Product Details:
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Size: | NPS: 1/2''~24''(Seamless), 24''~72''(Welded) ;DN: 15~1200, WT: 2~80mm, SCH 5~XXS | Bending Radius: | R=1D~10D, R=15D, R=20D |
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Material & Standard: | Carbon Steel --- ASME B16.9, ASTM A234 WPB Stainless Steel --- ASTM A403 304/304L/310/310S/316/316L/317L/321 Alloy Steel --- ASTM A234 WP1/5/9/11/12/22/91 | Payment: | TT, LC , OA , D/P |
Packing: | Packed In Wood Cabins/Wood Tray | Usage: | For Conveying Gas, Water And Oil Either In The Oil Or Natural Gas Industries |
High Light: | pipe asme b16 9 elbow,sch40 asme b16 9 elbow,sch80 asme elbow |
Pipe Fitting B16.9 Elbow ;Tee;Reducer;Cap;Sch40;Sch80;Black;Anti-Rust Oil
One of the most common methods for manufacturing elbows is using hot mandrel bending from straight steel pipes. After heating the steel pipe at a elevated temperature, the pipe is pushed, expanded, bend by the inner tools of mandrel step by step. Applying hot mandrel bending can manufacture a wide size range seamless elbow. The characteristics of mandrel bending are strongly depend on the integral shape and dimensions of the mandrel. The using advantages of hot bending elbows include smaller thickness deviation and stronger bending radius than other bending method type. Meanwhile, using bending instead of prefabricated bends substantially reduces the number of welds needed. This reduces the amount of work required and increases the quality and usability of pipes. However, cold bending is the process to bent the straight steel pipe at normal temperatures in a bending machine. Cold bending is suitable for pipes with an outer diameter of 17.0 to 219.1 mm, and wall thickness 2.0 to 28.0 mm. The recommended bending radius is 2.5 x Do. Normally at a bending radius of 40D. By using cold bending, we can get small radius elbows, but we need to pack the internals with sand to prevent wrinkling. Cold bending is a quick and inexpensive bending method. It is a competitive option for making pipelines and machine parts.
Welded Elbow Manufacturing Process (Small & Large)
Welded elbows are made from the steel plates, so it is not seamless steel elbows. Use a mould and press the steel plate to the shape of the elbow, then weld the seam to be a finish steel elbow. It is the old production method of the elbows. Recent years the small sizes elbows are almost manufactured from the steel pipes now. For the big size elbows, for example, it is very difficult to produce elbows over 36” OD from the steel pipes . So it is commonly made from the steel plates, pressing the plate to the shape of half elbow, and welding the two halves together. Since the elbows are welded in its body , the inspection of the welding joint is necessary . Commonly we use the X-Ray inspection as the NDT.
Tensile Requirements | WPB | WPC, WP11CL2 | WP11CL1 | WP11CL3 |
Tensile Strength, min, ksi[MPa] | 60-85 | 70-95 | 60-85 | 75-100 |
(0.2% offset or 0.5% extension-under-load) | [415-585] | [485-655] | [415-585] | [520-690] |
Yield Strength, min, ksi[MPa] | 32 | 40 | 30 | 45 |
[240] | [275] | [205] | [310] |
Some of the grades available under this specification and corresponding connected pipe material specification are listed below:
This specification covers two general classes, WP & CR, of wrought austenitic stainless steel fittings of seamless and welded construction.
Class WP fittings are manufactured to the requirements of ASME B16.9 & ASME B16.28 and are subdivided into three subclasses as follows:
Class CR fittings are manufactured to the requirements of MSS-SP-43 and do not require non-destructive examination.
Under ASTM A403 several grades are available depending upon chemical composition. Selection would depend upon pipe material connected to these fittings. Some of the grades available under this specification and corresponding connected pipe material specification are listed below:
This specification covers wrought carbon steel and alloy steel fittings of seamless & welded construction intended for use at low temperatures. It covers four grades WPL6, WPL9, WPL3 & WPL8 depending upon chemical composition. Fittings WPL6 are impact tested at temp – 50° C, WPL9 at -75° C, WPL3 at -100° C and WPL8 at -195° C temperature.
The allowable pressure ratings for fittings may be calculated as for straight seamless pipe in accordance with the rules established in the applicable section of ASME B31.3.
The pipe wall thickness and material type shall be that with which the fittings have been ordered to be used, their identity on the fittings is in lieu of pressure rating markings.
Steel No. | Type | Chemical composition | ||||||||||||
C | Si | S | P | Mn | Cr | Ni | Mo | Other | ób | ós | δ5 | HB | ||
WPL6 | 0.3 | 0.15-0.3 | 0.04 | 0.035 | 0.6-1.35 | 0.3 | 0.4 | 0.12 | Cb:0.02;V:0.08 | 415-585 | 240 | 22 | ||
WPL9 | 0.2 | 0.03 | 0.03 | 0.4-1.06 | 1.6-2.24 | 435-610 | 315 | 20 | ||||||
WPL3 | 0.2 | 0.13-0.37 | 0.05 | 0.05 | 0.31-0.64 | 3.2-3.8 | 450-620 | 240 | 22 | |||||
WPL8 | 0.13 | 0.13-0.37 | 0.03 | 0.03 | 0.9 | 8.4-9.6 | 690-865 | 515 | 16 |
Contact Person: Miss. Mandy Liu
Tel: 0086 18903173335
Fax: 86-0317-6853077-6723871