aluminum (AI) 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max.

Norr

is S

teel

Suc

ker R

ods

Copper (Cu)

Manganese (Mn)

Molybdenum (Mo)

Nickel (Ni)

0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max. 0.35 Max.

1.1/1.4 0.6/0.8 1.35/1.65 0.8/1.0 0.8/1.0 0.88/1.52 0.7/1.0

0.06 Max. 0.15/0.25 0.06 Max. 0.15/0.25 0.2/0.3 0.25/0.35 0.2/0.3

0.35 Max. 1.65/2.0 0.35 Max. 0.45 Max. 1.15/1.5 0.3 Max. 1.65/2.0

0.35 Max.

0.8/1.0

0.2/0.3

1.65/2.0

NORRIS - apergycdn.5thring.co.ukapergycdn.5thring.co.uk/...Sucker_Rods__Pony_Rods.pdf · Sucker...

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