 BS(British Standards) |
| BS534 / Steel Pepes Fittings and Specials for Water and Gas and Sewage /BS778 / Steel Pipes and Joints for Hydraulic Purposes ..... | |
| API (American Petroleum Institute) |
| API 5CT CASING AND TUBING (H-40/J-55/K-55/N-80/C-75-1/C-75-2/C-75-3/C-75-9Cr/C-75-13Cr/L-80-1/L-80-9Cr/L-80-13Cr/C-90-1)API 5D DRILL PIPE (E-75/X-95/G-105/S-135/E-75/X-95/G-105/S-135 )API 5L Line Pipe A25C1 ¥° A25C1 ¥± A B X42(Non-expanded) X42(Cold expanded) X46(Non expanded) X46(Cold expanded) API 2B - Structural Steel Pipe | |
| ASTM A135 / ASME SA135 / Pipe Steel Electric Fusion(ARC) Welded |
| ASTM A135-89a / ASME SA135-89a PIPE STEEL ELECTRIC FUSION(ARC) WELDED(ASTM A 135-89 a / ASME SA 135-89 a /ASTMA135-89a/ASMESA135-89a)This standard is issued under the fixed designation A 135; the number immediately following the designation indicates the year of original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A superscript epsilon ( ¥å) indicates an editorial change since the last revision or reapproval.This specification has been approved for use by agencies of the Department of Defense. Consult the DoD Index of Specifications and Standards for specific year of issue which has been adopted by the Department of Defense. | |
| B 241 / SB 241 / Specification for Aluminum and Aluminum-Alloy Seamless Pipe and Seamless Extruded Tube |
ASTM B-241 / ASME SB-241 /SPECIFICATION FOR ALUMINUM AND ALUMINUM-ALLOY SEAMLESS PIPE
AND SEAMLESS EXTRUDED TUBE /This specification covers aluminm and aluminum-alloy seamlesspipe in the alloy (Note 1) and tenpers shown in Table 2 [Table 2M] and extruded roind reamless tube in the alloys and tempers shown in Table 3 [Table 3M] intended for pressure applicaoins.The standard sizes for seamless pipe are lidted in Table 16.7 of ANSI H35.2M. Nonstandard alloys, tempers and sizes of pipe are priduced as seamless extruded tube./
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| DIN17176 Seamless circular steel tubes for hydrogen service at elevated temperatures and pressures Technical delivery condition |
DIN 17176 Seamless circular steel tubes for hydrogen service at elevated temperatures and pressures
Technical delivery condition
Nahtlose kreisformige Rohre aus druckwasserstoffbestandigen Stahlen; technische Lieferbedingungen
In keeping with current practice in standards published by the International Organization for Standardization (ISO), a comma has been used throughout as the decimal marker.
The subclauses marked ¡Ü give specifications which are to be agreed upon at the time of ordering, and those marked ¡Ü¡Ü give specifications which are optional and may be ageed upon at the time of ordering. | |
| GB STANDARD (China Standard) |
| GB T17395 Seamless Steel Pipe /GB T8162 Structure Pipe 10 20 35 45 40Mn2 45Mn2 27SiMn 20Cr 40Cr 20CrMo 35CrMo 38CrMoA1 50CrV 30CrMnSi | |
| GB STANDARD(China Standard) |
| GB T17395 Seamless Steel Pipe /GB T8162 Structure Pipe 10 20 35 45 40Mn2 45Mn2 27SiMn 20Cr 40Cr 20CrMo 35CrMo 38CrMoA1 50CrV 30CrMnSi | |
| GOST RUSSIA STANDARD |
| Smooth Seamless Steel Tubes / Threaded tubes / Welded tubes / Shaped tubes / Methods of tests for tubes / Quality groups of tubes | |
| A 135 / SA 135 / Pipe Steel Electric Fusion(ARC) Welded |
| ASTM A 135-89a / ASME SA 135-89a/PIPE STEEL ELECTRIC FUSION(ARC) WELDED /1.1 This specification covers two grades of electric-resistance-welded steel pipe in NPS 2 TO NPS 30 inclusive, with nominal (average) wall thickness up to 0.500 in. ( 12.70 mm), inclusive, and in nominal sizes 3/4 to 5 in. (19 to 127 mm) inclusive with nominal (average) wall thickness 0.083 in. (2.11 mm) to 0.314 in. (3.40 mm), depending on size.Pipe having other dimensions 9Note 1) may be furnished provided such pipe complies with all other requirements of this specification. The pipe in intended for conveying liquid, gas, or vapor; and only Grade A is adapted for flanging and bending (Note 2). The suitability of pipe for various purposes in somewhat dependent upon its dimensions, properties, and conditions of service, so that the purpose for which the pipe is intended should be stated in the order. T he pipe may be furnished either nonexpanded or cold expanded, the amount of expansion shall not exceed 1.5£¥ of the outside diameter pipe size./ | |
| A 161 / SA 161/ Seamless Low Carbon And Cardon Molybdenum Steel Still Tubes For Refinery Service |
| ASTM A161 / ASME SA 161/SEAMLESS LOW CARBON AND CARDON MOLYBDENUM STEEL STILL TUBES/FOR REFINERY SERVICE/1.1 This specification covers minimum-wall-thickness, seamless, hot-finished and cold-finished, low-carbon and carbon-molybdenum steel still tubes, for use in carrying fluids at elevated temperatures and pressures in various types of heaters, in which the tubes may be subjected to furnace temperature higher than that of the contained fluid./ | |
