Ring Type Joint Flange

 Ring Type Joint Flange is a method of ensuring leak proof flange connection at high pressures. A metal ring is compressed into a hexagonal groove on the face of the flange to make the seal. This jointing method can be employed on Weld Neck, Slip-on and Blind Flange.

ring-type-joint-flange

RTJ Flanges, Ring Type Joint Flange

Standards: ANSI, MSS, API, AWWA, DIN, JIS, BS and GB.

Pressure classes range: from 150lbs to 2,500lbs.

Sizes range: From 1/2″ to 84″.

Materials: Carbon steel, stainless steel and alloy steel.

Printing: Carbon steel and alloy steel with yellow print, black print, oil or zinc.

Packing: Plywooden case.

Standards, Dimensions & Weight
Dimensions of Ring Joint Facings
Ring Joint Facings ASME/ANSI B16.5 & B16.47-1
Ring Joint Facings ASME/ANSI B16.5 & B16.47-2
Ring Joint Facings ASME/ANSI B16.5 & B16.47-3
Ring Joint Facings ASME/ANSI B16.5 & B16.47-4
Specifications of :Ring Type Joint Flange
rjf-b16-16-47
Size: 1/2” to 60”, DN 12mm to DN 1500mm
Pressure class: Class 150 to Class 2,500, PN 2.5 to PN 250
Facing: RF / RTJ

MATERIAL:
Cabon steel: A105, A350 LF2
Stainless steel: A182 F304/F304L/F316/F316L/F321
Alloy steel: F11, F12

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Cold Drawn Seamless tube, Cold Drawn Seamless tubing

 Cold Drawn Seamless tubing (also known as CDS). Cold Drawn Seamless tubes offer tight tolerances compared to Hot Finished Seamless tube, and offers stronger physical properties compared to other mechanical tubing.cold-drawn-seamless-tube

CDS is popular in the hydraulics, being used to make hollowed chrome plated telescopic cylinders and hydraulic rods. It is also popular for large bore, heavy walled, high pressure hydraulic cylinders. Cold Drawn Seamless tubes also find uses in heavy equipment manufacturing such as cranes and garbage trucks.

BARREL TYPE CROSS ROLL PIERCING PROCESS

tube_plug_drawing_process
This cold drawing process continues until the tube is at its specified final dimensions.

In this process, rounds are heated in the rotary hearth furnace/ slope type fixed bed heating furnace to a forming temperature of approximately 1280 degree C. This is followed by a high pressure water jet descaling, prior to which the bloom is pierced in the cross roll piercing mill to produce a thin-walled hollow shell which is elongated to between 3 and 4.5 times its original length. The elongation corresponds to a deformation level between 65 % and 75%. Owing to the relatively large angle of roll inclination, and higher rolling speeds, stock exit speed in the case of barrel-type piercer is considerably faster than in Mannesmann piercing mills.

General process of cold drawing
Contents [hide]

1 General process of cold drawing
1.1 THERE ARE THREE BASIC PROCESSES EMPLOYED FOR THE COLD DRAWING OF TUBE:
1.2 ANNEALING
1.3 STRAIGHTENING
1.4 EDDY CURRENT
1.5 FINISHING
A considerable proportion of the seamless tubes and pipes manufactured through the cold roll piercing technology undergo subsequent cold forming. The principal reasons behind cold drawing are:

Achievement of closer wall thickness and diameter tolerance
Improvement in surface finish
To enhance serviceability
No premature failure
Suitable for critical forming Such as 180˚ Bends
Enhancement of mechanical properties of the tube
Expansion of product mix towards the lower end of the OD and wall thickness scales.
THERE ARE THREE BASIC PROCESSES EMPLOYED FOR THE COLD DRAWING OF TUBE:
Hollow drawing
Stationery drawing or floating plug drawing and
Drawing over a mandrel (also known as drawing on-the-bar)
ANNEALING
After the goods are cold drawn to sizes, the tubes are put on annealing furnace for heat treatment and normalising.

STRAIGHTENING
Post annealing, the goods are passed through a seven roller straightening machine to achieve proper straightening of the tubes.

EDDY CURRENT
Post straightening, each tube is passed through eddy current machine to detect for surface cracks and other defects . Only the tubes that pass eddy current are fit for delivery to customers.

FINISHING
Each tube is either oiled with corrosion resistant oil or varnished for surface protection and corrosion resistant as per customers requirement, each tube end is covered by plastic end caps to avoid damage in transit, the marking and specs are put and the goods are ready for dispatch.

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Pipe tee

 Pipe Tee is a type of pipe fitting which is T-shaped having two outlets, at 90° to the connection to the main line. It is a short piece of pipe with a lateral outlet. Pipe Tee is used to connect pipelines with a pipe at a right angle with the line. Pipe Tees are widely used as pipe fittings. They are made of various materials and available in various sizes and finishes. Pipe tees are extensively used in pipeline networks to transport two-phase fluid mixtures.

pipe-tee
Size range: 1/2 to 72 inches
Contents [hide]

1 Size range: 1/2 to 72 inches
2 Pipe tee draws
2.1 MATERIALS FOR PIPE TEES
2.2 INDUSTRIAL PROCESSES
2.3 APPLICATIONS OF PIPE TEES:
3 More informations for Tees and Cross:

tee-design
Pipe tee draws
Types: Straight cross, Reducing cross, Y-type
Pressure: SCH5 to SCH160
Standard: ANSI B16.9/B16.28, MSS SP-43/SP-75

MATERIALS FOR PIPE TEES
Carbon steel: ASTM/ASME A234 WPB-WPC
Alloy steel: ASTM/ASME A234 W

P 1-WP 12-WP 11-WP 22-WP 5-WP 91-WP 911
Stainless steel: ASTM/ASME A403 WP 304-304L-304H-304LN-304N
ASTM/ASME A403 WP 316-316L-316H-316LN-316N-316Ti
ASTM/ASME A403 WP 321-321H ASTM/ASME A403 WP 347-347H
Low temperature steel: ASTM/ASME A402 WPL 3-WPL 6
High performance steel: ASTM/ASME A860 WPHY 42-46-52-60-65-70

INDUSTRIAL PROCESSES
Bending, squeezing, pressing, forging, machining and more

APPLICATIONS OF PIPE TEES:
Pipe Tees are widely used in various commercial and industrial applications. Industrial applications include: Chemical processing, Petroleum, Pulp/paper, Refining, Textile, Waste treatment, Marine, Utilities/power generation, Industrial equipment, Automotive, Gas compression and distribution industries

Pipe Tees are also recommended for industrial plant fluid power systems.

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Straight tee and Reducing tee

 The primary purpose of a Tee is to make a 90° branch from the main run of pipe. Standard there are 2 possibilities, on behalf of the equal tee and reducing tee. The equal tee (or straight tee) is used as the branch has the same diameter as the run-pipe.

Straight-tee-and-Reducing-tee

The reducing tee is used as the branch has a smaller diameter as the run-pipe.

Dimensions and Standards of pipe tees
When we talk about a tee NPS 3, a equal or straight tee is intended. With a tee NPS 3 x 2 a reducing tee is intended. Although, officially a reducing tee will be indicated by 3 diameters, namely 3 x 3 x 2 (A x B x C). The A & B measure stands for the Nominal Pipe Size of Run-Pipe, C measure stands for Nominal Pipe Size of Outlet.
This designation actually is superfluous, but comes from the time that tees were available in 3 different ends of diameters, such as 4 x 3 x 2 (A x B x C). In this implementation of course it is necessary, to specify 3 different sizes.
That kind of tees is probably no longer available. Applying a equal tee with a concentric or eccentric reducer is now the usual practice.
A straight or equal buttwelding Tee is available for all common diameters.
A Reducing Tee not, because many diameters are not produced, or can not be produced.

As an example: a reducing tee NPS 6 x 4 is a standard item for most suppliers, but a reducing tee NPS 16 x 2 is probably not available by any supplier.
It would also not economical to use a NPS 16 tee with a NPS 2 outlet; in such situations a Branch Fitting will be used or a Branch Connection will be made.
In addition to the defined tees, there are straight and reducing crosses.
Straight crosses are generally stock items, reducing crosses are often difficult to obtain.
I have never used that tees and I have they never seen in practice, at least not in petro and chemical industry. They will be used where space is limited, by revision work, in shipping industry et cetera.

Wall thickness Tee
By the shape of a tee, the wall thickness can be a critical item. ASME B16.9 only standardizes the end-to-end dimensions, center-to-end dimensions and some “squareness” dimensional tolerances. The wall thickness at the weld line location even is standardized, but not through the rest of the fitting. The standard states that the minimum tolerance will be within 12.5% of the minimum ordered wall thickness of the pipe. A maximum tolerance is specified only at the ends of the fitting.

tee-design
Pipe tee & crosses size

Many providers of welding tees (and elbows) provide one schedule greater thickness so that sufficient wall thickness, after forming, remains. In Tee’s, the crotch radius (T) varies from one manufacturer to another, but some establish itself as a requirement, 1.3 times the wall thickness to maintain the crotch.

ASME B16.9-2003 SECTION 2.2 DESIGN OF FITTINGS SAYS:
…it is expected that some portion of formed fittings may have to be thicker than the pipe wall with which the fitting is intended to be used
Because there is no maximum tolerance for some parts of the fitting, the customer itself must indicate his requirements. Depending on a customer specification, the manufacturer must certify that the manufactured tee, is made the requested requirements.
He can do that with additional drawings, with additional wall thickness measurements etc. verified by an independent party or a customers inspector.
All these additional tests cost money, so it can happen, that the additional costs, many times higher, as the tee itself.

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Large diameter pipe cap

 The large variations of caps, are the so-called ellipsoidal or dished heads. There are used to close pipes of large diameters, and are similar to those used for constructing vessels.

large-diameter-pipe-cap
Large diameter pipe cap

WELD PREPARATION
Contents [hide]

1 WELD PREPARATION
2 STANDARD:
3 SURFACE TREATMENT:
4 KEYWORD:
5 COMMON SHAPES:
6 SIZE
For wall thickness less than 3 mm, the caps are supplied with plain weld ends. Larger thicknesses are supplied with the weld bevel of 37 ½°±2 ½°.

