API 5L X42 PSL2 Seamless Steel Pipe

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API 5L X42 PSL2 Seamless Steel Pipe

We can help supply all of the Carbon Steel API 5L Gr. X42 Seamless Pipe or linepipe supplies that your company needs for use in the oil or natural gas industries. API 5L Line Pipe Specifications for these pipes regulate usage for standard Grade A and Grade B pipes, with Grade X indicating stronger variants for drilling, production and transport requirements for offshore, arctic, deep well or harsher environments. Longitudinally welded steel pipes / Carbon Steel API 5L Gr. X42 Seamless Pipe are used in onshore and offshore oil and gas pipelines requiring critical service, high performance and tight tolerances.

All products are industry-standard conforming to or exceeding API, ASTM, ASME, ANSI and other national and international standards.

Whether you need Carbon Steel API 5L Gr. X42 Seamless Pipe, standard length and diameter pipes and tubing or you need high strength, high tensile, heavy wall linepipe requirements for deep sour wells, drilling, offshore drilling and production, arctic exploration and production, or you need Carbon Steel API 5L Gr. X42 Seamless Pipe for natural gas, oil or water transport, then AN Steel Steel and Alloys. can meet the demands of your company.

Applications of API 5L X42 PSL2 Seamless Pipe
Carbon Steel is used in the most critical engineering applications and also in certain applications in the automotive sector. In addition, some of the value-added Carbon Steel products include steel for LPG cylinders, API grade, corrosion resistant steel, critical structural application steel, boiler quality, auto grades, precision tubes and medium/high carbon grades, among others.

Specification for line pipe API SPEC 5L (-09): specifies the requirements for the manufacture of two product specification levels (PSL1 and PSL2) of seamless and welded steel pipes for use in pipeline transportation systems in the petroleum and natural gas industries.

CHEMICAL COMPOSITION OF API 5L X42 CARBON STEEL PIPE
Mass fraction, based upon heat and product analysis % maximum										CARBON EQUIVALENT a
										% MAXIMUM
Cb		Si	Mnb	P	S	V	Nb	Ti	Other	CEIIW	CEPcm
SEAMLESS & WELDED PIPES
L290R OR X42R	0.24	0.4	1.2	0.025	0.015	0.06	0.05	0.04	e	0.43	0.25
L290Q OR X42Q	0.18	0.45	1.4	0.025	0.015	0.05	0.05	0.04	e	0.43	0.25
WELDED PIPE
L290M OR X42M	0.22	0.45	1.3	0.025	0.015	0.05	0.05	0.04	e	0.43	0.25

MECHANICAL REQUIREMENTSOF API 5L X42 CARBON STEEL PIPE
Y.S	T.S	ELONGATION
Mpa(psi)	Mpa(psi)	ELONGATION
min	min	min
290(42 100)	495(71 800)	f

