Globe Valve ASTM A105

Characteristic
Globe valves are designed for flow control or on/ off isolation of fluids. a wide choice of metal body options and trims means globe valves are widely used throughout industry.

Specification
Class 150# , 300# , 600#
General Design : API 600, API 602, API 6D
Size : 1/ 4 ” to 28 “
Standard Ratings: 150LB, 300LB, 600LB, 900LB, 1500LB, 2500LB, JIS 10K, 20K, PN 10, PN 16
Material : ASTM A216 WCB, ASTM A105, ASTM A350-CF8

Related Valves:

Catalog Valves & Application

Valves

Ball Valve Trunnion & Floating
Ball valves come in two basic designs: floating ball and trunnion mounted. principally designed as an on/ off isolation valve for a very wide range of temperatures and pressures they have inherent quick opening flow characteristics. all ball valves offer compact actuation due to their rotary quarter-turn operation. fire safe versions are available for use in the oil and petrochemical industries.
Specification
Class 150# , 300# , 600#
General design : API 600, API 602, API 6D
Standard Ratings
. 150LB, 300LB, 600LB, 900LB, 1500LB, 2500LB, JIS 10K, 20K, PN 10, PN 16
Material : ASTM A216 WCB, ASTM A105, ASTM A350-CF8

Gate Valve
The most common and traditional type of valve. the valves are large enough to accommodate the yoke and stem mechanism, but fully open the full bore design provides an uninterrupted flow path. generally either used fully open or closed, for on/ off isolation, and not used for modulating flow control duties
Class: 150# , 300# , 600#
General Design : API 600, API 602, API 6D
Size : 1/ 4 ” to 28 “
Standard Ratings: 150LB, 300LB, 600LB, 900LB, 1500LB, 2500LB, JIS 10K, 20K, PN 10, PN 16
Material : ASTM A216 WCB, ASTM A105, ASTM A350-CF8

Globe Valve
Globe valves are designed for flow control or on/ off isolation of fluids. a wide choice of metal body options and trims means globe valves are widely used throughout industry.

Class 150# , 300# , 600#

General Design : API 600, API 602, API 6D
SIZE : 1/ 4 ” to 28 “
Standard Ratings
. 150LB, 300LB, 600LB, 900LB, 1500LB, 2500LB, JIS 10K, 20K, PN 10, PN 16
Material : ASTM A216 WCB, ASTM A105, ASTM A350-CF8

Check Valve Swing And Wafer
Class 150# , 300# , 600#
Check valves are commonly available in 2 types: swing check valves and wafer check valves that are available in a range of sizes and pressures. check valves are single-direction flow valves used to allow unlimited flow in one direction and to restrain flow in the opposite direction
Class 150# , 300# , 600#
General Design : API 600, API 602, API 6D
SIZE : 1/ 4 ” to 28 “
Standard Ratings: 150LB, 300LB, 600LB, 900LB, 1500LB, 2500LB, JIS 10K, 20K, PN 10, PN 16
Material : ASTM A216 WCB, ASTM A105, ASTM A350-CF8

Butterfly Valve
General Design : ASTM 216
Inspection Test : API 609
Size : 2 ” – 24 “
Rating : Class 150# – 300#
Material : ATSM A216, A395

Check Valve
General Design : API 594, API 600, API 602
Face to Face Standard : ANSI/ ASME B16.10
Inspection & Test : API 6D & API 598
Size : 1/ 2 ” to 16 “
Rating : Class 150# to Class 1500#
Material : ASTM A 216, ASTM A 105,
ASTM A 351, ASTM A182, etc

Globe Valve
General Design : API 600, BS 1873, API 602
Face to Face Standard : ANSI/ ASME B16.10
Inspection & Test : API 6D & API 598
Size : 1/ 2 ” to 12 “
Rating : Class 150# to Class 1500#
Material : ASTM A 216, ASTM A 105,
ASTM A 351, ASTM A182, etc

Gate Valve
General Design : API 600, API 602
Face to Face Standard : ANSI/ ASME B16.10
Inspection & Test : API 6D & API 598
Size : 1/ 2 ” to 24 “
Rating : Class 150# to Class 1500#
Material : ASTM A 216, ASTM A 105,
ASTM A 351, ASTM A182, etc