STANDARD:
ANSI B16.9 / 16.28, ASTM A53/A106, API 5L, ASME B36.10M—1996, DIN2605 / 2615 / 2616, JIS P2311/2312

A234-WPB-Large-Diameter-Pipe-Cap
A234 WPB Large Diameter Pipe Cap

SURFACE TREATMENT:
Transparent oil, rust-proof black oil or hot galvanized.

Special design available All the production process are made according to ISO9001:2000 strictly.

KEYWORD:
cap,Seamless cap,Steel cap,Carbon Steel Seamless cap,pipe cap,cap end

Based on different materials, pipe caps include carbon steel cap, stainless steel cap, and alloy steel cap etc.
Depending on their construction, pipe caps contain threaded cap, tapered cap and anti-roll cap etc.

COMMON SHAPES:
Pipe caps can be in various shapes. Some of the common shapes are hemispherical, oval, square, rectangular, U shape and I shape.

SIZEcaps
Pipe cap: 1/2″-60″, DN15-DN1500

Wall Thickness:
sch10, sch20, sch30, std, sch40, sch60, xs, sch80, sch100, sch120, sch140, sch160, xxs, sch5s, sch20s, sch40s, sch80s
Max. wall thickness: 200mm

Materials
Carbon steel: ASTM/ASME A234 WPB-WPC
Alloy steel: ASTM/ASME A234 WP 1-WP 12-WP 11-WP 22-WP 5-WP 91-WP 911
Stainless steel: ASTM/ASME A403 WP 304-304L-304H-304LN-304N
ASTM/ASME A403 WP 316-316L-316H-316LN-316N-316Ti
ASTM/ASME A403 WP 321-321H ASTM/ASME A403 WP 347-347H
Low temperature steel: ASTM/ASME A402 WPL 3-WPL 6
High performance steel: ASTM/ASME A860 WPHY 42-46-52-60-65-70

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Pipe reducers

 Pipe reducers be applied, to change from pipe diameter in one direction. Standard there are 2 possibilities, the concentric reducer, is usually used in vertical pipe lines, and the eccentric reducer that is used in horizontal pipe lines.

pipe-reducers
Reducer is a kind of fitting that be used for reducing piping size. Concentric reducer is most commonly used and often eccentric reducer used in piping in about pump and pipe rack area.

Length of reducers
The length of a Reducer is very short in relation to the diameter, so in some dimensions the transition from one to another diameter is very abruptly. For example, a reducer 6″ x 2½” has a length of 140 mm. On this short distance a pipeline will be reduced from 168.3 mm O.D. to 73 mm O.D. During the design phase of a new pipe system, a piping designer certainly must think about it.

 

Length of reducers
For wall thickness less than 3 mm, the reducers are supplied with plain weld ends. Larger thicknesses are supplied with the weld bevel of 37 ½°±2 ½°.Weld Preparation

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Stub Ends

 Stub Ends are fittings used in place of welded flanges where rotating back up flanges are desired. They are also called Lap Joints and Vanstone Flared Laps. A rotating back upflange seats itself against the back surface of the Stub End. When bolts are added, the clamping action of the bolts presses the rotating back up flange against the back of the Stub End.stub-ends

When bolts are added, the clamping action of the bolts presses the rotating back up flange against the back of the Stub End. The gasket surface of the Stub End then presses against a gasket and another gasket surface providing joints like standard flange joints. The seal is made by the gasket surface of the stub end alone, the flange only provides the clamping pressure on the joint.

stubend
Dimensional Tolerances of Stub Ends MSS SP-43

Our high quality stub ends (Butt weld fittings ) are tested and verified for durability, accuracy and precision. The stub ends are manufactured in all standard dimensions. The stub ends are provided with a standard weld bevel and can be available in squared, flanged, victaulic and threaded ends. We offer stub ends at highly competitive prices.

Keyword: Stub ends, Lap joint stub end, Lap joints, Vanstone Flared laps

Material: A234-WPB A234-WP12 A234-WP11 A234-WP5 A403-WP304 A403-WP304L A403-WP316. A403-WP316L A420-WPL6,316L, 304L, 321, 321H.
Manufacturing standard: ASME/ANSI B16.9, JIS, DIN, EN, API 5L, etc.
Surface treatment:Shot blasted, rust-proof black oil

Usage:

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Pipe cross, Cross fittings

 A pipe cross is a kind of pipe fitting. It is used in the place where four pipes meet together. The pipe cross may have one inlet and three outlets, or there inlets and one outlet. The diameter of the outlet and inlet can be the same and can also be different. That is to say, straight cross and reducing cross are both availabe.

pipe-cross-cross-fittings
CROSS DRAWSSurface treatment: Transparent oil, rust-proof black oil or hot galvanized.

cross-design
Size range: 1/2 to 60 inches
Pressure: SCH5 to SCH160
Standard: ANSI B16.9/B16.28 and MSS SP-43/SP-75

Materials: Carbon steel , alloy steel, stainless steel

Industrial Processes
Bending, squeezing, pressing, forging, machining and more

Applications of pipe tees:
Pipe Tees are widely used in various commercial and industrial applications. Industrial applications include: Chemical processing, Petroleum, Pulp/paper, Refining, Textile, Waste treatment, Marine, Utilities/power generation, Industrial equipment, Automotive, Gas compression and distribution industries

Pipe Tees are also recommended for industrial plant fluid power systems.

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Coupling Fittings, Pipe couplings

 Coupling fittings are used for fluid conduits in which each end portion of two tubes to be connected is provided with a swaged-on adapter carrying the necessary means to connect or disconnect the tubes without disturbing the swaged-on adapter. Our range of coupling fittings are available in aluminium, steel and bronze.

coupling-fittings
Pipe couplings are highly demanded in the pipe fitting market. Pipe couplings are fittings that help to extend or terminate pipe runs. These fittings are also used to change pipe size. Couplings extend a run by joining two lengths of pipe. They are known as reduced coupling if they are used to connect pipes of different sizes. Couplings are also known as repair couplings. These couplings are without stops or ridges and they can be fixed anywhere along the pipe length for preventing leak of any kind.

Material: ASTM A105, F304, F316, F304L, F316L, A182, F11, F22, and F91
Pressure: 2000LBS, 3000LBS, 6000LBS, 9000LBS
Size: from 1/4 to 4 inches
Standard: ANSI B16.9/B16.28 and MSS SP-43/SP-75
Connection ends: butt welded, threaded
Thread types: NU, EU, STC, LTC and BTC
Surface treatment:Shot blasted, rust-proof black oil
Packing: Plywood Case/ Pallet/ other

Threaded-half-coupling-and-Threaded-full-coupling
Threaded half-coupling and Threaded full-coupling

Dimensions threaded Full / Half couplings – NPS 1/2 to 4 – 3000 LBS – ASMEB16.11
Contents [hide]

1 Dimensions threaded Full / Half couplings – NPS 1/2 to 4 – 3000 LBS – ASMEB16.11
2 Dimensions threaded Full
3 / Half couplings – NPS 1/2 to 4 – 6000 LBS –
3.1 GENERAL NOTES:
NPS End to End Outside Diameter Minimum Length of Thread
A D B J
1/2 48 28 10.9 13.6
3/4 51 35 12.7 13.9
1 60 44 14.7 17.3
1¼ 67 57 17 18
1½ 79 64 17.8 18.4
2 86 76 19 19.2
2½ 92 92 23.6 28.9
3 108 108 25.9 30.5
4 121 140 27.7 33
Dimensions threaded Full
/ Half couplings – NPS 1/2 to 4 – 6000 LBS –
NPS End to End Outside Diameter Minimum Length of Thread
A D B J
1/2 48 38 10.9 13.6
3/4 51 44 12.7 13.9
1 60 57 14.7 17.3
1¼ 67 64 17 18
1½ 79 76 17.8 18.4
2 86 92 19 19.2
2½ 92 108 23.6 28.9
3 108 127 25.9 30.5
4 121 159 27.7 33
GENERAL NOTES:
Dimensions are in millimeters unless otherwise indicated.
Dimension B is minimum length of perfect thread.
The length of useful thread (B plus threads with fully formed roots and flat crests) shall not be less than J.

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Pipe fittings Buttwelding Ends

 We aware the beveling is very important processes in the whole production procession of butt-welding pipe fittings, we always make beveling according to the standard strictly. In the behavior, we make beveling after shot blasting, bevel ends are fully machined by advanced equipment Double Beveling Machine ensure the height, length, thickness, O.D. and I.D. are all qualified.pipe-fittings-weld-end

Welding Bevel acc.to
Contents [hide]

1 Welding Bevel acc.to
2 Weld End Preparations
2.0.0.1 Joining Welding Neck Flanges To Pipe Of Equal Or Lesser Wall Thickness
2.0.0.2 WELDBEND NOTES:
ASME / ANSI B16.9
ASME / ANSI B16.28
ASME / ANSI B16.25
MSS SP-97
Our in-hourse R&D team developed bevel ends equipment are good using in thickness 2mm to 20mm pipe fittings, guarantee high efficiency and high quality.

Send us your technical drawings: Yaang Steel will supply you with whatever flanges you are looking for.

pipe-fittings-welded-end

Nominal wall Thickness : t End Preparation
t<5mm (for austenitic alloy steel
t<4mm) Cut square or slightly chamfer
at manufacturer ‘ s option
5<t<22mm
(4<t<22mm) Plain Bevel as in sketch ( a ) above
t>22mm Compound Bevel as in sketch ( b ) above
Weld End Preparations
Joining Welding Neck Flanges To Pipe Of Equal Or Lesser Wall Thickness
weldend-1
*For thicker flanges, see ASME B16.9

WELDBEND NOTES:
Weld neck Flanges can be joined to pipe of lesser wall with proper end preparation and joint design.
The recommendations that follow apply to weld neck flanges with standard plain end bevels (as shown above) and with a hub thickness at the bevel no greater than 1 1/2 times the mating pipe thickness.