IMPACT TEST OF API 5LX42 CARBON STEEL PIPE
AVG. ABSORBED ENERGY	IND. ABSORBED ENERGY
Min.(joules)	Min.(joules)
27	20

Chemical composition for PSL 2 pipe with t ≤ 25,0 mm (0.984 in)
Table 5

Steel grade (steel name)	Mass fraction, based upon heat and product analyses % maximum									Carbon equivalent^a % maximum
Steel grade (steel name)	C ^b	Si	Mn ^b	P	S	V	Nb	Ti	Other	CE_iiw	CE_pcm
Seamless and welded pipes
L245R or BR	0,24	0,40	1,20	0,025	0,015	c	c	0,04	e	0,43	0,25
L290R or X42R	0,24	0,40	1,20	0,025	0,015	0,06	0,05	0,04	e	0,43	0,25
L245N or BN	0,24	0,40	1,20	0,025	0,015	c	c	0,04	e	0,43	0,25
L290N or X42N	0,24	0,40	1,20	0,025	0,015	0,06	0,05	0,04	e	0,43	0,25
L320N or X46N	0,24	0,40	1,40	0,025	0,015	0,07	0,05	0,04	d,e	0,43	0,25
L360N or X52N	0,24	0,45	1,40	0,025	0,015	0,10	0,05	0,04	d,e	0,43	0,25
L390N or X56N	0,24	0,45	1,40	0,025	0,015	0,10^f	0,05	0,04	d,e	0,43	0,25
L415N or X60N	0,24^f	0,45^f	1,40^f	0,025	0,015	0,10^f	0,05	0,04^f	g,h	as agreed
L245Q or BQ	0,18	0,45	1,40	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L290Q or X42Q	0,18	0,45	1,40	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L320Q or X46Q	0,18	0,45	1,40	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L360Q or X52Q	0,18	0,45	1,50	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L390Q or X56Q	0,18	0,45	1,50	0,025	0,015	0,07	0,05	0,04	d,e	0,43	0,25
L415Q or X60Q	0,18^f	0,45^f	1,70^f	0,025	0,015	g	g	g	h	0,43	0,25
L450Q or X65Q	0,18^f	0,45^f	1,70^f	0,025	0,015	g	g	g	h	0,43	0,25
L485Q or X70Q	0,18^f	0,45^f	1,80^f	0,025	0,015	g	g	g	h	0,43	0,25
L555Q or X80Q	0,18^f	0,45^f	1,90^f	0,025	0,015	g	g	g	i,j	as agreed
Welded pipe
L245M or BM	0,22	0,45	1,20	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L290M or X42M	0,22	0,45	1,30	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L320M or X46M	0,22	0,45	1,30	0,025	0,015	0,05	0,05	0,04	e	0,43	0,25
L360M or X52M	0,22	0,45	1,40	0,025	0,015	d	d	d	e	0,43	0,25
L390M or X56M	0,22	0,45	1,40	0,025	0,015	d	d	d	e	0,43	0,25
L415M or X60M	0,12^f	0,45^f	1,60^f	0,025	0,015	g	g	g	h	0,43	0,25
L450M or X65M	0,12^f	0,45^f	1,60^f	0,025	0,015	g	g	g	h	0,43	0,25
L485M or X70M	0,12^f	0,45^f	1,70^f	0,025	0,015	g	g	g	h	0,43	0,25
L555M or X80M	0,12^f	0,45^f	1,85^f	0,025	0,015	g	g	g	i	0,43^f	0,25
L625M or X90M	0,10	0,55^f	2,10^f	0,020	0,010	g	g	g	i	—	0,25
L690M or X100M	0,10	0,55^f	2,10^f	0,020	0,010	g	g	g	i,j		0,25
L830M or X120M	0,10	0,55^f	2,10^f	0,020	0,010	g	g	g	i,j		0,25

Table 5 —chemical composition for PSL 2 pipe with t ≤ 25,0 mm (0.984 in) (Continued)

a Based upon product analysis. For seamless pipe with t > 20,0 mm (0.787 in), the carbon equivalent limits shall be as agreed. The CE_iiw limits apply if the carbon mass fraction is greater than 0,12 % and the CE_pcm limits apply if the carbon mass fraction is
less than or equal to 0,12 %.

b For each reduction of 0,01 % below the specified maximum for carbon, an increase of 0,05 % above the specified maximum for manganese is permissible, up to a maximum of 1,65 % for grades ≥ L245 or B, but ≤ L360 or X52; up to a maximum of 1,75 % for grades >L360 or X52, but < L485 or X70; up to a maximum of 2,00 % for grades ≥L485 or X70, but ≤ L555 or X80; and up to a maximum of 2,20 % for grades >L555 or X80.

c Unless otherwise agreed , the sum of the niobium and vanadium concentrations shall be ≤ 0,06 %.

d The sum of the niobium, vanadium and titanium concentrations shall be ≤ 0,15 %.

e Unless otherwise agreed, 0,50 % maximum for copper, 0,30 % maximum for nickel, 0,30 % maximum for chromium and 0,15 % maximum for molybdenum.

f Unless otherwise agreed.

g Unless otherwise agreed, the sum of the niobium, vanadium and titanium concentrations shall be ≤ 0,15 %.

h Unless otherwise agreed, 0,50 % maximum for copper, 0,50 % maximum for nickel, 0,50 % maximum for chromium and 0,50 % maximum for molybdenum.

i Unless otherwise agreed, 0,50 % maximum for copper, 1,00 % maximum for nickel, 0,50 % maximum for chromium and 0,50 % maximum for molybdenum.

j 0,004 % maximum for boron.

9.2 Chemical compostion

9.2.4 For PSL 2 pipe with a product analysis carbon mass fraction equal to or less than 0,12 %, the carbon equivalent, CE _pcm,shall be determined using Equation (2):

where the symbols for the chemical elements represent the mass fraction in percent (see Table 5).

.If the heat analysis for boron is less than 0,000 5 % then it is not necessary for the product analysis to include boron, and the boron content may be considered to be zero for the CE_pcm calculation.

9.2.5 For PSL 2 pipe with a product analysis carbon mass fraction greater than 0,12 % the carbon equivalent, CE_llw shall be determined using Equation (3):

where the symbols for the chemical elements represent the mass fraction in percent (see Table 5).

