API 5L X65 Pipe Manufacturer in Mumbai

Technical Information

– Application of API 5l X65 Pipe
– Specification Table of API 5l X65 Pipe
– Delivery Condition
– Process of Manufacturing
– Chemical Composition for PSL 1 pipe with t ≤ 0.984”
– Chemical Composition for PSL 2 pipe with t ≤ 0.984”
– Tensile and Yield – PSL1 and PSL2
– Tolerances Outside Diameter, Out of roundness and wall thickness

API 5L X65 pipe is also known as ISO 3183 L450 pipe; it is a high-level grade pipe built for high-pressure uses in oil, gas and water transport. With a minimum yield strength of 65000 Ksi or 450 Mpa, and also a minimum tensile strength of 77ksi, which is ideal for challenging conditions. There are two varieties of API 5L X65 PSL2 pipe: seamless and welded. It goes through rigorous testing to ensure its reliability. The X65 seamless pipe is frequently used in high-flow or corrosive environments because of its smooth inner surface. The alloy mix of carbon, manganese, and phosphorus boosts durability without adding excess weight.

Multi Metals India is a trusted API 5L X65 pipe supplier, offering pipes in various sizes, ends, and coatings to match different project needs. These pipes are frequently used in industrial, chemical, and petroleum pipelines, particularly where strength and resilience to harsh environments are crucial. API 5L X65 line pipes undergo hot or cold galvanization with zinc. This process makes the pipe resistant to corrosion by rusting/oxidation. Because of their resistance to cracking, these pipes can be used underground or for structural purposes. Whether you need it for a pipeline project or to replace old lines, we have the right solution. Reach out today to get a quote or learn more about our range of API 5L X65 pipes.

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Application of API 5l X65 Pipe

● Oil & Gas Transportation

● Petrochemical Industry

● Water Supply

● Construction

Specification Table of API 5l X65 Pipe

Property	Details
Standard	API 5L, PSL-1, PSL-2
Size	1/2″ to 24″, * size above 24” NPS can be arranged on request
Schedule	SCH10, SCH 40, SCH 80, SCH 160 to SCH XXS (as per thickness mentioned in API 5L)
Type	Seamless, Welded, ERW, L-SAW construction
Grade	Grade X65 and L450

Delivery Condition

PSL	Delivery Condition	Pipe grade
PSL1	As-rolled, normalized, normalizing formed	A
	As-rolled, normalizing rolled, thermomechanical rolled, thermo-mechanical formed, normalizing formed, normalized, normalized and tempered or if agreed Q&T SMLS only	B
	As-rolled, normalizing rolled, thermomechanical rolled, thermo-mechanical formed, normalizing formed, normalized, normalized and tempered	X42, X46, X52, X56, X60, X65, X70
PSL 2	As-rolled	BR, X42R
	Normalizing rolled, normalizing formed, normalized or normalized and tempered	BN, X42N, X46N, X52N, X56N, X60N
	Quenched and tempered	BQ, X42Q, X46Q, X56Q, X60Q, X65Q, X70Q, X80Q, X90Q, X100Q
	Thermomechanical rolled or thermomechanical formed	BM, X42M, X46M, X56M, X60M, X65M, X70M, X80M
	Thermomechanical rolled	X90M, X100M, X120M
	The suffice (R, N, Q or M) for PSL2 grades, belongs to the steel grade

Process of Manufacturing

Type of Pipe	PSL 1			PSL 2
Type of Pipe	Grade A	Grade B	X42 to X70	B to X80	X80 to X100
SMLS	✔	✔	✔	✔	✔
LFW	✔	✔	✔
HFW	✔	✔	✔	✔
LW			✔
SAWL	✔	✔	✔	✔	✔
SAWH	✔	✔	✔	✔	✔
	Legend: SMLS – Seamless, without weld LFW – Low frequency welded pipe, <70 kHz HFW – High frequency welded pipe, >70 kHz SAWL – Submerge-arc welding longitudinal welded SAWH – Submerge-arc welding helical welded

Chemical Composition for PSL 1 pipe with t ≤ 0.984”

Steel Grade	Mass fraction, % based on heat and product analyses a,g
	C	Mn	P	S	V	Nb	Ti
	max b	max b	max	max	max	max	max
Seamless Pipe
X65	0.28 e	1.40 e	0.3	0.3	f	f	f
Welded Pipe
X65	0.26 e	1.45 e	0.3	0.3	f	f	f
a. Cu ≤ = 0.50% Ni; ≤ 0.50%; Cr ≤ 0.50%; and Mo ≤ 0.15%, b. For each reduction of 0.01% below the specified maximum concentration for carbon, an increase of 0.05% above the specified maximum concentration for Mn 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; and up to a maximum of 2.00% for grade L485 or X70., c. Unless otherwise agreed NB + V ≤ 0.06%, d. Nb + V + TI ≤ 0.15%, e. Unless otherwise agreed., f. Unless otherwise agreed, NB + V = Ti ≤ 0.15%, g. No deliberate addition of B is permitted and the residual B ≤ 0.001%

Chemical Composition for PSL 2 pipe with t ≤ 0.984”