The thickness of the flange hub at the weld bevel and the pipe shall be in accordance with the design requirements of the applicable section of ASME B31 Code for Pressure Piping.

When the internal offset due to unequal thickness does not exceed 1/2 times the pipe wall thickness, then the rules and figures given on page 75 are recommended as well for joining weld neck flanges to pipe of lesser wall and/or higher strength.

When the additional thickness of the hub at the bevel results in an offset at the outside diameters of the ends to be joined, reference should be made to ASME B31 and ASME B16.5

Bevel Wall Thickness (t) 0.19 In. To 0.88 In. Inclusive

A = Outside Diameter of flange and mating pipe (inches)
B = Inside Diameter of flange (inches)
t = Wall thickness of flange hub at bevel (inches)

Note:
For bevel wall thickness over .88″ refer to ASME B16.5
for alternative detail.

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ASTM A420 Standard Specification

 ASTM A420/A420M-07 Standard Specification for Piping Fittings of Wrought Carbon Steel and Alloy Steel for Low-Temperature Service. ASTM A420 WPL6 Grade is associated with ASTM A420 for pipe fittings manufactured of Wrought Carbon Steel. WPL6 is a normalized grade of carbon steel that has been Charpy Impact tested at -50 degree F for use in low temperature service. See Also ASTM A333 Grades 1 and 6 (for pipe) and A350 LF2 for flanges.

 

astm-a420-standard-specification
ASTM A420 WPL6 Elbow after complete quality and performance measure inspection. These are widely appreciated for excellent quality, corrosion abrasion and high tensile strength with long life service.

Materials shall consist of forgings, bars, plates, seamless or fusion welded tubular products with filler metal added, and shall be produced by open-hearth, basic-oxygen, or electric-furnace process. Forging or forming operations shall be performed by one or a combination of two or more of the following procedures: hammering, pressing, piercing, extruding, upsetting, working, bending, fusion-welding, or machining. All welding shall be completed prior to the austenitizing heat treatment, which shall be executed in the normalized, normalized and tempered, annealed, or quenched and tempered conditions. Steel specimens shall conform to required values of chemical composition, tensile strength, yield strength, elongation, wall thickness, and Charpy V-notch impact value. All fusion-welded butt joints shall undergo radiographic examination, while hydrostatic testing of fittings is not required in this specification. Repair welding shall be permissible for parts made to dimensional standards.

This abstract is a brief summary of the referenced standard. It is informational only and not an official part of the standard; the full text of the standard itself must be referred to for its use and application. ASTM does not give any warranty express or implied or make any representation that the contents of this abstract are accurate, complete or up to date.

Scope of ASTM A420
1.1 This specification covers wrought carbon steel and alloy steel fittings of seamless and welded construction, covered by the latest revision of ASME B16.9, ASME B16.11, MSS SP-79, MSS SP-83, MSS SP-95, and MSS SP-97. Fittings differing from these ASME and MSS standards shall be furnished in accordance with Supplementary Requirement S58 of Specification A960/A960M. These fittings are for use in pressure piping and pressure vessel service at low temperatures.

1.2 Optional supplementary requirements are provided for fittings where a greater degree of examination is desired. When desired, one or more of these supplementary requirements shall be specified in the order.

1.3 This specification is expressed in both inch-pound units and in SI units. However, unless the order specifies the applicable “M” specification designation (SI units), the material shall be furnished to inch-pound units.

1.4 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard.

Chemical Composition (%) of ASTM A420
Grade C Mn P S Si
WPL6(1)(2) 0.3 0.60-1.35 0.035 0.04 0.15-0.30
WPL9 0.2 0.40-1.06 0.03 0.03 –
Grade Ni Cu Cr Mo V Nb
WPL6(1)(2) 0.4 0.4 0.3 0.12 0.08 0.02
WPL9 1.60-2.24 0.75-1.25 – – – –
GENERAL NOTE:
All values are maximum unless otherwise indicated.

NOTES:
(1) For each reduction of 0.01% C below 0.30%, an increase of 0.05% Mn above 1.06% will be permitted, up to a maximum of 1.35%.
(2) Fittings made from forgings may have 1.35% max Mn.

Mechanical properties of ASTM A420
Tensile Requirements WPL6 WPL9
Tensile Strength
min, ksi [MPa] 60-85[415-585] 63-88[435-610]
Yield Strength
min, ksi [MPa] 35[240] 46[315]
Where the wall thickness lies between two values above, the min elongation value is determined by the following equations:

WPL6,WPL9
Longitudinal E=48t+15.00,E=48t+13.00
Transverse E=32t+6.50,E=32t+8.00
E = elongation in 2in [50mm], %
t = actual thickness of specimen, in [mm]

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ASTM A350 LF2 Carbon Steel

 ASTM A350-LF2 Temperature range (-50 to 800 deg. F) Where corrosion resistance is not important. This material is heat treated “Forgings of [LF2] shall be furnished in the normalized, or in the normalized and tempered, or in the quenched and tempered condition…”

astm-a350-lf2-carbon-steel
ASTM A350 LF2 flange

TYPE:
Contents [hide]

0.1 TYPE:
1 Nominal Composition of ASTM A350 LF2
2 Mechanical Properties of ASTM A350 LF2
3 General Scope
Carbon steel applied in cold temperature service usually used in the normalised condition.

Nominal Composition of ASTM A350 LF2
Element Weight %
Carbon 0.30 max
Silicon 0.15 – 0.30
Manganese 0.6 – 1.35
Phosphorus 0.35 max
Sulphur 0.040 max
Molybdenum 0.12 max
Copper 0.40 max
Chromium 0.30 max
Nickel 0.40 max
Vanadium 0.08 max
Niobium 0.02 max
Mechanical Properties of ASTM A350 LF2
Condition: Forgings of LF2 shall be furnished in the normalized, or in the normalized and tempered, or in the quenched and tempered condition.

Property Values
Ultimate Tensile Strength 485 – 655 N/mm2
0.2% Yield Strength 250 N/mm2 min
Elongation 22% min
Reduction of Area 30% min
Charpy Impact Toughness 20 average / 16 min J at -46o C
Hardness 197 HB
General Scope
A general carbon steel used in the manufacture of flanges and fittings.

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ASME B16.11, Forged Fittings, Socket-Welding and Threaded

 ASME B16.11 Standard covers ratings, dimensions, tolerances, marking and material requirements for socket-welding and threaded forged fittings. These fittings are designated as Class 2000, 3000, and 6000 for threaded end fittings and Class 3000, 6000, and 9000 for socket-weld end fittings.

Upon request from industry and government, ASME has been defining piping safety since 1922.

Forged-Steel-High-Pressure-Fittings
Forged Steel High-Pressure Fittings

B16.11 is to be used in conjunction with equipment described in other volumes of the ASME B16 series of standards as well as with other ASME standards, such as the Boiler and Pressure Vessel Code and the B31 Piping Codes.
Careful application of these B16 standards will help users to comply with applicable regulations within their jurisdictions, while achieving the operational, cost and safety benefits to be gained from the many industry best-practices detailed within these volumes.
Intended for manufacturers, owners, employers, users and others concerned with the specification, buying, maintenance, training and safe use of wrought and forged fittings with pressure equipment, plus all potential governing entities.
This Standard covers ratings, dimensions, tolerances, marking, and material requirements for forged fittings, both socket-welding and threaded, as illustrated in Tables 1 through 5 and Tables I-1 through I-5, inclusive.

General scope
1.1.1 Fitting Types/Configuration. Types of fittings covered by this Standard are shown in Table 6, by class and size range. Fittings shown in Tables 1 through 5 and Tables I-1 through I-5 may also be made with combinations of socket-welding and threaded ends.
1.1.2 Special Fittings. Fittings with special dimensions, threads, or counterbores may be made by agreement between the manufacturer and purchaser. When such fittings meet all other stipulations of this Standard, they shall be considered in compliance therewith, provided they are appropriately marked (see section 4).
1.1.3 Welding. Installation welding requirements are not within the scope of this Standard. Installation welding shall be in accordance with the applicable piping Code or regulation covering the piping system into which the fittings are installed.

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MSS SP-97, Socket Welding, Threaded, and Buttwelding Ends

 MSS SP-97 Standard Practice covers essential dimensions, finish, tolerances, testing, marking, material, and minimum strength requirements for 90 degree integrally reinforced forged branch outlet fittings of buttwelding, socket welding, and threaded types. Integrally Reinforced Forged Branch Outlet Fittings – Socket Welding, Threaded, and Buttwelding Ends.

pipe-fittings-weld-end
Pipe fittings Buttwelding Ends

Fittings manufactured to this Standard Practice are designed to make a fully reinforced branch connection in accordance with applicable piping code requirements, when attached, at an opening in a run pipe by means of a full penetration weld.

Fittings may be made to special dimensions, size, shape, tolerances, or of other wrought material by agreement between the manufacturer and the purchaser.

MSS
MSS(Manufacturers Standardization Society) is the only organization in the world dedicated exclusively to the technical needs of the valve and fittings industry. Standards and codes are written and revised by 25 technical committees and address topics such as valves, valve actuators, pipe fittings, flanges, and pipe hangers.

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NORSOK standards

 The NORSOK standards are developed by the Norwegian petroleum industry to ensure adequate safety, value adding and cost effectiveness for petroleum industry developments and operations. Furthermore, NORSOK standards are as far as possible intended to replace oil company specifications and serve as references in the authorities regulations.

The standard dictates specific parameters for certifying the necessary facilities and equipment, confirming it functions according to the requirements to manufacture the specified grades. The manufacturer must also have significant experience in producing the qualifying material.  Testing in accordance to requirements set forth in the standard must be made available for review along with the established Manufacturing Summary which details each step of the manufacturing process from begin to end. Qualifications must be certified through a 3rd party witness (EN10204:3.2).

They reference internationally recognized standards while adding requirements found to be effective in battling the stringent environment and stress of the North Sea. .

NORSOK M-630	NORSOK M-630 is an assembly of Material Data Sheets for use in piping systems and includes the material requirements by material grade and form.
NORSOK M-650	NORSOK M-650 was established to ensure manufacturers are knowledgeable and competent to produce specialty alloys such as Duplex, Super Duplex, Nickel Alloys and Titanium.