NOTE: A derogation from the ISO rules for the presentation of chemical equations has been granted for Equations (2) and (3) in deference to their longstanding use in the industry.

Requirements for the results of tensile tests for PSL 2 pipe
Table 7

Pipe grade	Pipe body of seamless and welded pipes						Weld seam of HFW, SAW and COW pipes
	Yield strength^a R_to,5^b MPa (psi)		Tensile strength^a R_m MPa (psi)		Ratio^a,b,c R_to,5/R_m	Elongation A _f %	Tensile strength^d R_m MPa (psi)
	minimum	maximum	minimum	maximum	maximum	minimum	minimum
L245R or BR L245N or BN L245Q or BQ L245M or BM	245 (35 500)	450 ^e (65 300) ^e	415 (60 200)	760 (110 200)	0,93	f	415 (60 200)
L290R or X42R L290N or X42N L290Q or X42Q L290M or X42M	290 (42 100)	495 (71 800)	415 (60 200)	760 (110 200)	0,93	f	415 (60 200)
L320N or X46N L320Q or X46Q L320M or X46M	320 (46 400)	525 (76 100)	435 (63 100)	760 (110 200)	0,93	f	435 (63 100)
L360N or X52N L360Q or X52Q L360M or X52M	360 (52 200)	530 (76 900)	460 (66 700)	760 (110 200)	0,93	f	460 (66 700)
L390N or X56N L390Q or X56Q L390M or X56M	390 (56 600)	545 (79 000)	490 (71 100)	760 (110 200)	0,93	f	490 (71 100)
L415N or X60N L415Q or X60Q L415M or X60M	415 (60 200)	565 (81 900)	520 (75 400)	760 (110 200)	0,93	f	520 (75 400)
L450Q or X65Q L450M or X65M	450 (65 300)	600 (87 000)	535 (77 600)	760 (110 200)	0,93	f	535 (77 600)
L485Q or X70Q L485M or X70M	485 (70 300)	635 (92 100)	570 (82 700)	760 (110 200)	0,93	f	570 (82 700)
L555Q or X80Q L555M or X80M	555 (80 500)	705 (102 300)	625 (90 600)	825 (119 700)	0,93	f	625 (90 600)
L625M or X90M	625 (90 600)	775 (112 400)	695 (100 800)	915 (132 700)	0,95	f	695 (100 800)
L690M or X100M	690 (100 100)	840 (121 800)	760 (110 200)	990 (143 600)	0,97 ^g	f	760 (110 200)
L830M or X120M	830 (120 400)	1 050 (152 300)	915 (132 700)	1 145 (166 100)	0,99 ^g	f	915 (132 700)

Table 7 —-Requirements for the results of tensile tests for PSL 2 pipe (continued)

a For intermediate grades, the difference between the specified maximum yield strength and the specified minimum yield strength shall be as given in the table for the next higher grade, and the difference between the specified minimum tensile strength and the specified minimum yield strength shall be as given in the table for the next higher grade, For intermediate grades lower than Grade L555 or X80, the tensile strength shall be ≤ 760 MPa (110 200 psl). For intermediate grades higher than Grade L555 or X80, the maximum permissible tensile strength shall be obtained by interpolation. For SI units, the calculated value shall be rounded to the nearest 5 MPa. For USC units, the calculated value shall be rounded to the nearest 100 psi.

b For grades >L625 or X90, R_p0,2 applies.

c This limit applies for pipe with D >323, 9 mm (12.750 in).

d For intermediate grades, the specified minimum tensile strength for the weld seam shall be the same value as was determined for the pipe body using footnote a).

e For pipe with D<219,1 mm (8.625 in), the maximum yield strength shall be ≤495 MPa (71 800 psi).

f The specified minimum elongation, A_f, shall be as determined using the following equation:

Where

C is 1 940 for calculations using SI units and 625 000 for calculations using USC units;

A_xc is the applicable tensile test piece cross-sectional area, expressed in square millimeters (square inches), as follows:

—- for circular cross-section test pieces, 130 mm² (0.20 in²) for 12,5 mm (0.500 in) and 8,9 mm (0.350 in) diameter test pieces; and 65 mm² ( 0.10 in²) for 6,4 mm (0.250 in) diameter test pieces;

—- for full-section test pieces, the lesser of a) 485 mm² (0.75 in²) and b) the cross-sectional area of the test piece, derived using the specified outside diameter and the specified wall thickness of the pipe, rounded to the nearest 10 mm² (0.01 in²)

—- for strip test pieces, the lesser of a) 485 mm²( 0.75 in² ) and b) the cross-sectional area of the test piece, derived using the specified width of the test piece and the specified wall thickness of the pipe, rounded to the nearest_10 mm² (0.01 in² );

U is the specified minimum tensile strength, expressed in megapascals (pounds per square inch).

g Lower R_to,5/R_m ratio values may be specified by agreement for L690 or X100 and L830 or X120 pipe.

