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

A709 HPS70W Preheat for GMAW — 1-1/2" to 2-1/2"

Minimum preheat and interpass temperature for A709 HPS70W welded with GMAW at 1-1/2" to 2-1/2" thickness, per AWS D1.1:2025 Table 5.11.

Minimum Preheat & Interpass Temperature

225°F / 110°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 GMAW

GMAW (Gas Metal Arc Welding)

GMAW (MIG) feeds continuous solid wire with shielding gas — an inherently low-hydrogen process assigned to Category B in Table 5.11.

On high-strength plate, GMAW wire selection must meet the specified minimum tensile to satisfy weld metal matching. ER80S-D2 or ER100S-G wires serve higher-strength steels. The inherently low hydrogen input of solid wire makes GMAW particularly well-suited for crack-sensitive TMCP grades where minimizing diffusible hydrogen is the primary fabrication objective.

High-Strength and TMCP Steels

A709 HPS70W

ASTM A709 HPS70W is the highest-strength weathering bridge steel with 70 ksi minimum yield and 85-110 ksi tensile range, used in long-span bridges and heavily loaded members where weight reduction is critical. Produced as quenched-and-tempered plate in thicknesses up to 4", its high strength places it in Category C of Table 5.11 with correspondingly higher preheat requirements. Table 5.11 footnote (b) sets a maximum preheat/interpass of 400°F for thickness up to 1-1/2” and 450°F for thicker material — this upper limit is unusual in D1.1 and exists because the Q&T microstructure can be degraded by excessive heat. The chemistry includes copper (0.25-0.40%), nickel (0.65-1.00%), and chromium (0.40-0.65%) for atmospheric corrosion resistance, with 0.19% max carbon keeping the CE-IIW in the 0.46-0.52 range.

A709 HPS70W + GMAW

Why This Preheat for A709 HPS70W with GMAW

Highest-strength 70 ksi weathering bridge steel for long-span applications. 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 225°F minimum with GMAW, 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 A709 HPS70W Is Used

Typical Applications for A709 HPS70W

Reserved for long-span bridge main girder flanges, cable-stayed bridge edge girders, arch rib plates, high-load interchange ramp girders, and situations where reducing member depth saves clearance or reduces dead load. HPS70W enables weight savings of 20-30% versus conventional Gr.50 designs, allowing shallower girder sections that reduce embankment costs on grade-separation bridges. Flange thickness often exceeds 2”, making preheat and interpass control critical at every CJP splice and web-to-flange joint. Note that Table 5.11 footnote (b) sets maximum preheat and interpass limits of 400°F for thicknesses up to 1-1/2" and 450°F above. This upper limit is unusual in D1.1 and requires monitoring both minimum and maximum interpass throughout the welding sequence. Fabricators must use dual-readout temperature monitoring to ensure the joint stays within the qualified band. Filler metals must match the 70 ksi minimum tensile while providing weathering-compatible chemistry for exposed joints.

Thickness: 1-1/2" to 2-1/2"

Why Preheat Matters at 1-1/2" to 2-1/2"

Heavy plate with significant restraint and thermal mass — preheat is critical to maintain slow cooling for hydrogen escape.

High-Strength Steel Considerations

Category C Preheat for A709 HPS70W

Category C in Table 5.11 applies to higher-strength steels where the combination of hardenability and residual stress requires elevated preheat. For A709 HPS70W at 1-1/2" to 2-1/2", the 225°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 GMAW at 1-1/2" to 2-1/2"

Steel	Category	Preheat
A36	B	150°F (65°C)
A53 Gr.B	B	150°F (65°C)
A106 Gr.B	B	150°F (65°C)
A633 Gr.E	C	225°F (110°C)

Other Thicknesses

A709 HPS70W with GMAW

Interactive Calculator

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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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A709 HPS70W Welding Guides

FAQ

What is the minimum preheat for A709 HPS70W with GMAW at 1-1/2" to 2-1/2"?

For A709 HPS70W welded with GMAW at 1-1/2" to 2-1/2" thickness, the minimum preheat temperature is 225°F (110°C) per AWS D1.1:2025 Table 5.11, Category C. This is also the minimum interpass temperature — the joint must not cool below 225°F between passes.

What Table 5.11 category applies to A709 HPS70W with GMAW?

A709 HPS70W welded with GMAW falls under Category C in AWS D1.1:2025 Table 5.11. Low-hydrogen SMAW, SAW, GMAW, or FCAW process (higher-strength steels). At 1-1/2" to 2-1/2" thickness, this category requires a minimum preheat of 225°F (110°C).

Why is preheat 225°F for A709 HPS70W at 1-1/2" to 2-1/2"?

The 225°F preheat for A709 HPS70W at 1-1/2" to 2-1/2" with GMAW 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.

What happens if I skip preheat on thick plate?

Without adequate preheat on material in the 1-1/2” to 2-1/2” range, the weld HAZ cools rapidly, trapping diffusible hydrogen in a hardened microstructure. This creates conditions for hydrogen-induced cracking (also called cold cracking or delayed cracking), which may not appear until hours or days after welding. Table 5.11 preheat minimums are set to prevent this failure mode.

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