NORSOK M-630 Material Date Sheets

MDS	Rev	Standard	Material Grade	Product Form
C01	3	A106	Grade B	Seamless Pipe
		API 5L	Grade B	Welded Pipe
		A672	Grade CC60, CC70	Welded Pipe
		A234	Grade WPB	Wrought Fittings
		A105		Forgings
		A516	Grade 60, 70	Plate
C02	3	A216	Grade WCB	Castings
C11	3	A333	Grade 6	Seamless Pipe
		A671	Grade CC60, CC70	Welded Pipe
		A420	Grade WPL 6	Wrought Fittings
		A350	Grade LF2	Forgings
		A516	Grade 60, 70	Plate
C12	3	A352	Grade LCC	Castings
C21	3	A694	Grade F52	Forgings
		A860	WPHY52	Wrought Fittings
C22	3	API 5L	Grade 52	Seamless Pipe
D41	3	A790	UNS S31803/UNS S32205	Seamless Pipe
D42	3	A928	UNS S31803/UNS S32205	Welded Pipe
D43	3	A815	UNS S31803/UNS S32205	Wrought Fittings
D44	3	A182	Grade F51, F60	Forgings
D45	3	A240	UNS S31803/UNS S32205	Plate
D46	3	A995	Grade 4A (J92205)	Castings
D47	3	A276	UNS S31803/UNS S32205	Bar
D48	3	A789	UNS S31803/UNS S32205	Tube
D51	3	A790	UNS S32550/UNS S32750/ UNS S32760	Seamless Pipe
D52	3	A928	UNS S32550/UNS S32750/ UNS S32760	Welded Pipe
D53	3	A815	UNS S32550/UNS S32750/ UNS S32760	Wrought Fittings
D54	3	A182	Grade F61, F53, F55	Forgings
D55	3	A240	UNS S32550/UNS S32750/ UNS S32760	Plate
D56	3	A995	Grade 6A (J93380), 5A (J93404)	Castings
D57	3	A276	UNS S32550/UNS S32750/ UNS S32760	Bar
D58	2	A789	UNS S32550/UNS S32750/ UNS S32760	Tube
K01	1	B466	UNS C70600	Seamless Pipe and Tube
		B467	UNS C70600	Welded Pipe
		B151	UNS C70600	Rod and Bar
		B171	UNS C70600	Sheet and Plate
			UNS C70600	Fittings
			UNS C70600	Flanges
K02	1	B148	UNS C 9580	Castings
N01	3	B366	UNS N06625	Wrought Fittings
		B705	UNS N06625	Pipe
		B564	UNS N06625	Forgings
		B443	UNS N06625	Plate
		B446	UNS N06625	Bar
		B444	UNS N06625	Pipe & Tube
N02	3	A494	Grade CW-6MS, CX 2MW	Castings
R11	3	A312	UNS S31254, UNS N08367, UNS N08926	Seamless Pipe
R12	3	A358	UNS S31254, UNS N08367, UNS N08926	Welded Pipe
R13	3	A403	UNS S31254, UNS N08367, UNS N08926	Wrought Fittings
R14	3	A182	Grade F44, UNS N08367, UNS N08926	Forgings
R15	3	A240	UNS S31254, UNS N08367, UNS N08926	Plate
R16	3	A351	Grade CK-3MCuN, CN-3MN	Castings
R17	3	A276	UNS S31254, UNS N08367, UNS N08926	Bar
R18	3	A269	UNS S31254, UNS N08367, UNS N08926	Tube
S01	3	A312	Grade TP316	Seamless and Welded Pipe
		A358	Grade 316	Welded Pipe
		A403	Grade WP316	Wrought Fittings
		A182	Grade F316	Forgings
		A240	Grade 316	Plate
		A276	Grade 316	Bar
		A269	Grade 316	Tube
S02	3	A351	Grade CF3M, CF8M	Castings
T01	3	B861	Titainum Grade 2	Seamless Pipe
		B862	Titainum Grade 2	Welded Pipe
		B363	Titainum Grade WPT2/WPT2W	Wrought Fittings
		B381	Grade F2	Forgings
		B265	Titainum Grade 2	Plate
		B348	Titainum Grade 2	Bar
		B338	Titainum Grade 2	Tube
T02	3	B367	Titainum Grade C2	Castings

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HFW pipes, HFW steel pipes

 In High Frequency Welded (HFW) pipe production process, hot rolled steel coils are fed with a high capacity accumulator in order to achieve continuous welding.

HFW-pipes
Coil edges are milled using carbide cutters in order to assure a high quality weld. Coils are then formed by cold forming method using a set of cage rolls and fin passes, and then joined using high frequency currents using induction or alternatively conduction methods.

Size available
Contents [hide]

1 Size available
2 Application Areas
3 Pipe Length
4 Pipe Coating
5 Resource:
6 Salient Features
up to 26in. OD, with wall thickness up to 1in. (world’s largest)

Application Areas
HFW welded steel pipes are widely preferred in Oil, Natural Gas, Water and other liquids transportation and distribution lines, heating, cooling, ventilation piping and steel structures for construction and other general purposes by means of precise production tolerances and high capacity manufacturing method.

Pipe Length
YaangSteel is able to manufacture and supply high frequency welded pipes up to 16 m. in unit length.

Pipe Coating
Coating mills apply pipe coatings to protect the line pipe from corrosion. Often, the coating mill is located adjacent to the pipe mill, so line pipe moves directly from the pipe manufacturer to the coating facility.

Resource:
testing facilities for fracture mechanics studies
corrosion & metallurgical test equipment
non-destructive testing
process advice & troubleshooting
tailored training courses
Salient Features
Capability to manufacture pipes as per API 5L Grade API X-80 or equivalent
All testing facilities in-house to meet International Standards

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UOE pipes

 UOE mill adopts Uing and Oing forming, the formed pipes are welded inside by five internal welding stations with three wires for each weld,and welded outside by four external welding stations with three wires for each weld.

 

UOE pipes manufacturing process

 

According to different customers’ requirements, the welded pipe can be expanded by mechanical or hydrostatic expander to enhance the dimension accuracy, and eliminate the residual stress.

The UOE mill is the best suitable process to meet customers’ requirements by virture of the characteristic of high production efficiency, stable product quality and various accessories for manufacturing and inspection.

Specifications

Throughput: 400,000 MT
Outside Diameter : Φ508-Φ1118mm (20″-44″)
Wall Thickness : 6.4-25.4mm (1/4″-1″)
Ouality Standards : API, BS, ASTM, JIS, DIN, GB , ISO, DNV
Length : 9-12.2m (30′-40′)
Grades : GB/T9711 L190-L555 (API 5L A-X80)

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SAW pipes, Saw Pipe Manufacturers, Saw Pipe Suppliers

 SSAW pipe is made of hot rolled coiled steel by automatic submerged arc weld under normal atmospheric temperature.

saw-steel-pipes
Spiral submerged arc (SSAW) is its forward direction and forming tube centerline hose reel molding angle (adjustable), side molding edge welding and weld them into a spiral, the advantage of the same specification to produce a variety of diameter sizes steel pipe, raw materials to adapt to a wider range, the weld can avoid the main stress force better, the disadvantage is the poor geometry of the weld length compared to the long straight seam pipe, prone to cracking, porosity, slag, welding partial welding defects such as welding stress was tensile stress state.

Usage:
Contents [hide]

1 Usage:
2 Standard:
3 Steel grade
4 Certificates
5 Size range:
6 Pipe Coating:
Gas lines, Oil lines
Hot water lines, Sewage lines
Civil engineering and structural purposes.
Standard:
API Spec 5L
ASTM A252-89, ASTM 53
EN10217, EN10219
GB/T9711.1,GB/T9711.2 or BS, JIS, IS
Steel grade
API 5L: GR A, GR B, X42, X46, X56, X60, X65, X70
ASTM A252 GR 1, GR 2, GR 3
ASTM A53: GR A, GR B, GR C, GR D
BS 4360: Grade 43, Grade 50
EN: S275, S275JR, S355JRH, S355J2H
Certificates
API 5L PSL1,PSL2 , API 5CT, ISO ,CE,EN 10204/3.1B
ISO9001:2008, ISO14000:2004

Size range:
Out Diameter: 219-3200 mm
Wall Thickness: 5-30mm
Length:12000mm+500mm
In addition to above specification, the pipes can be produced according to customer’s requirements.

Pipe Coating:
Coating mills apply pipe coatings to protect the line pipe from corrosion.

HDPE: High-density polyethylene jacket pipe
3PE/2PE: PE anti-corrosion pipe three-tier structure
3PP/2PP: PP three-tier structure of anti-corrosion pipeline
Pipe cement mortar lining

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LSAW pipes, Longitudinally Submerged Arc Welded Steel pipes

 LSAW (Longitudinally Submerged Arc Welded Steel pipes) in leaflets plate as raw material, the steel plate in the mold or molding machine pressure (volume) into using double-sided submerged arc welding and flaring from production.The coherence of cutter head and plate clamping system guarantees the invariable parameters during the entire milling process; accordingly it ensures the milling quality and lays a good foundation for the success of subsequent welding.

Usage of LSAW steel pipes:
Contents [hide]

1 Usage of LSAW steel pipes:
2 Standard:
3 Steel grade
4 Certificates
5 Size range by usage:
6 Pipe Coating:
LSAW Steel Pipe For Oil & Gas pipeline
LSAW Steel Pipe For Construction
Roller Pipe
Standard:
API Spec 5L
ASTM A252-89, ASTM 53
EN10217, EN10219
GB/T9711.1,GB/T9711.2 or BS, JIS, IS
Steel grade
API 5L: GR A, GR B, X42, X46, X56, X60, X65, X70
ASTM A252 GR 1, GR 2, GR 3
ASTM A53: GR A, GR B, GR C, GR D
BS 4360: Grade 43, Grade 50
EN: S275, S275JR, S355JRH, S355J2H
Certificates
API 5L PSL1,PSL2 , API 5CT, ISO ,CE,EN 10204/3.1B
ISO9001:2008, ISO14000:2004
Size range by usage:
Usage O.D.(mm) W.T.(mm) Length(m)
Oil &gas pipeline 406-1524 6-40 8-12.1
for Construction 350-1600 6-60 6-12
Roller pipe 1200-3800 12-120 <=3.2
In addition to above specification, the pipes can be produced according to customer’s requirements.

