Nov 26, 2025 Kite yon mesaj

What is the difference between ASTM A671 and ASTM A672

What is the difference between ASTM A671 and ASTM A672?

1. Fundamental Standard Definitions

ASTM A671‌:
Electric-Fusion-Welded Steel Pipe for Atmospheric and Lower Temperature Service‌ (EFW pipe). Designed for ‌‌ (-196℃ to +50℃), such as LNG/liquid nitrogen. Mandatory ‌post-weld heat treatment-45℃ Charpy impact toughness‌ (e.g., >=27J for CL22 grade). Complements ‌A252 GR3‌ (structural piles with yield >=310MPa) in application scope.

ASTM A672‌:
Electric-Fusion-Welded Steel Pipe for High-Pressure Service at Moderate Temperatures‌ (EFW+HT pipe). Applicable to ‌high-pressure systems‌ (-29℃ to +343℃), including steam/chemical pipelines. All pipes require ‌‌ for dimensional stability under pressure.

2. Key Technical Contrasts

A671 Prioritizes Low-Temperature Toughness‌:
Chemical control (C<=0.25%, P<=0.035%, S<=0.035%) and normalized microstructure ensure crack resistance at -196℃ (LNG conditions). Uses ‌3LPE anti-corrosion coating‌ (upgraded from the 3PE discussed for A252 GR3).

A672 Focuses on High-Temperature Strength‌:
Creep resistance design for steam pipelines (e.g., 540℃/8.5MPa). Relies on ‌‌ (e.g., Inconel) instead of external coatings.

3. Divergent Applications

A671 Dominates Cryogenic Scenarios‌:
LNG terminals (e.g., Jiangsu Rudong LNG project) and liquid nitrogen tanks, where A252 GR3 piles would fail due to brittle fracture.

A672 Serves High-Pressure Systems‌:
Power plant steam lines (e.g., Three Gorges Dam) and chemical reactors, differing fundamentally from A252's structural pile use.

 

yield strength of ASTM A671

Yield Strength (N/mm2) Tensile Properties (N/mm2) Welding point tensile strength (N/mm2)
-/A45 -/165 -/310~450 -/30 -/310~450
-/A50 -/185 -/345~485 -/28 -/345~485
CA55 / A55 205 380~515 27 380~515
-/B55 -/205 -/380~515 -/27 -/380~515
CB60 / B60 220 415~550 25 415~550
CB65 / B65 240 450~585 23 450~585
CB70 / C70 260 485~620 21 485~620
-/C55 -/205 -/380~515 -/27 -/380~515
CC60/ C60 220 415~550 25 415~550
CC65 / C65 240 450~585 23 450~585
CC70 / C70 260 485~620 21 485~620

 

A671 EFW Pipe Specification

ASTM A671 Gr. CC60/ CC65/ CC70 LSAW / SAW / EFW Pipe
API SPEC 5L,GB/T 9711.1,GB/T 9711.2,GB/T 9711.3,SY/T5037
ASTM A671 Standard Specification for Electric-Fusion-Welded Steel Pipe for Atmospheric and Lower Temperatures
ASTM A672 Standard Specification for Electric-Fusion-Welded Steel Pipe for High-Pressure Service at Moderate Temperatures
Class 10, 11, 12, 13, 20, 21, 22, 23, 30, 31, 32, 33, 34, 40, 41, 42, 43, 50, 51, 52, 53, 60, 61, 62, 63, 70, 71, 72, 73.
12-64 inch
2-60mm
SCH10, SCH20, SCH30, STD, SCH40, SCH60, XS, SCH80, SCH100, SCH120, SCH140, SCH160, XXS
Single random length/Double random length 5m-14m,5.8m,6m,10m-12m,12m or as customer's actual request
Bare,Painting black,varnished,galvanized,anti-corrosion

 

Core Advantages of A671 welded pipe

Extreme Low-Temperature Toughness

By meeting the mandatory requirement of a Charpy impact energy >=27J at -45℃ (CL22 grade), it addresses the risk of brittle fracture in media such as LNG (-162℃) and liquid nitrogen (-196℃).

Strictly Controlled Chemical Composition: Phosphorus and sulfur content (P<=0.035%, S<=0.035%) suppresses the tendency for low-temperature brittleness.

High-Pressure Sealing Reliability

100% Non-Destructive Testing of Welds (RT/UT Full Coverage) eliminates defects such as cracks and lack of fusion.

Hydrostatic Testing Reaches 2.5 Times the Design Pressure (e.g., design pressure 10MPa → test pressure 25MPa) to ensure absolute sealing under cryogenic conditions.

Electrofusion Welding (EFW) combined with forced post-weld heat treatment (normalizing/quenching + tempering) eliminates residual stress and improves dimensional stability under low-temperature conditions.

 

Applications of A671 Electric Fusion Welded (efw) Steel Pipe


Receiving Terminal Transportation System (e.g., Rudong Project, Jiangsu):

→ Utilizes A671 CL22 steel pipe + 3LPE anti-corrosion layer for safe LNG transportation at -162℃.

→ Ship-to-shore connection pipes rely on the high toughness of A671 steel to resist wave impact.

Liquid Nitrogen Storage Tank Piping Network (-196℃):

→ A671 CL13 normalized steel pipe to avoid cryogenic phase transformation failure.

Equipped with nickel-based alloy linings (e.g., Inconel) to resist strong corrosion from liquid oxygen/liquid hydrogen.

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