Knife Gate Valve
General Design : API 600, API 602
Face to Face Standard : ANSI/ ASME B16.10
Inspection & Test : API 6D & API 598
Size : 1/ 2 ” to 24 “
Rating : Class 150# to Class 1500#
Material : ASTM A 216, ASTM A 105,
ASTM A 351, ASTM A182, etc

Trunnion Ball Valve
General Design : API 6D
Face to Face Standard : ANSI/ ASME B16.10
Inspection & Test : API 6D & API 598
Size : 2 ” to 24 “
Rating : Class 150# to Class 1500#
Material : ASTM A216, ASTM A105,

Floating Ball Valve
General Design : API 6D
Face to Face Standard : ANSI/ ASME B16.10
Inspection & Test : API 6D & API 598
Size : 1/ 2 ” to 6 “
Rating : Class 150# to Class 600#
Material : ASTM A216, ASTM A105,

Y-Strainer Valve
General Design : ANSI/ ASME Standard
Inspection & Test : API 6D & API 598
Size : 2 ” to 12 “
Rating : Class 150# to Class 600#
Material : ASTM A 216,
ASTM A 351 , etc

Safety Valve
Steam Safety Type
Steam Safety Valve
High Pressure Safety Valve

Wafer Check Valve
General Design : API 594, API 6D Standard
Type : WAFER, LUG SOLID & SCALLOPED
Inspection & Test : API 6D & API 598
Size : 2 ” to 12 “
Rating : Class 150# to Class 900#
Material : Carbon Steel ASTM A 216 GR.WCB
Stainless Steel ASTM A 351 GR8/ CF8M , etc

ERW Pipe and Tubing

Supplier: Java Steel Pipeline

ERW Pipe

Description
Java Steel Pipeline provide Electric Resistance Welded Pipe or ERW Pipe  suitable for your project needs. ERW Pipe cold formed from a ribbon of steel pulled through a series of rollers and formed into a tube which is fused through a electric charge as per IS1239 or IS3589. Usully for high diameter. Common sizes for ERW steel pipe range from 2 3/8 inch OD to 24 inch OD in a variety of lengths to over 100 feet. surface finishes are available in bare and coated formats and processing can be handled on site to customer specification.

The Difference between ERW and Seamless Pipe
ERW pipe is manufactured by rolling metal and then welding it longitudinally across its length. Seamless pipe is manufactured by extruding the metal to the desired length, hence ERW pipe has a welded joint in its cross-section, while seamless pipe does not have any joint in its cross-section through-out its length.

Standard

ASTM A 53 (A),
BS 1387:1985 Heavy Series (H),
BS EN 10255:2004 (E),
JIS G 3444 STK 290, JIS G 3444 STK 400,
JIS G 3452 SGP Black And Galvanized Pipe
JIS G 3454 STPG 370,
SNI-07-0068-1987 PKB 30,
SNI-07-0068-1987 PKB 41.

Chemical Composition
Carbon (C) : 0.25 % max
Phosphor (p) : 0.05 % max
Sulfur (s) : 0.045 % max

Mechanical Properties
Tensile Strength : 330 N/mm
Yield Strenth : 205 N/mm
Elongation : 22 % min

Tolerance
Thickness : ± 12.5 %
Length : ± 2 %
Outside Diameter
OD = 48.3 mm : ± 0.4 mm
OD = 60.3 mm : ± 1 %
Standar length of Pipe : 6000 mm

Application
Furniture pipe, gas pipe, industrial pipe,scaffolding steger, petroleum, power, chemical and medical equipment, foodstuff, papermaking ,aviation, smelting, boiler heat ,shipbuilding, metallurgy etc

SNI – 07 – 0039 – 1987 (Medium)
Galvanized Pipe
Chemical composition
Phosphor (p) : 0.05 % max
Sulfur (s) : 0.05 % max

Mechanical Properties
Tensile Strength : 33 Kgf/mm
Elongation: 20 % min

Tolerance
Thickness : + Unlimited – 10%
Length : ± 2 %
Weight with zinc : 300 gr/m
Standard length of pipe : 6000 mm
Test Pressure; 710 Psi, 50 Kgf/cm2

Availability

1/4 inch OD to 6 inch OD (Outside Diameter)