Pipe Coating:
Coating mills apply pipe coatings to protect the line pipe from corrosion.

HDPE: High-density polyethylene jacket pipe
3PE/2PE: PE anti-corrosion pipe three-tier structure
3PP/2PP: PP three-tier structure of anti-corrosion pipeline
Pipe cement mortar lining

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MSS SP75 WPHY 46 Pipe Fitting

   Our company wilson pipeline is listed at the apex in the list of one of the most prominent MSS SP75 WPHY 70 Pipe Fitting manufacturers and suppliers in India. MSS SP75 WPHY 70 Pipe Fitting is widely demanded as these are ideal to be used in various construction purposes.

mss-sp75-wphy-70-pipe-fitting
MSS SP75 WPHY 70 Pipe Fitting

A wide assortment is available. Ultimate in function and quality, our MSS SP75 WPHY 70 Pipe Fitting can be easily installed. Made of high quality metals, they are corrosion proof which make them last for long time.

We Supplier this MSS SP75 WPHY 70 Pipe Fittings in the following form.

MSS SP75 WPHY 70 Elbow
MSS SP75 WPHY 70 Tee
MSS SP75 WPHY 70 Cap
MSS SP75 WPHY 70 Reducer

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MSS SP75 WPHY 56 Pipe Fitting

  Our company wilson pipeline is listed at the apex in the list of one of the most prominent MSS SP75 WPHY 70 Pipe Fitting manufacturers and suppliers in India. MSS SP75 WPHY 70 Pipe Fitting is widely demanded as these are ideal to be used in various construction purposes.

mss-sp75-wphy-70-pipe-fitting
MSS SP75 WPHY 70 Pipe Fitting

A wide assortment is available. Ultimate in function and quality, our MSS SP75 WPHY 70 Pipe Fitting can be easily installed. Made of high quality metals, they are corrosion proof which make them last for long time.

We Supplier this MSS SP75 WPHY 70 Pipe Fittings in the following form.

MSS SP75 WPHY 70 Elbow
MSS SP75 WPHY 70 Tee
MSS SP75 WPHY 70 Cap
MSS SP75 WPHY 70 Reducer

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MSS SP75 WPHY 65 Pipe Fitting

  Our company wilson pipeline is listed at the apex in the list of one of the most prominent MSS SP75 WPHY 70 Pipe Fitting manufacturers and suppliers in India. MSS SP75 WPHY 70 Pipe Fitting is widely demanded as these are ideal to be used in various construction purposes.

mss-sp75-wphy-70-pipe-fitting
MSS SP75 WPHY 70 Pipe Fitting

A wide assortment is available. Ultimate in function and quality, our MSS SP75 WPHY 70 Pipe Fitting can be easily installed. Made of high quality metals, they are corrosion proof which make them last for long time.

We Supplier this MSS SP75 WPHY 70 Pipe Fittings in the following form.

MSS SP75 WPHY 70 Elbow
MSS SP75 WPHY 70 Tee
MSS SP75 WPHY 70 Cap
MSS SP75 WPHY 70 Reducer

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MSS SP75 WPHY 70 Pipe Fitting

 Our company wilson pipeline is listed at the apex in the list of one of the most prominent MSS SP75 WPHY 70 Pipe Fitting manufacturers and suppliers in India. MSS SP75 WPHY 70 Pipe Fitting is widely demanded as these are ideal to be used in various construction purposes.

mss-sp75-wphy-70-pipe-fitting
MSS SP75 WPHY 70 Pipe Fitting

A wide assortment is available. Ultimate in function and quality, our MSS SP75 WPHY 70 Pipe Fitting can be easily installed. Made of high quality metals, they are corrosion proof which make them last for long time.

We Supplier this MSS SP75 WPHY 70 Pipe Fittings in the following form.

MSS SP75 WPHY 70 Elbow
MSS SP75 WPHY 70 Tee
MSS SP75 WPHY 70 Cap
MSS SP75 WPHY 70 Reducer

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Tubing and Casing

 Tubing and Casing are usaged for Conveying gas and oil in both the oil and natural industries according API SPEC 5CT and ISO11960. With the normal steel grade API 5CT H40, API 5CT J55, API 5CT K55, API 5CT N80, API 5CT N80, API 5CT M65, API 5CT L80,API 5CT L80, API 5CT L80, API 5CT C90, API 5CT C90, API 5CT C90, API 5CT C90, API 5CT C95, API 5CT T95, API 5CT T95, API 5CT T95, API 5CT T95, API 5CT P110, API 5CT Q125, API 5CT Q125, API 5CT Q125.

tubing-and-casing-line-pipes

The pipes are usaged for Conveying gas,water,and oil in both the oil and natural industries

ISO 11960 was prepared by Technical Committee ISO/TC 67, Materials, equipment and offshore structures for petroleum, petrochemical and natural gas industries, Subcommittee SC 5, Casing, tubing and drill pipe.

Petroleum and natural gas industries —Steel pipes for use as casing and tubing for wells.

This standard specifies the technical delivery conditions for steel pipes (casing, tubing, plain-end casing liners and pup joints), coupling stock and accessories and establishes requirements for three Product Specification Levels (PSL-1, PSL-2, PSL-3). The requirements for PSL-1 are the basis of this standard. The requirements that define different levels of standard technical requirements for PSL-2 and PSL-3, for all Grades except H-40 and L-80 9Cr, are contained in Annex H.

For pipes covered by this standard, the sizes, masses and wall thicknesses as well as grades and applicable end-finishes are listed in Tables C.1 to C.3 and Tables E.1 to E.3. By agreement between the purchaser and manufacturer, this standard can also be applied to other plain-end pipe sizes and wall thicknesses.

The main chemical compositions(%) of Tubing and Casing:
Contents [hide]

1 The main chemical compositions(%) of Tubing and Casing:
2 Note:
3 Mechanical Properties of Tubing and Casing：
4 Note:
Grade Type C Mn Mo Cr Ni Co P S Si
Min Max Min Max Min Max Min Max Max Max Max Max Max
H40 – – – – – – – – – – – 0.03 0.03 –
J55 – – – – – – – – – – – 0.03 0.03 –
K55 – – – – – – – – – – – 0.03 0.03 –
N80 1.00 – – – – – – – – – – 0.03 0.03 –
N80 Q – – – – – – – – – – 0.03 0.03 –
M65 – – – – – – – – – – – 0.03 0.03 –
L80 1.00 – 0.43a – 1.90 – – – – 0.25 0.35 0.03 0.03 0.45
L80 9Cr – 0.15 0.30 0.60 0.90 1.10 8.00 10.00 0.50 0.25 0.02 0.01 1.00
L80 13Cr – 0.22 0.25 1.00 – 12.00 14.00 0.50 0.25 0.02 0.01 1.00
C90 1.00 – 0.35 – 1.20 0.25b 0.85 – 1.50 0.99 – 0.02 0.01 –
C90 2.00 – 0.50 – 1.90 – Nl – NL 0.99 – 0.03 0.01 –
C95 – 0.45c – 1.90 – – – – – – 0.03 0.03 0.45
T95 1.00 – 0.35 – 1.20 0.25d 0.85 0.40 1.50 0.99 – 0.02 0.01 –
T95 2.00 – 0.50 – 1.90 – – – – 0.99 – 0.03 0.01 –
P110 – – – – – – – – – 0.03 0.03 –
Q125 1.00 – 0.35 – 1.00 0.75 – 1.20 – 0.99 – 0.02 0.01 –
Q125 2.00 – 0.35 – 1.00 NL – NL – 0.99 – 0.02 0.02 –
Q125 3.00 – 0.50 – 1.90 NL – NL – 0.99 – 0.03 0.01 –
Q125 4.00 – 0.50 – 1.90 NL – NL – 0.99 – 0.03 0.02 –
Note:
a product uses oil quenching, L80 grade carbon content of the upper limit may be increased to 0.50%.
b If the wall thickness
c If the product oil quenching, the C95 grade carbon content limit may be increased to 0.55%.
d If the wall thickness
NL-Not limit, but must show the element content in the product by reported.

Mechanical Properties of Tubing and Casing：
Grade Type TEUL(%) Yield strength
（MPa） Tensile
(MPa) Hardnessa S.W.T.
（mm） HRCb
Min Max Min Min Max
H40 – 0.5 276 552 414 – – – –
J55 – 0.5 379 552 517 – – – –
K55 – 0.5 379 552 655 – – – –
N80 1 0.5 552 758 689 – – – –
N80 Q 0.5 552 758 689 – – – –
M65 – 0.5 448 586 586 22 235 – –
L80 1 0.5 552 655 655 23 241 – –
L80 9Cr 0.5 552 655 655 23 241 – –
L80 13Cr 0.5 552 655 655 23 241 – –
C90 1、2 0.5 621 724 689 25.4 255 ≤12.70 3
C90 1、2 0.5 621 724 689 25.4 255 12.71~19.04 4
C90 1、2 0.5 621 724 689 25.4 255 19.05~25.39 5
C90 1、2 0.5 621 724 689 25.4 255 25.4 6
C95 – 0.5 655 758 724 – – –
T95 1、2 0.5 655 758 724 25.4 255 ≤12.70 3
T95 1、2 0.5 655 758 724 25.4 255 12.71~19.04 4
T95 1、2 0.5 655 758 724 25.4 255 19.05~25.39 5
T95 1、2 0.5 655 758 724 25.4 255 25.4 6
P110 – 0.6 758 965 862 – – – –
Q125 1~4 0.65 862 1034 931 b – ≤12.70 3
Q125 1~4 0.65 862 1034 931 b – 12.71~19.04 4
Q125 1~4 0.65 862 1034 931 b – >=19.05 5
Note:
a Dispute, the Rockwell hardness of the laboratory should be used as the arbitration.
b Hardness limit is not specified, but according to the provisions of 7.8 and 7.9 in the most amount of change as production control.
TEUL: Total elongation under load
SWT: Specified wall thickness
HRC Allowable hardness change

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Line pipe

 Line pipes are used to transport oil and gas, water, mineral slurry and other fluids. Our line pipes are manufactured in accordance with API Spec 5L. Tubing and Casing, Line Pipes API SPEC 5L is a international standard specifies requirements for the manufacture of two product specification levels (PSL 1 and PSL 2) of welded steel pipes for use in pipeline transportation systems in the petroleum and natural gas industries.