Carbon Steel Pipes and Tubes Products

A53 A106 API5L Grade B/C X42 Seamless Pipe
Size Range : 1/8″ – 26″
Schedules : 20, 30, 40, Standard (STD), Extra Heavy (XH), 80, 100, 120, 140, 160, XXH
Grades : ASTM A53 Gr B, ASME SA53 Gr B, API-5L Gr B, ASTM A106 Gr B, ASME SA106 Gr B, ASTM A106 Gr C, PSL 1 and PSL2

API5L X-42 X-52 X-60 Seamless Pipe
Size Range : 2″ – 24″
Schedules : Standard (STD), Extra Heavy (XH), 100, 120, 160, XXH
Grades : PSL1 and PSL2

A333 (Low Temp) Grade 1/6 Carbon Steel Seamless Pipe
Size Range : 1/2″ – 24″
Schedules : Standard (STD), Extra Heavy (XH), 100, 120, 160, XXH

A53 API5L Grade B X-42 X-52 X-60 ERW (Electric Resistance Welded) Pipe
Size Ranges : 2″ – 24″
Schedules : 10, 20, Standard (STD), Extra Heavy (XH)
Non-Schedules : .120wall, .156wall, .188wall, .203 wall, .219wall etc.
Grades : API-5L Gr B, API-5L Gr X42, API-5L Gr X52, API-5L Gr X60, API-5L Gr X65PSL1 and PSL2

API5L Grade B X-42 X-52 X-60 DSAW/SAW
Size Ranges : 26″ – 60″
Schedules : 20, Std, XH, 30,
Grades : API-5L Gr B, API-5L Gr X42, API-5L Gr X52, API-5L Gr X60, API-5L Gr X65PSL1 and PSL2
Sizes (Seamless): 1/2″ NB – 60″ NB
Sizes (ERW): 1/2″ NB – 24″ NB
Sizes (SAW): 16″ NB – 100″ NB
Wall Thickness available:
Schedule 20 – Schedule XXS (heavier on request) up to 250 mm thk

Material Grades

High Temperature Seamless Pipe	ASTM A106 Gr. B/C, API 5L Gr. B, ASTM A53 Gr. B
Heat Exchanger Seamless Tube	ASTM A179
Low Temperature Seamless Pipe	ASTM A333 Gr. 3/6
Low Temperature Seamless Tube	ASTM A334 Gr. 6
High Yield Seamless Pipe	API 5L Gr. X42/X46/X52/X56/X60/X65/X70/X80 PSL-1/PSL-2
High Yield Seamless Pipe	ISO 3183 Gr.L245, L290, L320, L360, L390, L415, L450, L485
Atmospheric & Low Temp EFW Pipes	ASTM A671 Gr. CC60/CC65/CC70
High Pressure & Moderate Temp EFW Pipes	ASTM A672 Gr. B60/B65/B70/C55/C60/C65/C70
High Yield ERW/SAW Pipe	API 5L Gr. X42/X46/X52/X56/X60/X65/X70/X80 PSL-1/PSL-2
High Yield ERW/SAW Pipe	ISO 3183 Gr.L245, L290, L320, L360, L390, L415, L450, L485

Additional Testing for API 5L X42 PSL2 Seamless Pipe :
NACE MR0175, NACE TM0177, NACE TM0284, HIC TEST, SSC TEST, H2 SERVICE, IBR, etc.

Dimensions for API 5L X42 PSL2 Seamless Pipe:
All Pipe is supplies and stock of and inspected/tested to the relevant standards including ASTM, ASME, API.

API 5L Carbon Steel Seamless Pipes Types

API 5L X42 PSL 1 Pipe	API 5L X42 PSL 2 Pipe
API 5L X46 PSL 1 Pip	API 5L X46 PSL 2 Pipe
API 5L X52 PSL 1 Pipe	API 5L X52 PSL 2 Pipe
API 5L X56 PSL 1 Pipe	API 5L X56 PSL 2 Pipe
API 5L X60 PSL 1 Pipe	API 5L X60 PSL 2 Pipe
API 5L X65 PSL 1 Pipe	API 5L X65 PSL 2 Pipe
API 5L X70 PSL 1 Pipe	API 5L X70 PSL 2 Pipe
API 5L Grade B PSL 1 Pipe	API 5L PSL 2 Pipe
A333 Grade 3 Pipe	A333 Grade 6 Pipe

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