Pipa 36″ A252 or A120 Sch 20, Spiral @ 6mtr
Pipa 34″ A252 or A120 Sch 20, Spiral @ 6mtr
Pipa 32″ A252 or A120 Sch 20, Spiral @ 6mtr
Pipa 24″ A252 or A120 Sch 20, ERW or Spiral @ 6mtr
Pipa 18″ A252 or A120 Sch 20, ERW or Spiral @ 6mtr

ERW Tubing

ERW tubing or Electric Resistance Welded tubing is not as strong as DOM tubing or Drawn Over Mandrel tubing. Usually when tube is made, it starts off as a flat sheet and this is rolled up into a tube and welded. DOM tubing is usually made the same way but there is an extra process where this tube is drawn through a die along with a mandrel to control the outer and inner diameters of the tube. This extra process strengthens the steel since it is cold formed by up to 20%. Another type of common tubing is Chrome-Moly also known as Chromium / Molybdenum Steel. This type of steel also uses the same process but has these additional elements within the steel alloy which increase strength even more. Chrome-Moly is usually used in tubing for cars and other applications over 3500 lbs.

ERW API Casing

Standards: API 5CT
Grade:J55,K55, L80, N80,P110
Specification:219.08-508mm*7.72-16.66mm(8 5/8″-20″*0.304″-0.656″)
End type: P,PS,PSLB,PSB,PLB,
Uses: casing serves as wall of a well

ERW Structural Pipe
Standards: ASTM A53M, JIS G3466
Grade: GR.A,GR.B, STKR400,STKR490
Specification: 219.1-630mm*4-20mm(8 5/8″-24 4/5″*0.157″-0.787″)
Uses: structural pipe is suitable for mechanical and pressure applications and low pressure liquid delivery and other purposes

Related Seamless Pipe & Welded:

Pipa Schedule 40 Seamless

Kami menjual Seamless Pipe Schedule 80 ASTM/JIS/ ANSI Standard dengan berbagai standard, jenis dan ukuran. Hubungi Marketing kami:
E-mail: sales@javasteelpipe.com
Mobile: 0821 1454 2226

Description
Kategori: Seamless Pipe
Material: Carbon Steel
Grade: A106 ASTM, API 5L, Gr.B, SCH40
Certification: API 5L PSL2, API 5CT, EN10217 -1, 2, 5.
Technique: Hot Rolled
Surface Treatment: Galvanized/Non
Schedule: SCH 40
Type: SMLS
Conection: PE or BE
Size (Inch) : 1/2 to 16 (as below)

Tabel Ukuran, Spesifikasi dan Berat Nominal Pipa Schedule 40

Size Ø Diameter (mm) Tebal
Product (Inch) Luar Dalam (mm) Weight(kg)
Pipa Sch40 1/2 21.7 16.1 2.8 7.86
Pipa Sch40 3/4 27.2 21.4 2.9 10.44
Pipa Sch40 1 34 27.2 3.4 15.42
Pipa Sch40 1 1/4 42.7 35.5 3.6 20.82
Pipa Sch40 1 1/2 48.6 41.2 3.7 24.6
Pipa Sch40 2 60.5 52.7 3.9 32.64
Pipa Sch40 2 1/2 76.3 65.9 5.2 54.72
Pipa Sch40 3 89.1 78.1 5.5 67.8
Pipa Sch40 4 114.3 102.3 6 96
Pipa Sch40 5 139.8 126.6 6.6 130.2
Pipa Sch40 6 165.2 151 7.1 166.2
Pipa Sch40 8 216.3 199.9 8.2 252.6
Pipa Sch40 10 267.4 248.8 9.3 355.2
Pipa Sch40 12 318.5 297.9 10.3 469.8
Pipa Sch40 14 355.6 333.4 11.1 565.8
Pipa Sch40 16 406.4 381 12.7 738

Related Seamless Pipe & Welded:

Distributor: Java Steel Pipe

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Pipa Schedule 80 Seamless

Kami menjual Seamless Pipe Schedule 80 ASTM/JIS/ ANSI Standard dengan berbagai standard, jenis dan ukuran. Hubungi Marketing kami:
E-mail: sales@javasteelpipe.com
Mobile: 0821 1454 2226