Related Products :
Threaded Casing with Short/Long Round Thread or Buttress
Drill Pipes with Welded-on Tool-Joints/Threaded End
Line Pipe with Plain End and Beveled
Boiler Tubes /Heat Exchanger Tubes
Carbon Steel Tubes for General Structural Purposes
Precision Carbon Steel Tubes
Seamless Tubing and Couplings Hydrosulfide-Carbon Dioxide- and Cold-Resistant
High Longevity Oil-Well Tubing and Interlocks of Production Strings for Corrosive Media
Wear-Resistant Tool Joints for Tubing
Seampless Tubing with Externally Upset Ends and Couplings Hydrosulfid- and Cold-Resistant
Drill Pipes with Welded Tool Joints
API Spec 5CT Casing pipe
Application:
Conveying gas,water,and oil in both the oil and natural industries, Tubular goods for petroleum and natural gas industries
Production Standard, Grade, Steel No:
API 5L PSL1 L175/A25, L210/A, L245/B, L290/X42, L320/X46, L360/X52, L485/X70, PSL2 L245R/BR, L290N/X42N, L320N/X46N, L360N/X52N, L415/X60N
API 5CT PSL1, PSL2, PSL3, H40, J55, K55, N80
GB/T 9711.1 L175, L210, L245, L290, L320, L360
GB/T 9711.2 L245NB, L290NB, L360NB
GB/T 9711.3 L245NC, L290NC, L360NC
Delivery Condition:
Annealed, Normalized, Normalized and Tempered
Inspection and Test:
Chemical Composition Inspection, Mechanical Properties Test(Tensile Strength,Yield Strength, Elongation, Flaring, Flattening, Bending, Hardness), Drift Test, Surface and Dimension Test,NDE, Hydrostatic Test, MT
Inspection and Tests Performed: View more…
5L – Chemical composition, Mechanical properties, Hydrostatic test, Dimensional testing, Visual inspection, Nondestructive inspection
5CT – Chemical composition, Tensile test, Flattening test, Hardness test, Impact test, Grain size determination, Harden ability, Sulfide stress-cracking test, Hydrostatic test, Dimensional testing, Visual inspection, Non-destructive examination(NDE)
Surface Treatment:
5L – Uncoated(bare), Temporary coating, Special coating, Oil-dip, Shot Blasting, Varnish
Size: We supply various line pipes including seamless line pipes
(OD from 2-3/8″ to 24″, steel grade A, B, X42 – X80)

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API oil pipes

 The American Petroleum Institute, commonly referred to as API, is the largest U.S trade association for the oil and natural gas industry. It claims to represent about 400 corporations involved in production, refinement, distribution, and many other aspects of the petroleum industry.

Standard API Spec 5L, B, X42, X52, X60, X65, X70, API Spec 5CT (Oil Pipes), API 5D
Drill pipes Grade: E75, X95, G105, S135
Connection:NC26, NC31, NC38, NC40, NC46, NC50, 51/2FH, 6 5/8FH
Heavy Weight Drill pipes Size: 3 1/2″, 4 1/2″, 5″, 5 1/2″
Drill Collar Size: 4 3/4″, 6 1/4″, 6 1/2″, 7″, 8″, 9″, 9 1/2″

Slotted liner and composite screen liner
Grades: pipes is manufactured under PSL 1 and PSL2 requirements.
pipes end: Plain,Threaded, Bevelled

Standard OD tolerance WT tolerance
API Spec 5L OD＜60.3mm +0.41mm,-0.8mm +15%, -12.5%
OD≥60.3mm ±0.75%
Special couplings as specified on purchase order.
API 5L tubes (pipes) coatings: sepcificatioin GB and DIN standard

J55, K55,N80, L80 and P110, PSL 1, PSL 2, API 5L, Grade B, API 5L X42, API 5L X46, API 5L X52, API 5L X56, API 5L X60, API 5L X65, API 5L X70, API 5L X80

API 5CT:
There are four steel grades (J55, K55,N80, L80 and P110), two categories (nonupset and external upset) and six sizes (1.9″, 2-3/8″, 2-7/8 “, 3-1/2″, 4″, and 4-1/2″) of tubing.

Outside Diameter Wall Thickness Type of End Finish
Grade
in mm in mm J55 K55 L80 N80 P110
2.375 60.3 0.167 4.24 PN PN PN –
0.190 4.83 PNU PNU PNU PNU
0.254 6.45 – PNU PNU PNU
0.259 7.49 P P P –
0.336 8.53 PU PU PU –
2.875 73.02 0.217 5.51 PNU PNU PNU PNU
0.276 7.01 – PNU PNU PNU
0.308 7.82 – PNU PNU PNU
0.340 8.64 – PU – –
0.392 9.96 – P – –
0.440 11.18 – P – –
3.500 88.9 0.216 5.49 PN PN PN –
0.254 6.45 PUN PUN PUN PUN
0.289 7.34 PN PN PN –
0.375 9.53 – PUN PUN PUN
0.430 10.92 – P – –
0.476 12.00 – P – –
0.530 13.46 – P – –
4.00 101.6 0.226 5.74 PN PN PN PN
0.262 6.65 PN PN PN PN
4.500 114.3 0.271 6.88 – P – –
0.337 8.56 – P – –
0.380 9.65 – P – –
0.430 10.92 – P – –
0.500 12.70 – P – –
0.560 14.22 – P – –
0.630 16.00 – P – –
OTCG pipes’ Tolerance on dimensions: API Spec 5L PSL1, PSL2
API 5L Line pipes & ASTM Grades – Tensile Requirement

Grade Yield Strength Ultimate Tensile Strength Grade Yield Strength Ultimate Tensile Strength
PSL 1 Min Max Min Max PSL 2 Min Max Min Max
A25 25 45
A 30 48 B 35 65 60 110
B 35 60 X42 42 72 60 110
X42 42 60 X46 46 76 63 110
X46 46 63 X52 52 77 66 110
X52 52 66 X56 56 79 71 110
X56 56 71 X60 60 82 75 110
X60 60 75 X65 65 87 77 110
X65 65 77 X70 70 90 82 110
X70 70 82 X80 80 100 90 120

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Stainless Steel Grade LDX 2404 (UNS S82441)

 Stainless steel grade LDX 2404® is a lean duplex stainless steel containing molybdenum. The new duplex grade LDX 2404® has been designed with a property profile to fill the gap between the existing Duplex steel grades 2304 and 2205. It is also specially designed as a replacement of grade 304/304L in several applications.

 

LDX 2404® steel has high resistance to uniform corrosion, to pitting and crevice corrosion, and to stress corrosion cracking. It has excellent mechanical strength, good abrasion and erosion resistance, good fatigue resistance, and good weldability. High energy absorption and low thermal expansion are two other characteristics of this material.

The following datasheet provides an overview of stainless steel grade LDX 2404®.

Chemical Composition
Contents [hide]

1 Chemical Composition
2 Mechanical Properties
3 Other Designations
4 Manufacturing Process
5 Applications
The chemical composition of stainless steel grade LDX 2404® is outlined in the following table.

Element Content (%)
Iron, Fe Balance
Chromium, Cr 24
Nickel, Ni 3.6
Manganese, Mn 3
Molybdenum, Mo 1.6
Nitrogen, N 0.27
Carbon, C 0.02
Mechanical Properties
The mechanical properties of stainless steel grade LDX 2404® are displayed in the following table.

Properties Metric Imperial
Tensile strength (cold rolled plate and sheet) 680 MPa 98625 psi
Modulus of elasticity (68°F/ 106) 0.19994 GPa 29 ksi
Poisson’s ratio 0.3 0.3
Elongation at break (In 2″, 50% cold worked) 25% 25%
Other Designations
Equivalent material to stainless steel grade LDX 2404® is EN 1.4662.

Manufacturing Process
Stainless steel grade LDX 2404® can be hot formed in the temperature range 900-1120°C (1652-2048°F), which should be followed by solution annealing to regain the original properties. The mechanical strength of this steel tends to be low at these high temperatures. Welding can be easily performed using traditional methods. Likewise cold forming is also suitable for this steel. To perform heat treatment, LDX 2404® steel should be solution annealed at 1000-1120°C (1832-2048°F). Rapid cooling should be performed after annealing to regain the original properties.

Applications
The applications of stainless steel grade LDX 2404® are as follows:

Energy sector
Oil and gas sector
Storage tanks
Pulp and paper
Piping systems
Process industry
Structural components
Boilers and water heaters
Architectural applications
Water treatment and desalination

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Stainless Steel – Grade 3CR12 (UNS S40977)

 Chemical Formula

Contents [hide]

1 Chemical Formula
2 Introduction
3 Key Properties
4 Composition
5 Mechanical Properties
6 Physical Properties
7 Grade Specification Comparison
8 Possible Alternative Grades
9 Corrosion Resistance
10 Heat Resistance
11 Heat Treatment
12 Welding
13 Machining
14 Finishes
15 Applications

Fe, <0.3% C, 10.5-12.5% Cr, 0.3-1.0% Ni, <1.5% Mn, <1.0% Si, <0.4% P, <0.15% S, <0.03% N

Introduction
Grade 3CR12 stainless steel is a low-cost grade chromium, containing stainless steel fabricated by modifying the properties of grade 409 steel. It resists mild corrosion and wet abrasion. It was originally developed by Columbus Stainless, which designated the registered trademark “3CR12”. Other designations of this grade include UNS S40977/S41003 and 1.4003.

