AWS D1.1:2025 · Table 5.11 · Category C

A1066 Gr.70 Preheat for SAW — over 2-1/2"

Minimum preheat and interpass temperature for A1066 Gr.70 welded with SAW at over 2-1/2" thickness, per AWS D1.1:2025 Table 5.11.

Minimum Preheat & Interpass Temperature

300°F / 150°C

Category C
Low-hydrogen SMAW, SAW, GMAW, or FCAW process (higher-strength steels)

AWS D1.1:2025 Table 5.11, §5.7

Reference tool. Verify against project-applicable edition and Engineer-approved WPS.

About SAW

SAW (Submerged Arc Welding)

SAW submerges the arc beneath granular flux for highest deposition rates, flat/horizontal only. Category B in Table 5.11.

SAW on high-strength plate requires careful selection of wire-flux combinations to meet both tensile matching and toughness requirements. F8A4-EA2 or similar high-performance combinations serve Category C steels. Heat input control is particularly important on TMCP grades because SAW naturally deposits high heat input due to the deeply penetrating arc.

High-Strength and TMCP Steels

A1066 Gr.70

ASTM A1066 Grade 70 (70 ksi yield, 85 ksi minimum tensile) is the highest-strength grade in this specification, produced as quenched-and-tempered or TMCP plate for demanding bridge and structural applications. It falls under Category C in Table 5.11 but notably does not qualify for any H8 reduced-preheat category — unlike Grades 50/60/65, Grade 70 must use full Category C preheat regardless of consumable hydrogen designation. This distinction exists because the higher alloying level needed for 70 ksi yield pushes the CE-IIW to approximately 0.48-0.54, a range where even H8 hydrogen control is not sufficient to offset the hardenability-driven cracking risk at reduced preheat. Fabricators working with A1066 Gr.70 should budget for full Category C preheating time on every joint, with no H8 shortcut available.

A1066 Gr.70 + SAW

Why This Preheat for A1066 Gr.70 with SAW

Highest-strength A1066 at 70 ksi with no H8 preheat reduction available. The higher strength level of this steel places it in Category C of Table 5.11, which carries elevated preheat requirements compared to Category B grades. At 300°F minimum with SAW, the preheat ensures the cooling rate stays slow enough to prevent hydrogen-induced cracking in this higher-hardenability material. Category C steels demand careful attention to interpass temperature control throughout the weld sequence.

Where A1066 Gr.70 Is Used

Typical Applications for A1066 Gr.70

Used in the most demanding bridge and structural applications: main girder flanges on record-span bridges, arch rib plates, suspension bridge stiffening truss chords, and heavy industrial crane runway girders. A1066 Gr.70 does not qualify for any H8 reduced preheat, so full Category C preheat must be applied regardless of consumable certification. This makes preheat management the primary production consideration for heavy-section joints where flange thicknesses of 2-4" are common. Fabrication bid costs for A1066 Gr.70 components must account for the full Category C preheat time in their labor estimates — typically 45-90 minutes per joint on plate over 2". Unlike Grades 50 and 60/65, there is no consumable-based path to reduce preheat duration on Gr.70 joints. Bridge fabrication shops working with this grade maintain dedicated preheat logs and temperature monitoring records for every CJP and PJP weld as part of their quality management system.

Thickness: over 2-1/2"

Why Preheat Matters at over 2-1/2"

The heaviest sections demand the highest preheat in Table 5.11. Multi-pass sequences require maintaining interpass temperature throughout.

High-Strength Steel Considerations

Category C Preheat for A1066 Gr.70

Category C in Table 5.11 applies to higher-strength steels where the combination of hardenability and residual stress requires elevated preheat. For A1066 Gr.70 at over 2-1/2", the 300°F minimum preheat slows the weld cooling rate to prevent formation of crack-susceptible martensite in the heat-affected zone. Maintaining interpass temperature at or above this minimum is especially critical for multi-pass welds on restrained joints.

Compare Steels

Other Steels with SAW at over 2-1/2"

Steel	Category	Preheat
A36	B	225°F (110°C)
A53 Gr.B	B	225°F (110°C)
A106 Gr.B	B	225°F (110°C)
A633 Gr.E	C	300°F (150°C)

Other Thicknesses

A1066 Gr.70 with SAW

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Use the interactive preheat calculator to look up any steel, process, and thickness combination from D1.1:2025 Table 5.11.

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A1066 Gr.70 Welding Guides

FAQ

What is the minimum preheat for A1066 Gr.70 with SAW at over 2-1/2"?

For A1066 Gr.70 welded with SAW at over 2-1/2" thickness, the minimum preheat temperature is 300°F (150°C) per AWS D1.1:2025 Table 5.11, Category C. This is also the minimum interpass temperature — the joint must not cool below 300°F between passes.

What Table 5.11 category applies to A1066 Gr.70 with SAW?

A1066 Gr.70 welded with SAW falls under Category C in AWS D1.1:2025 Table 5.11. Low-hydrogen SMAW, SAW, GMAW, or FCAW process (higher-strength steels). At over 2-1/2" thickness, this category requires a minimum preheat of 300°F (150°C).

Why is preheat 300°F for A1066 Gr.70 at over 2-1/2"?

The 300°F preheat for A1066 Gr.70 at over 2-1/2" with SAW reflects the combination of the steel's hardenability and the increased restraint at this thickness. Higher preheat slows the cooling rate in the heat-affected zone, giving diffusible hydrogen more time to escape before the steel transforms to a crack-susceptible microstructure.

How do I maintain preheat on very thick plate?

For material over 2-1/2”, preheat is typically applied with oxy-fuel torches or electric resistance blankets and monitored with contact thermometers or temp-sticks. The entire weld zone must reach the minimum temperature before welding begins, and interpass temperature is checked before each new pass. Insulating blankets help retain heat during pauses in multi-pass welding.

D1.1:2025 reference data. Not affiliated with AWS.