Tabel Ukuran, Spesifikasi dan Berat Nominal Pipa Schedule 80

Size Diameter (mm) Thick Weight
Product Ø (Inch) Outer Inner (mm) (kg)
Schedule 80 1/2 21.7 14.3 3.7 9.84
Schedule 80 3/4 27.2 19.4 3.9 13.44
Schedule 80 1 34 25 4.5 19.62
Schedule 80 1 1/4 42.7 32.9 4.9 27.42
Schedule 80 1 1/2 48.6 38.4 5.1 32.82
Schedule 80 2 60.5 49.5 5.5 44.76
Schedule 80 2 1/2 76.3 62.3 7 72
Schedule 80 3 89.1 73.9 7.6 91.8
Schedule 80 4 114.3 97.1 8.6 134.4
Schedule 80 5 139.8 120.8 9.5 183
Schedule 80 6 165.2 143.2 11 250.8
Schedule 80 8 216.3 190.9 12.7 382.8
Schedule 80 10 267.4 237.2 15.1 563.4
Schedule 80 12 318.5 283.7 17.4 774
Schedule 80 14 355.6 317.6 19 948
Schedule 80 16 406.4 363.6 21.4 1218

Specification
Kategori: Seamless Pipe
Material: Carbon Steel
Grade: A106 ASTM, API 5L, Gr.B, SCH40
Certification: API 5L PSL2, API 5CT, EN10217 -1, 2, 5.
Technique: Hot Rolled
Surface Treatment: Galvanized/Non
Schedule: SCH 80
Type: SMLS
Conection: PE or BE
Size (Inch) : 1/2 to 16 (as Table)

Aplikasi:

Structure Pipe, Penyaluran fluida bertekanan rendah dan menengah, Pipa boiler, Industri minyak dan gas, Industri kimia, Industri listrik, drainase, bangunan dan struktur, Jaringan pipa

Related Seamless Pipe & Welded:

Suplied by: Java Steel Pipeline

Penelusuran Terkait: Javasteelpipe distributor Pipa Schedule 80,ukuran pipa schedule 80,jual pipa seamless schedule 80, harga pipa schedule 80,seamless pipe schedule 80,penjual pipa seamless jakarta,agen pipa schedule indonesia

Ductile Iron Pipe

Java Steel Pipe is the primary suplier & Reseller for Saint Gobain’s Pont a Mousson ductile iron and cast iron products for AWWA and UL/FM projects in Indonesia. Products include Cast iron soil and drain and rainwater systems, Ductile Iron water and sewer pipes, fittings, valves and couplings & adaptors, Ductile iron access covers and gratings, hydrants, and waste water and drainage for the water works industry

Overview

Ductile iron pipe, also known as ductile cast iron, nodular cast iron, spheroidal graphite iron, spherulitic graphite cast iron or SG iron, is a type of cast iron which has had historic use as a pressure pipe for transmission of water, gas and sewage, and as a water drainage pipe

Since its introduction into the marketplace in 1955, Ductile Iron pipe has been recognized as the industry standard for modern water and waste water systems. More than four decades of field experience have proven its strength, durability, and reliability for transporting raw and potable water, sewage, slurries, and process chemicals.

Characteristic

Ductile Iron’s improved qualities are derived from an improved manufacturing process that changes the character of the graphite content of the iron. Ductile Iron’s graphite form is spheroidal, or nodular, instead of the flake form found in Cast Iron. This change in graphite form is accomplished by adding an inoculant, usually magnesium, to molten iron of appropriate composition during manufacture.

Due to its spheroidal graphite form, Ductile Iron has approximately twice the strength of Cast Iron as determined by tensile, beam, ring bending, and bursting tests. Its impact strength and elongation are many times greater than Cast Iron’s.