Steel Grade	Mass fraction, % based on heat and product analyses									Carbon Equiv^a	CE Pcm
	C	Si	Mn	P	S	V	Nb	Ti	Other	CE IIW	CE Pcm
	max^b	max	max^b	max	max	max	max	max	max	max	max
Seamless and Welded Pipe
X65Q	0.18^f	0.45^f	1.70^f	0.025	0.015	g	g	g	h,l	0.43	0.25
Welded Pipe
X65M	0.12^f	0.45^f	1.60^f	0.025	0.015	g	g	g	h,l	0.43	0.25
Notes: a. For SMLS t > 0.787”, CE limits shall be as agreed. The CEIIW limits apply if C > 0.12% and the CEPcm limits apply if C ≤ 0.12%. b. For each reduction of 0.01% below the specified maximum for C, an increase of 0.05% above the specified maximum for Mn is permissible, up to: • 1.65% for grades ≥ L245 or B, but ≤ L360 or X52; • 1.75% for grades > L360 or X52, but < L485 or X70; • 2.00% for grades ≥ L485 or X70, but ≤ L555 or X80; • 2.20% for grades > L555 or X80. c. Unless otherwise agreed, Nb = V ≤ 0.06%. d. Nb = V = Ti ≤ 0.15%. e. Unless otherwise agreed: Cu ≤ 0.50%, Ni ≤ 0.30%, Cr ≤ 0.30%, Mo ≤ 0.15%. f. Unless otherwise agreed. g. Unless otherwise agreed, Nb + V + Ti ≤ 0.15%. h. Unless otherwise agreed: Cu ≤ 0.50%, Ni ≤ 0.50%, Cr ≤ 0.50%, Mo ≤ 0.50%. i. Unless otherwise agreed: Cu ≤ 0.50%, Ni ≤ 1.00%, Cr ≤ 0.50%, Mo ≤ 0.50%. j. B ≤ 0.004%. k. Unless otherwise agreed: Cu ≤ 0.50%, Ni ≤ 1.00%, Cr ≤ 0.55%, Mo ≤ 0.80%. l. For all PSL 2 pipe grades except those with footnote j, no intentional addition of B is permitted; residual B ≤ 0.001%.

Tensile and Yield – PSL1 and PSL2

Pipe Grade	Tensile Properties – Pipe Body of SMLS and Welded Pipes PSL 1			Seam of Welded Pipe
	Yield Strength a	Tensile Strength a	Elongation	Tensile Strength b
	Rt0,5 PSI Min	Rm PSI Min	(in 2in Af % min)	Rm PSI Min
X65	65,300	77,500	c	77,500
a. For intermediate grade, the difference between the specified minimum tensile strength and the specified minimum yield for the pipe body shall be as given for the next higher grade.
b. For the intermediate grades, the specified minimum tensile strength for the weld seam shall be the same as determined for the body using foot note a.
c. The specified minimum elongation, Af, expressed in percent and rounded to the nearest percent, shall be determined using the following equation:


Where C is 1 940 for calculation using Si units and 625 000 for calculation using USC units
Axc is the applicable tensile test piece cross-sectional area, expressed in square millimeters (square inches) , as follows
– For circular cross-section test pieces, 130mm2 (0.20 in2) for 12.7 mm (0.500 in) and 8.9 mm (.350 in) diameter test pieces; and 65 mm2 (0.10 in2) for 6.4 mm (0.250in) 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 (0.10in2)
– 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 (0.10in2)
U is the specified minimum tensile strength, expressed in megapascals (pounds per square inch)

Tolerances Outside Diameter , Out of roundness and wall thickness

Specified Outside Diameter D (in)	Diameter Tolerance, inches d				Out-of-Roundness Tolerance in
	Pipe except the end a		Pipe end a,b,c		Pipe except the End a	Pipe End a,b,c
	SMLS Pipe	Welded Pipe	SMLS Pipe	Welded Pipe	Pipe except the End a	Pipe End a,b,c
< 2.375	-0.031 to + 0.016		– 0.031 to + 0.016		0.048	0.036
≥2.375 to 6.625					0.020D for	0.015D for
	+/- 0.0075D		– 0.016 to + 0.063		D/t≤75	D/t≤75
					By agreement for	By agreement for
					D/t≤75	D/t≤75
>6.625 to 24.000	+/- 0.0075D	+/- 0.0075D, but max of 0.125	+/- 0.005D, but max of 0.063		0.020D	0.015D
>24 to 56	+/- 0.01D	+/- 0.005D but max of 0.160	+/- 0.079	+/- 0.063	0.015D for but max of 0.060	0.01D for but max of 0.500
					For	For
					D/t≤75	D/t≤75
					By agreement	By agreement
					for	for
					D/t≤75	D/t≤75
>56	As agreed
a. The pipe end includes a length of 4 in ate each of the pipe extremities
b. For SMLS pipe the tolerance apply for t≤0.984in and the tolerances for the thicker pipe shall be as agreed
c. For expanded pipe with D≥8.625in and for non-expanded pipe, the diameter tolerance and the out-of-roundness tolerance may be determined using the calculated inside diameter or measured inside diameter rather than the specified OD.
d. For determining compliance to diameter tolerance, the pipe diameter is defined as the circumference of the pipe in any circumferential plane divide by Pi.

Wall thickness	Tolerances a
t inches	inches
SMLS pipe b
≤ 0.157	-1.2
> 0.157 to < 0.948	+ 0.150t / – 0.125t
≥ 0.984	+ 0.146 or + 0.1t, whichever is the greater
≥ 0.984	– 0.120 or – 0.1t, whichever is the greater
Welded pipe c,d
≤ 0.197	+/- 0.020
> 0.197 to < 0.591	+/- 0.1t
≥ 0.591	+/- 0.060
a. If the purchase order specifies a minus tolerance for wall thickness smaller than the applicable value given in this table, the plus tolerance for wall thickness shall be increased by an amount sufficient to maintain the applicable tolerance range.
b. For pipe with D≥ 14.000 in and t≥0.984in, the wall thickness tolerance locally may exceed the plus tolerance for wall thickness by an additional 0.05t provided that the plus tolerance for mass is not exceeded.
c. The plus tolerance for wall thickens does not apply to the weld area
d. See the full API5L spec for full details

API 5l X65 Pipe