Hebei Haihao Group Huadian High Pressure Pipe Fittings Co., Ltd.

Technical

9% Nickel Steel Pipe and Fittings for Cryogenic LNG Service

How 9% nickel steel grades to ASTM A553 Type I and matching pipe to A333 Gr 8 enable LNG and cryogenic piping down to -196 degC, with buyer guidance.

May 30, 20268 min readHebei Haihao Group
不锈钢管.jpg
不锈钢管.jpg

Why this matters

LNG is stored and handled at around -162 degC, with safety margin pushing test temperatures to -196 degC (the boiling point of liquid nitrogen). At these temperatures, ordinary carbon steel and even 3.5% nickel steel become brittle. The industry standard for cryogenic LNG piping, plate and fittings is the 9% nickel steel family, codified in ASTM A553 Type I (plate), ASTM A333 Grade 8 (pipe) and ASTM A420 WPL8 (fittings).

Key technical facts

ASTM A553 Type I (9% nickel steel plate) typical chemistry and mechanical envelope:

PropertyValue
Carbon (C)0.13 max
Manganese (Mn)0.90 max (heat)
Phosphorus (P)0.015 max
Sulfur (S)0.015 max
Silicon (Si)0.15-0.40 (heat)
Nickel (Ni)8.50-9.50 (heat)
Tensile strengthApprox. 690-825 MPa
Yield strength585 MPa minimum
Elongation in 200 mm18% minimum
Test temperatureDown to -196 degC

ASTM A553 Type I is supplied in the double-normalized and tempered or quench-and-tempered condition. The matching pipe specification is ASTM A333 Grade 8 (also a 9% Ni steel) and the matching buttweld fittings are ASTM A420 Grade WPL8.

Decision matrix

Minimum design temperaturePipe / fitting / flange family
-46 degCA333 Gr 6 / A420 WPL6 / A350 LF2
-101 degCA333 Gr 3 / A420 WPL3 / A350 LF3
-196 degC (LNG)A333 Gr 8 / A420 WPL8 / A553 Type I (plate) / A522 forgings
Below -196 degCMove to austenitic stainless or aluminium alloys

Common procurement mistakes

  1. Confusing A553 (plate) with A333 (pipe) and A420 (fittings). Each scope is different; an LNG package needs all three.
  2. Skipping the impact test at the low temperature. A553 Type I is normally tested at -196 degC; verify that on the MTC for every plate, pipe and fitting.
  3. Ignoring magnetic permeability. 9% Ni steel is ferromagnetic and is sometimes confused with austenitic alloys; check magnetic property requirements with your engineering contractor.
  4. Mismatched filler metal. Welding 9% Ni typically uses Inconel-type (ERNiCrMo) filler metals to maintain cryogenic toughness; do not weld with carbon steel filler.
  5. Forgetting the strict surface defect criteria. Cryogenic plates and forgings have tighter UT and surface defect requirements than ambient-service equivalents.

Buyer checklist

  • Confirm ASTM A553 Type I, A333 Gr 8 or A420 WPL8 on the PO line, with the heat treatment condition (DNT or QT).
  • Verify Charpy V-notch impact values at -196 degC on every MTC.
  • For seamless butt-welding pipe fittings, confirm forging route, heat treatment cycle and the impact test on the broken Charpy specimens.
  • For pipe bends, confirm post-bending heat treatment maintains 9% Ni cryogenic properties.
  • For seamless steel pipes, confirm UT and surface inspection per supplementary requirements.
  • Cross-reference our certificates for cryogenic project track record.
  • Send your LNG enquiry through our inquiry form with full design temperature data.

Sources

  • https://energy-steel.com/an-overview-of-astm-a553-type-i-9-ni-steel-plate/
  • http://www.metalspiping.com/9-nickel-steel.html
  • https://masteel.co.uk/news/9-nickel-steel-lng-cryogenic-applications/

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