Ductile’s high degree of dependability is primarily due to its high strength, durability, and impact and corrosion resistance. Ductile Iron has minimum strength requirements of 60,000 psi tensile strength, 42,000 psi yield strength, and 10 percent minimum elongation. Designed and manufactured to the industry’s most stringent standards, Ductile Iron pipe resists damage during shipping and handling, and, once installed, withstands the most demanding operating conditions, including water hammer, frozen ground, deep trenches, areas of high water table and heavy traffic, river crossings, pipe on supports, rocky trenches, and areas of shifting, expansive, and unstable soils. Additionally, numerous laboratory and field tests have proven that Ductile Iron’s corrosion resistance is equal to or greater than that of Cast Iron, which has a service history that is unequaled by any other piping material

Stronger and Tougher than Cast Iron for Unmatched Dependability

Ductile Iron not only retains all of Cast Iron’s attractive qualities, such as machinability and corrosion resistance, but also provides additional strength, toughness, and ductility. It is lighter, stronger, more durable and more cost effective than Cast Iron.

Although its chemical properties are similar to those of Cast Iron, Ductile Iron incorporates significant casting refinements, additional metallurgical processes, and superior quality control.

Applications

Ductile iron is specifically useful in many automotive components, where strength needs surpass that of aluminum but do not necessarily require steel. Other major industrial applications include off-highway diesel trucks, Class 8 trucks, agricultural tractors, and oil well pumps.

Related Seamless Pipe & Welded:

Penelusuran terkait: ductile iron pipe dimensions, ductile iron pipe fittings, ductile iron pipe prices, ductile iron pipe weight