Other designations that are equivalent to grade 3CR12 include ASME SA240 grades, ASTM A240/A240M grades and EN 10088.2. However, grade 1.4003 is also covered in EN 10028.7, which constitutes pressure-purpose stainless steels.

Key Properties
The following section will provide the key properties of grade 3CR12 stainless steel coil, sheet and plate, covered under Euronorm S41003, S40977, ASTM A240/A240M and EN 10088.2 1.4003.

Composition
The chemical compositions of various elements of grade 3CR12 stainless steels are tabulated below:

Table 1. Chemical composition of grade 3CR12 stainless steels

Grade C Mn Si P S Cr Mo Ni N
1.4003 min. – – – – – 10.50 – 0.30 –
S40977 max. 0.030 1.50 1.00 0.040 0.015 12.50 – 1.00 0.030
S41003 min.
max. –
0.03 –
1.50 –
1.00 –
0.040 –
0.030 10.5
12.5 –
– –
1.50 –
0.030
Mechanical Properties
Given below are the mechanical properties of grade 3CR12 stainless steels:

Table 3. Mechanical properties of grade 3CR12 stainless steels

Grade Tensile Strength (MPa) min Yield Strength 0.2% Proof Stress (MPa) min Elongation (% in 50mm) min Hardness
Rockwell (HR) max Brinell (HB) max
1.4003 450
650 280 (long.)
320 (trans.) 20 – –
S40977 455 280 18 HR B88 180
S41003 455 275 18 HR C20 223
Physical Properties
The following table outlines the physical properties of grade 3CR12 stainless steels:

Table 4. Physical properties of grade 3CR12 stainless steels

Grade Density (kg/m3) Elastic Modulus (GPa) Mean Coefficient of Thermal Expansion (µm/m/°C) Thermal Conductivity (W/m.K) Specific Heat
0-100°C (J/kg.K) Electrical Resistivity (nÙ.m)
0-100°C 0-300°C 0-700°C at 100°C at 500°C
3CR12 7740 200 10.8 11.3 12.5 30.5 31.5 480 570
Grade Specification Comparison
Grade specifications for 3CR12 stainless steels are given in the following table:

Table 4. Grade comparisons for 3CR12 grade stainless steels

Grade UNS No Old British Euronorm Swedish SS Japanese JIS
BS En No Name
3CR12 S40977 – – 1.4003 X2CrNi12 – –
Given above are only approximate comparisons. The table is prepared to provide a comparison of materials that are functionally similar to each other, and the specifications are not legitimate. Original specifications can be verified if exact equivalents are required.

Possible Alternative Grades
Suitable alternatives to grade 3CR12 stainless steels are listed in the table below:

Table 5. Possible alternative grades to 3CR12 grade stainless steels

Grade Why it might be chosen instead of 3CR12
304 Excellent fabrication properties and corrosion resistance.
430 Excellent resistance to corrosion and good appearance. It does not require welding.
Galvanized steel Inexpensive, fair corrosion resistance and fabrication properties.
Weathering steel Inexpensive, acceptable fabrication properties and corrosion resistance.
Corrosion Resistance
Grade 3CR12 stainless steels can be employed in applications for which aluminium, galvanized or carbon steels provide undesirable results, owing to its resistance to strong acids and alkalis, and cracking resulted from chloride stress corrosion. However, unlike grade 304, grade 3CR12 has minimal resistance to crevice and pitting corrosion in the presence of chloride.

Under ambient conditions, grade 3CR12 has improved resistance to water and chloride substances, as the corrosivity of chloride contents will be mitigated by the nitrate and sulphate ions. One of the major drawbacks of grade 3CR12 is that the surface of the material is subjected to mild corrosion when exposed to any type of environment. It is due to this reason the material is limited to decorative applications.

Heat Resistance
Grade 3CR12 stainless steels exhibit scaling resistance between 600 and 750°C in the presence of air, and between 450 and 600°C under stress environments. The material tends to become fragile upon prolonged exposure to temperatures between 450 and 550°C. However, the material does not lose its impact resistance at this temperature range.

Heat Treatment
Grade 3CR12 stainless steels are annealed at temperatures ranging from 700 to 750°C, divided into 25 mm section, and each section is soaked for 1½ h. The material is then allowed to cool. Care should be taken to prevent hardening during heat treatment. The mechanical properties and corrosion resistance characteristics of this grade can be affected by quenching treatments.

Once the material is annealed, processes such as pickling and passivating are performed.

Welding
Welding methods used for austenitic stainless steels can be applied to grade 3CR12 stainless steels. Low heat input techniques, such as GMAW (MIG) and GTAW (TIG), can be considered. During welding, grade 309 filler wire, pre-qualified by AS 1554.6, is preferred. However, grade 308L, 316L, 309Mo and 309L wires have also been employed in many cases. Any discoloration in the welded product can be removed using backing gases, or techniques such as purging and pickling.

Machining
Machinability of grade 3CR12 stainless steels is around 60% of that of mild steel. They have a work-hardening rate lesser than that of austenitic steels, and, hence, they do not require special machining methods.

Finishes
Grade 3CR12 stainless steel plates can be obtained in standard, hot-rolled annealed and pickled (HRAP) finish, and coils are available in 2B or 2D finish. Black finish can also be produced by hot-rolling the material, leaving behind a dark oxidized surface on the steel. Grade 3CR12 with black finish has a good corrosion resistance and low friction and, hence, it is suitable for different wear applications.

Applications
Grade 3CR12 stainless steels find application in the following:

Sugar processing industries
Transport equipment, such as rail wagons carrying iron ores and coal
Mining and mineral processing
Oven and furnaces

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Stainless Steel Tube for the Food Industry

 This article provides the alternative specifications for the Australian food industry service. Such specifications include:

ASTM A554 “Specification for welded stainless steel mechanical tubing”

ASTM A270 “Specification for seamless and welded austenitic stainless steel sanitary tubing”

ASTM A269 “Specification for seamless and welded austenitic stainless steel tubing for general service”

ASTM A249 “Specification for welded austenitic steel boiler, super heater, heat exchanger, and condenser tubes”

AS 1528.1 “Specification for tubes (stainless steel) for the food industry”

AS1528 was revised in 2001 by key stakeholders in the Australian food manufacturing and tube industries. AS 1528 is unique, in that it covers all the associated fittings in addition to the tube.

Specification Comparison
Contents [hide]

1 Specification Comparison
2 Material
3 Manufacture
4 Dimensional Tolerances
5 Wall Thickness
6 Outside Diameter
7 Surface Finish
8 Weld Bead
9 Heat Treatment
10 Mechanical Properties
11 Non-Destructive Inspection
12 Which Specification
Material
All specifications pertain to common grades, such as grades 304, 304L, 316 and 316L. AS1528.1 covers all grades of duplex and austenitic stainless steel listed in ASTM A240.

Manufacture
All specifications need fusion-welded products without filler metals. Specifications such as ASTM A270, ASTM A269 and AS 1528 also cover seamless products.

Dimensional Tolerances
Wall Thickness
ASTM A554 requires ±10% of nominal – no nominal thicknesses are stipulated.

ASTM A270 requires ±12.5% of nominal – no nominal thicknesses are stipulated.

ASTM A269 requires ±10% of nominal for sizes over ½” – no nominal thicknesses are stipulated.

ASTM A249 requires ±10% of nominal – no nominal thicknesses are stipulated.

AS 1528 specifies nominal thicknesses of 1.6mm for all outside diameters, (ODs) except 2 mm for 203.2 mm OD; other thicknesses can be specified by purchasers. Standard tolerance is +nil, -0.10mm. The all-minus tolerance recognizes the usual practice for tube, to all specifications, to be produced towards the lower limit of the tolerance range. A range of between 1.52 and 1.58 mm is typical. This tolerance also applies to tube fittings.

Outside Diameter
Table 1. Specification requirements for standard inch series OD tube sizes

Outside Diameter Requirements (mm)
Diameter A249 A269 A270 A554* AS 1528*
25.4 ±0.15 ±0.13 +0.05/-0.20 ±0.13 ±0.13
38.1 ±0.15 ±0.25 +0.05/-0.20 ±0.15 ±0.25
50.8 ±0.25 ±0.25 +0.05/-0.28 ±0.18 ±0.25
63.5 ±0.3 ±0.25 +0.05/-0.28 ±0.25 ±0.25
76.2 ±0.38 ±0.25 +0.08/-0.30 ±0.25 ±0.25
101.6 ±0.38 ±0.38 +0.08/-0.38 ±0.38 ±0.38
* ASTM A554 tolerances for the weld bead removed condition.
* AS1528 also covers OD sizes 12.7, 19.0, 31.8, 127.0, 152.4 and 203.2mm

All these tube specifications provide limits for wall thickness and OD. The inside diameters are not mentioned separately.

Surface Finish
The surface finish properties of various specifications, recommended for Australian food industry services, are as follows:

ASTM A249 and ASTM A269 require surfaces that are free of scales and rust. Annealing of the tube is usually carried out in a controlled environment, and this “bright annealed” finish is considered acceptable.
ASTM A270 needs selection of both external and internal surfaces. The possible conditions include mill finish, abrasive polishing with 80, 120, 180 or 240 grit, special polishing or electropolishing. Surface finishes can be specified in terms of Ra values without any limits.
ASTM A554 specifies “direct off mill” or “free of scale” finish as standard. Special finishes, if required, need to be mentioned in the order. Thus a large quantity of A554 tube is supplied in buffed or externally polished conditions.
AS1528 covers the external surface “buff polished” or “as produced”. The internal surface needs to be 2B finish, quoted as typically 0.3µm Ra. Studies suggest that the typical roughness ranges from 0.10 to 0.20 µm Ra for 1.6mm 2B coil. Precautions must be taken to prevent significant degradation of roughness during the manufacture of tube.
Weld Bead
Listed below are the weld bead procedures for different steel grades:

The handling products used in the food industry require a Stainless Steel Tube without weld bead remnant on the inner surface.