| A 178 / SA 178 / Eletric Resistance Welded Carbon Steel Boiler Tubes |
| ASTM A 178 / ASME SA 178/ELETRIC RESISTANCE WELDED CARBON STEEL BOILER TUBES/1.1 This specification covers minimum-wall-thickness, electric-resistance-welded tubes made of carbon steel and carbon-manganese steel intended for use as boiler tubes, boiler flues, superheater flues, and safe ends./ | |
| B 407 / SB 407 / Specification for Nickel-Iron-Chromium Alloy Seamless Pipe and Tube |
| ASTM B-407-87 / ASME SB-407 /SPECIFICATION FOR NICKEL-IRON-CHROMIUM ALLOY SEAMLESS PIPE AND TUB/This specification covers UNS N08800, UNS N08801, UNS N08810,and UNS N08811 in the form of cold-worked and hot-finished annealed seamless pipe and tube. Alloy UNS N08810 is normally emloyed in service temperatures up to and including 1100F (593¡É). Alloys UNS N08811 are normally employed in service temperatures above 1100F (593¡É) where resistance to creep and rupture is required, and they are annealed to develop controlled grain size for optimum properties in this temperatue range./ | |
| A 200 / SA 200 / Seamless Intermediate Alloy Steel Still Tubes for Fefinery Service |
| ASTM A200-89/SEAMLESS iNTERMEDIATE ALLOY STEEL STILL TUBES FOR FEFINERY SERVICE/1.1This specification covers several grades of minimum-wall-thickness, chromium-molybdeumand chromium-mo-lybdenum-silicon,seamless, hot-finished and cold-finished,intermediate alloy-steel still tubes, for use in carrying fluids at elevated temperaures and presures in various types of heaters, in which the tubes may be subjected to a furnace temperature higher than that of the contained fluid./ | |
| A 250 / SA 250 / Electric Resistance Welded Carbon Molybdenum Alloy Steel Boiler and Supergeater Tubes |
| ASTM A 250-89a/ASME SA 250/ELECTRIC RESISTANCE WELDED CARBON MOLYBDENUM ALLOY STEEL BOILER AND/SUPERGEATER TUBES/1.1 This specification covers several grades, designated T1, T1a, T2, T11, T12, and T2, of minimum-wall-thickness, electric-resistance-welded, carbon-molybdenum and chromium-molybdenum alloy-steel, boiler and superheater./ | |
| A 252 / SA 252 / Welde and Seamless Steel Pipe Piles |
| ASTM A252-89/WELDE AND SEAMLESS STEEL PIPE PILES/1.1 This specification covers nominal (average)wall steel pipe piles of cylindrical shape and applies to pipe in which the steel cylinder acts as a permanent load-carrying member, or as a shell to form cast-in place concrete piles./ | |
| A 254 / SA 254 /Standard Specification for Copper Brazed Steel Tubing1 |
| ASTM A254/ASME SA254/STANDARD SPECIFICATION FOR COPPER BRAZED STEEL TUBING1/1.1 This specification covers double-wall, copper brazed steel tubing suitable for general engineering uses, particularly in the automotive, refrigeration, and stove industries for fuel lines, brake lines, oil lines, heating and colling units, and the like./ | |
| A 268 / SA 268 / Seamless and Welded Ferritic Stainless Steel Tubing For General Service |
| ASTM A268/SEAMLESS AND WELDED FERRITIC STAINLESS STEEL TUBING/FOR GENERAL SERVICE/1.1 This specification©÷ covers a number of grades of nominal-wall-thickness, stainless steel tubing for general corrosion-resisting and high-temperature service. Most of these grades are commonly known as the "straight-chromium" types and are characterized by being ferromag-netic. Two of these grades, TP410 and UNS S41500 (Table1), are amenable to hardening by heat treatment, and the high-chromium, ferritic alloys are sensitive to notch-brit-tleness on slow cooling to ordinary temperatures. These features should be recognized in the use of these materials.Grade TP439 is used primarily for hot-water tank service and does not require post-weld heat treatment to prevent attack of the heat affected zone./ | |
| A 271 / SA 271 / Seamless Austenitic Chromium Nickel Steel Still Tubes for Refinery Serice |
| ASTM A271-88/ASME A271/SEAMLESS AUSTENITIC CHROMIUM NICKEL STEEL STILL TUBES/FOR REFINERY SERICE/1.1 This specification covers grades of minimum-wall-thickness, seamless, hot-finished and cold-finished, austenitic chromium-nickel steel sill tubes as designated in Table 1 for use in carrying fluids at elevated temperatures and pressures in various types of heaters, in which the tubes may be subjected to a furnace temperature higher than that of the contained fluids./ | |
| A 312 / SA 312 / Seamless and Welded Austenitic Stainless Steel Pipe |
| ASTM A312-89a/ASME SA312/SEAMLESS AND WELDED AUSTENITIC STAINLESS STEEL PIPE/1.1 This specification covers grades of minimum-wall-thickness, seamless, hot-finished and cold-finished, austenitic chromium-nickel steel sill tubes as designated in Table 1 for use in carrying fluids at elevated temperatures and pressures in various types of heaters, in which the tubes may be subjected to a furnace temperature higher than that of the contained fluids./ | |
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