Catalog Steel Pipe & Application

Pipe Grade

Application

A53 – A53/A53M-99b - Steel for Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and Seamless
A74 – A74-98 - Steel pipe for Cast Iron Soil Pipe and Fittings
A106 – A106-99e1 - Steel pipe for Seamless Carbon Steel Pipe for High-Temperature Service
A126 – A126-95e1 - Specification for Grey Iron Castings for Valves, Flanges, and Pipe Fittings
A134 – A134-96 - Specification for Pipe, Steel, Electric-Fusion (Arc)-Welded (Sizes NPS 16 and Over)
A135 – A135-97c - Specification for Electric-Resistance-Welded Steel Pipe
A139 – A139-96e1 - Specification for Electric-Fusion (Arc)-Welded Steel Pipe (NPS 4 and Over)
A182 – A182/A182M-99 - Specification for Forged or Rolled Alloy-Steel Pipe Flanges, Forged Fittings, and Valves and Parts for High-Temperature Service
A252 – A252-98 - Specification for Welded and Seamless Steel Pipe Piles
A312 – A312/A312M-00 - Specification for Seamless and Welded Austenitic Stainless Steel Pipes
A333 – A333/A333M-99 - Specification for Seamless and Welded Steel Pipe for Low-Temperature Service
A335 – A335/A335M-99 - Specification for Seamless Ferritic Alloy-Steel Pipe for High-Temperature Service
A338 – A338-84 (1998) - Specification for Malleable Iron Flanges, Pipe Fittings, and Valve Parts for Railroad, Marine, and Other Heavy Duty Service at Temperatures Up to 650�F (345�C)
A358 – A358/A358M-98 - Specification for Electric-Fusion-Welded Austenitic Chromium-Nickel Alloy Steel Pipe for High-Temperature Service
A369 – A369/A369M-92 - Specification for Carbon and Ferritic Alloy Steel Forged and Bored Pipe for High-Temperature Service
A376 – A376/A376M-98 - Specification for Seamless Austenitic Steel Pipe for High-Temperature Central-Station Service
A377 – A377-99 - Index of Specifications for Ductile-Iron Pressure Pipe
A409 – A409/A409M-95ae1 Specification for Welded Large Diameter Austenitic Steel Pipe for Corrosive or High-Temperature Service
A426 – A426-92 (1997) - Specification for Centrifugally Cast Ferritic Alloy Steel Pipe for High-Temperature Service
A451 – A451-93 (1997) - Specification for Centrifugally Cast Austenitic Steel Pipe for High-Temperature Service
A523 – A523-96 - Specification for Plain End Seamless and Electric-Resistance-Welded Steel Pipe for High-Pressure Pipe-Type Cable Circuits
A524 – A524-96 - Specification for Seamless Carbon Steel Pipe for Atmospheric and Lower Temperatures
A530 – A530/A530M-99 - Specification for General Requirements for Specialized Carbon and Alloy Steel Pipe
A648 – A648-95e1 - Specification for Steel Wire, Hard Drawn for Pre-stressing Concrete Pipe
A674 – A674-95 - Practice for Polyethylene Encasement for Ductile Iron Pipe for Water or Other Liquids
A691 – A691-98 - Specification for Carbon and Alloy Steel Pipe, Electric-Fusion-Welded for High-Pressure Service at High Temperatures
A694 – A694/A694M-00 - Specification for Carbon and Alloy Steel Forgings for Pipe Flanges, Fittings, Valves, and Parts for High-Pressure Transmission Service
A716 – A716-99 - Specification for Ductile Iron Culvert Pipe
A733 – A733-99 - Specification for Welded and Seamless Carbon Steel and Austenitic Stainless Steel Pipe Nipples
A742 – A742/A742M-98 - Specification for Steel Sheet, Metallic Coated and Polymer Pre-coated for Corrugated Steel Pipe
A746 – A746-99 - Specification for Ductile Iron Gravity Sewer Pipe
A760 – A760/A760M-99 - Specification for Corrugated Steel Pipe, Metallic-Coated for Sewers and Drains