ASTM A249 requires the weld to be cold-worked after welding, and before final heat treatment.
ASTM A269 does not require any cold-working or weld bead control.
ASTM A270 does not require weld bead.
ASTM A554 can be supplied with the weld bead left on, and hence it complies with the “Bead Removed” option of A554.
AS1528 requires removal of the weld bead. There is also a requirement that the internal surface needs to be smooth, with no lack of weld penetration and no crevices adjacent to welds.
Heat Treatment
The following stainless steel grades can be heat-treated:

ASTM A249, ASTM A269 and ASTM A27 specify that all materials can be furnished in the heat-treated condition. Heat-treatment usually involves annealing methods, such as solution annealing or solution treatment. In practice, heat-treatment is not a basic requirement for food industry applications.
ASTM A554 is usually supplied in “as welded” condition, i.e. no heat-treatment required after tube forming.
AS1528 allows the purchaser to specify either annealed or un-annealed conditions of steel products.
Mechanical Properties
The mechanical properties of various stainless steel grades, commonly used in food industries, are given below:

ASTM A249 requires extensive mechanical testing for use in critical environments in boilers or heat exchangers.
ASTM A269 requires reverse flattening, plus flange and hardness tests. It does not require tensile testing.
ASTM A270 requires a reverse flattening test only.
ASTM A554 does not require mechanical testing as standard.
AS1528 requires the tube to be made of strips that comply with ASTM A240. It does not require tensile or hardness testing.
Non-Destructive Inspection
The non-destructive inspection procedures for different steel grades are listed below:

ASTM A249, ASTM A269, ASTM A270 and AS1528.1 all require 100% hydrostatic or eddy current testing.
ASTM A554 includes a supplementary requirement that deals with the possibility of non-destructive testing. However, this is applicable for ASTM A554 tube.
Which Specification
The following section provides a summary on each specification employed in food industries:

ASTM A249 specifies weld bead removal. This requirement can be met from other standards. ASTM A249 does not require annealing in most food applications.
ASTM A269 again requires annealed tube. Conversely, it does not specify internal weld bead removal, which generally is a food industry requirement. ASTM A269 is a stock item, and it proves uncompetitive against un-annealed tube.
ASTM A270 also requires the tube in the annealed condition, and it describes nothing about weld bead. The finish options available in this specification are very comprehensive.
ASTM A554 is intended for mechanical applications, and not for pressure containment or sanitary use.
AS1528 is the safest and most cost-effective option. It is specifically employed in food industries, as it specifies the features necessary to achieve high integrity lines for hygienic applications without requiring expensive mechanical testing. Annealing can be done if required, and surface finishes can be further specified. Batch traceability marking, used to verify many food and pharmaceutical plants, is necessary. Another key benefit is the presence of matching specifications for tube fittings.

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stainless Steel Pipe Fittings

 Having an massive knowledge, we accept acquired huge breadth advice aural the breadth of producing, importing and exporting a advanced array of Reducing Tee , Automated Fasteners and Flanges & added Automated Supplies. In our range, we action Stainless Metal Fastners Carbon Metal Aqueduct Requirement in Heavy Industries A Carbon Animate Aqueduct Offers Unmatched Hardness and Durability arbon Animate Strips We action above superior flat/ strip/ circle/ foils that are fabricated of carbon metal and are characterized by bright, apple-pie and dry exoteric as able-bodied as autogenous surface. These articles are acclimated in assorted industries including refrigeration, air conditioning, oil and gas and more.

In environments absolute a ample bulk of, for example, carbon dioxide, inhibitors accept been acclimated to anticipate corrosion. However, the use of such inhibitors causes an access in amount and the inhibitors cannot accommodate acceptable advantages beneath top temperature altitude in some cases. Therefore,Stainless steel Pipe with top bane attrition accept been afresh acclimated after application the inhibitors.

The API standards specify that 12%-Cr martensitic stainless metal with a bargain C agreeable be acceptable for band pipes. In contempo years, martensitic stainless animate pipes accept been acclimated for pipelines for accustomed gas absolute CO2. There is a botheration in that such martensitic stainless animate pipes have to be preheated or subjected to post-welding calefaction analysis if they are girth-welded. Furthermore, there is a botheration in that anchored portions thereof are inferior in toughness. The techniques proposed in Patent Documents 1 and 2 crave reductions central the P agreeable to beneath than 0.008% by accumulation and aswell to 0.008% by accumulation or less, respectively. However, aural the accepted adorning technique, an access in the abundance ofdephosphorization is all-important in adjustment to durably and absolutely abate the P agreeable in the 13Cr-type martensitic stainless metal to 0.008% by accumulation or beneath in an automated accumulation assembly scale, and this leads to a cogent access in cost. Evenif the abundance of dephosphorization is increased, it is difficult to absolutely ascendancy the Pagreeable up to 0.008% by accumulation or less. Therefore, development of an bargain martensitic stainless metal pipe, which never requires the abridgement in Pinvolving an access in amount and the accession of ample quantities of big-ticket Ni and Mo, has been requested.

Short Radius Elbow is advantageous in accomplishment a anchored anatomy by welding. Examples of the anchored anatomy cover oil or accustomed gas assembly accessories such as pipelines bogus by girth-welding band pipes, actinic bulb pipes such as risers and manifolds, and bridges. The anchored anatomy defined herein may be bogus by adjustment the martensitic stainless animate pipes of the present invention, adjustment the martensitic stainless metal aqueduct of the present apparatus to addition blazon of animate pipe, or adjustment the martensitic stainless animate aqueduct to a affiliate fabricated of addition material.

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stainless steel pipes and 4130 Pipe

 Stainless steel pipes, as the identify implies are pipes made from corrosion resistant and sturdy stainless-steel. And they’re fairly well-liked in almost all sectors of household, industrial and industrial places. 4130 Pipe, equally, has superb utilitarian really worth in numerous industrial sectors

.

Hot Expansion Steel Pipe :These pipes are plentiful in seamless and welded types in order to meet the needs of particular enterprise sector requires. In addition to these standard forms a lot of the makers managing the manufacturing of stainless steel pipes go for orders for customized designed varieties as outlined by your specific person specification, dimension, and quality to find the best possible productiveness. These pipes are created for biggest durability and dependability and could withstand damage even during harsh conditions.

Stainless steel pipes uncover broad software in a number of industrial places like chemical, fertilizer, petrochemical, pulp and paper, maritime, meals & beverage etc.Different inventions were recently proposed to extened living alongside the plug for Electric resistance welding steel pipe . For example, a combination of thermal spraying and hot isostatic pressing (HIP) process is disclosed in Japanese Patent KOKAI No. 61-286077.

This technique is used for coating with ZrO2 with regards to thermal insulation of an engine room. The plug was manufactured over the thermal spraying of a nickel thermal spraying material (Ni-Cr-Al-Y) powder to the the surface of your core produced of carbon metal (S45C) to some middle layer, and the thermal spraying of molybdenum powder to form a surface layer, then the HIP treatment. In accordance with this reference, the effects with the middle layer is remarkable, especially, it relaxes the thermal stress of the junction layer followed by an immediate change of temperature at the surface inside the core. Thermal shock is improved upon in comparison utilizing the same in the plug without middle layer.wall thickness-tolerance on the wall thickness alterations in how much constant surfaces Stubbs pass caused mainly because of the wall thickness of ultra poor with mold improper or disregard the changes due to the mold dimension as a result of wear using the estimate is incorrect short mandrel the curved outer mold and tapered mandrel drawing the mandrel improper position adjustment – before or after too.

To prevent the wall thickness the ultra poor should correct with mold, properly adjust the mandrel position. Pass empty pull metal pipe wall thickness change ought to be estimated accurately. Super Duplex Stainless Steel Flanges and 4130 tubing online: The net source is easily the most effective option for buying stainless-steel pipes. Case since the bulk from your renowned producers and suppliers have their own online presence today. Thus, you can get access to first class types in the same location understanding that too from the comforts of one’s household or office.You can even get 4130 tubing online with all the best prices to pick from inside the

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What To Appear For In Stainless Steel Pipe

 Stainless Steel Pipe is often a compound which includes numerous employs.spiral welded metal pipe Gifts for Bachelors. This process is hugely proof against corrosion, sterile and hygienic, and may also stand up to an amazing deal of pressure. Stainless Steel Pipe really is well-liked inside an enormous variety of industries, particularly these attached to constructing. In fact, wheresoever large-scale construction is created, say a bridge or railings on the highway, there’ll be some usage of stainless steel because it retains up structures exceptionally correctly. Metal is applied to distinctive varieties, the other particular of countless most critical is pipe.

Opposite to what an outstanding amount of folks think, stainless steel pipe is largely coil-shaped, rather of turning out to be cylindrical or spherical. It may be processed into various varied shapes. Not extended during the past, inside the annex in the Nationwide Standardization Specialized Committee pipeline firm wall Spiral welded steel pipe work and pipe fittings normal drafting session, the Architecture Design and look at Institute of expert associates and a few stainless steel pipe fittings or super duplex stainless steel flanges suppliers representative GB/T91228.Drew Barrymores seamless stainless steel pipe, Look and Produce a Remark. You will discover distinctive types of Pre galvanized pipes hardens accessible available in the market.

These pipes is different from regular stainless steel when it comes to metal content. The top quality together with the stainless steels is determined by its content. You will find distinct corporations who will be concerned from the manufacturing of stainless steel pipes. With there being distinct types of pipes obtainable, consumers must select meticulously coming from a broad selection of possibilities. You will find also several unauthorized and illegitimate stores that promote pretend and inferior components below large manufacturer names for example: Zhejiang wilsonpipeline Pipe Industry Co., Limited. It really is useless to express that these components are unsuccessful to supply the most well-liked overall performance. So customers should choose carefully since an individual wrong decision can’t merely outcome in complete monetary loss but may also location the complete part of jeopardy. These days, you’ll be able to get these pipes on the web. Certainly, the net provides you with use of manufacturers around the world. You can select comparative buying and therefore get keep of the finest deal/s. With competitive pricing and strategic transport locations, you might obtain your excellent shipped with the shortest feasible time. Some manufacturers in addition provide you assistance in case you are baffled about which chrome steel pipe to select for the needs.

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