A761 – A761/A761M-98 - Specification for Corrugated Steel Structural Plate, Zinc-Coated, for Field-Bolted Pipe, Pipe-Arches, and Arches
A762 – A762/A762M-98 - Specification for Corrugated Steel Pipe, Polymer Pre-coated for Sewers and Drains
A790 – A790/A790M-99 - Specification for Seamless and Welded Ferritic/Austenitic Stainless Steel Pipe
A796 – A796/A796M-99 - Practice for Structural Design of Corrugated Steel Pipe, Pipe-Arches, and Arches for Storm and Sanitary Sewers and Other Buried Applications
A798 – A798/A798M-97a - Practice for Installing Factory-Made Corrugated Steel Pipe for Sewers and Other Applications
A807 – A807/A807M-97 - Practice for Installing Corrugated Steel Structural Plate Pipe for Sewers and Other Applications
A810 – A810-94 - Specification for Zinc-Coated (Galvanized) Steel Pipe Winding Mesh
A813 – A813/A813M-95e2 - Specification for Single- or Double-Welded Austenitic Stainless Steel Pipe
A814 – A814/A814M-96 (1998) - Specification for Cold-Worked Welded Austenitic Stainless Steel Pipe
A849 – A849-99 - Specification for Post-Applied Coatings, Pavings, and Linings for Corrugated Steel Sewer and Drainage Pipe
A861 – A861-94e1 - Specification for High-Silicon Iron Pipe and Fittings
A862 – A862/A862M-98 - Practice for Application of Asphalt Coatings to Corrugated Steel Sewer and Drainage Pipe
A865 – A865-97 - Specification for Threaded Couplings, Steel, Black or Zinc-Coated (Galvanized) Welded or Seamless, for Use in Steel Pipe Joints
A872 – A872-91 (1997) - Specification for Centrifugally Cast Ferritic/Austenitic Stainless Steel Pipe for Corrosive Environments
A885 – A885/A885M-96 - Specification for Steel Sheet, Zinc and Aramid Fiber Composite Coated for Corrugated Steel Sewer, Culvert, and Underdrain Pipe
A888 – A888-98e1 - Specification for Hubless Cast Iron Soil Pipe and Fittings for Sanitary and Storm Drain, Waste, and Vent Piping Applications
A926 – A926-97 - Test Method for Comparing the Abrasion Resistance of Coating Materials for Corrugated Metal Pipe
A928 – A928/A928M-98 - Specification for Ferritic/Austenitic (Duplex) Stainless Steel Pipe Electric Fusion Welded with Addition of Filler Metal
A929 – A929/A929M-97 - Specification for Steel Sheet, Metallic-Coated by the Hot-Dip Process for Corrugated Steel Pipe
A930 – A930-99 - Practice for Life-Cycle Cost Analysis of Corrugated Metal Pipe Used for Culverts, Storm Sewers, and Other Buried Conduits
A943 – A943/A943M-95e1 - Specification for Spray-Formed Seamless Austenitic Stainless Steel Pipes
A949 – A949/A949M-95e1 - Specification for Spray-Formed Seamless Ferritic/Austenitic Stainless Steel Pipe
A954 – A954-96 - Specification for Austenitic Chromium-Nickel-Silicon Alloy Steel Seamless and Welded Pipe
A972 – A972/A972M-99 - Specification for Fusion Bonded Epoxy-Coated Pipe Piles
A978 – A978/A978M-97 - Specification for Composite Ribbed Steel Pipe, Precoated and Polyethylene Lined for Gravity Flow Sanitary Sewers, Storm Sewers, and Other Special Applications
A984 – A984/A984M-00 - Specification for Steel Line Pipe, Black, Plain-End, Electric-Resistance-Welded
A998 – A998/A998M-98 - Practice for Structural Design of Reinforcements for Fittings in Factory-Made Corrugated Steel Pipe for Sewers and Other Applications
A999 – A999/A999M-98 - Specification for General Requirements for Alloy and Stainless Steel Pipe
A1005 – A1005/A1005M-00 - Specification for Steel Line Pipe, Black, Plain End, Longitudinal and Helical Seam, Double Submerged-Arc Welded
A1006 – A1006/A1006M-00 - Specification for Steel Line Pipe, Black, Plain End, Laser Beam Welded

»

Pipe Grade

Application

A134 – A134-96 For Pipe, Steel, Electric-Fusion (Arc)-Welded (Sizes NPS 16 and Over)
A135 – A135-97c For Electric-Resistance-Welded Steel Pipe (ERW)
A139 – A139-96e1 For Electric-Fusion (Arc)-Welded Steel Pipe (NPS 4 and Over)
A182 – A182/A182M-99 For Forged or Rolled Alloy-Steel Pipe Flanges, Forged Fittings, and Valves and Parts for High-Temperature Service
A252 – A252-98 For Welded and Seamless Steel Pipe Piles
A312 – A312/A312M-00 For Seamless and Welded Austenitic Stainless Steel Pipes
A333 – A333/A333M-99 For Seamless and Welded Steel Pipe for Low-Temperature Service
A335 – A335/A335M-99 For Seamless Ferritic Alloy-Steel Pipe for High-Temperature Service
A338 – A338-84 (1998) For Malleable Iron Flanges, Pipe Fittings, and Valve Parts for Railroad, Marine, and Other Heavy Duty Service at Temperatures Up to 650�F (345�C)
A358 – A358/A358M-98 For Electric-Fusion-Welded Austenitic Chromium-Nickel Alloy Steel Pipe for High-Temperature Service
A369 – A369/A369M-92 For Carbon and Ferritic Alloy Steel Forged and Bored Pipe for High-Temperature Service
A376 – A376/A376M-98 For Seamless Austenitic Steel Pipe for High-Temperature Central-Station Service
A377 – A377-99 For Ductile-Iron Pressure Pipe
A409 – A409/A409M-95ae1 For Welded Large Diameter Austenitic Steel Pipe for Corrosive or High-Temperature Service
A426 – A426-92 (1997) For Centrifugally Cast Ferritic Alloy Steel Pipe for High-Temperature Service
A451 – A451-93 (1997) For Centrifugally Cast Austenitic Steel Pipe for High-Temperature Service
A523 – A523-96 For Plain End Seamless and Electric-Resistance-Welded Steel Pipe for High-Pressure Pipe-Type Cable Circuits
A524 – A524-96 For Seamless Carbon Steel Pipe for Atmospheric and Lower Temperatures
A530 – A530/A530M-99 For General Requirements for Specialized Carbon and Alloy Steel Pipe
A648 – A648-95e1 For Steel Wire, Hard Drawn for Pre-stressing Concrete Pipe
A674 – A674-95 For Polyethylene Encasement for Ductile Iron Pipe for Water or Other Liquids
A691 – A691-98 For Carbon and Alloy Steel Pipe, Electric-Fusion-Welded for High-Pressure Service at High Temperatures
A694 – A694/A694M-00 For Carbon and Alloy Steel Forgings for Pipe Flanges, Fittings, Valves, and Parts for High-Pressure Transmission Service
A716 – A716-99 For Ductile Iron Culvert Pipe
A733 – A733-99 For Welded and Seamless Carbon Steel and Austenitic Stainless Steel Pipe Nipples
A742 – A742/A742M-98 For Steel Sheet, Metallic Coated and Polymer Pre-coated for Corrugated Steel Pipe
A746 – A746-99 For Ductile Iron Gravity Sewer Pipe
A760 – A760/A760M-99 For Corrugated Steel Pipe, Metallic-Coated for Sewers and Drains
A761 – A761/A761M-98 For Corrugated Steel Structural Plate, Zinc-Coated, for Field-Bolted Pipe, Pipe-Arches, and Arches
A762 – A762/A762M-98 For Corrugated Steel Pipe, Polymer Pre-coated for Sewers and Drains
A790 – A790/A790M-99 For Seamless and Welded Ferritic/Austenitic Stainless Steel Pipe
A796 – A796/A796M-99 Practice for Structural Design of Corrugated Steel Pipe, Pipe-Arches, and Arches for Storm and Sanitary Sewers and Other Buried Applications
A798 – A798/A798M-97a Practice for Installing Factory-Made Corrugated Steel Pipe for Sewers and Other Applications
A807 – A807/A807M-97 Practice for Installing Corrugated Steel Structural Plate Pipe for Sewers and Other Applications
A810 – A810-94 For Zinc-Coated (Galvanized) Steel Pipe Winding Mesh
A813 – A813/A813M-95e2 For Single- or Double-Welded Austenitic Stainless Steel Pipe
A814 – A814/A814M-96 (1998) For Cold-Worked Welded Austenitic Stainless Steel Pipe
A849 – A849-99 For Post-Applied Coatings, Pavings, and Linings for Corrugated Steel Sewer and Drainage Pipe
A861 – A861-94e1 For High-Silicon Iron Pipe and Fittings
A862 – A862/A862M-98 Practice for Application of Asphalt Coatings to Corrugated Steel Sewer and Drainage Pipe
A865 – A865-97 For Threaded Couplings, Steel, Black or Zinc-Coated (Galvanized) Welded or Seamless, for Use in Steel Pipe Joints
A872 – A872-91 (1997) For Centrifugally Cast Ferritic/Austenitic Stainless Steel Pipe for Corrosive Environments
A885 – A885/A885M-96 For Steel Sheet, Zinc and Aramid Fiber Composite Coated for Corrugated Steel Sewer, Culvert, and Underdrain Pipe
A888 – A888-98e1 For Hubless Cast Iron Soil Pipe and Fittings for Sanitary and Storm Drain, Waste, and Vent Piping Applications
A926 – A926-97 Test Method for Comparing the Abrasion Resistance of Coating Materials for Corrugated Metal Pipe
A928 – A928/A928M-98 For Ferritic/Austenitic (Duplex) Stainless Steel Pipe Electric Fusion Welded with Addition of Filler Metal
A929 – A929/A929M-97 For Steel Sheet, Metallic-Coated by the Hot-Dip Process for Corrugated Steel Pipe
A930 – A930-99 Practice for Life-Cycle Cost Analysis of Corrugated Metal Pipe Used for Culverts, Storm Sewers, and Other Buried Conduits
A943 – A943/A943M-95e1 For Spray-Formed Seamless Austenitic Stainless Steel Pipes
A949 – A949/A949M-95e1 For Spray-Formed Seamless Ferritic/Austenitic Stainless Steel Pipe
A954 – A954-96 For Austenitic Chromium-Nickel-Silicon Alloy Steel Seamless and Welded Pipe
A972 – A972/A972M-99 For Fusion Bonded Epoxy-Coated Pipe Piles
A978 – A978/A978M-97 For Composite Ribbed Steel Pipe, Precoated and Polyethylene Lined for Gravity Flow Sanitary Sewers, Storm Sewers, and Other Special Applications
A984 – A984/A984M-00 For Steel Line Pipe, Black, Plain-End, Electric-Resistance-Welded
A998 – A998/A998M-98 Practice for Structural Design of Reinforcements for Fittings in Factory-Made Corrugated Steel Pipe for Sewers and Other Applications
A999 – A999/A999M-98 For General Requirements for Alloy and Stainless Steel Pipe
A1005 – A1005/A1005M-00 For Steel Line Pipe, Black, Plain End, Longitudinal and Helical Seam, Double Submerged-Arc Welded
A1006 – A1006/A1006M-00 For Steel Line Pipe, Black, Plain End, Laser Beam Welded

* The number indicates yield strength in MPa

Related Seamless Pipe & Welded:

Ikuti

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