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

A913 Gr.70 Preheat for SMAW (low-hydrogen) — 1-1/2" to 2-1/2"

Minimum preheat and interpass temperature for A913 Gr.70 welded with SMAW (low-hydrogen) 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 SMAW-LH

SMAW (Low-Hydrogen)

Low-hydrogen SMAW (E7018/E7016) uses basic-coated electrodes requiring rod oven storage, assigned to Category B in Table 5.11.

For high-strength shapes and plate, E7018 provides adequate tensile match for steels up to Category C. E8018-C3 or E9018-M may be required for higher-strength steels to meet weld metal strength matching requirements. Bead sequencing on thick TMCP flanges should follow qualified WPS parameters precisely to avoid overheating the refined microstructure.

High-Strength and TMCP Steels

A913 Gr.70

ASTM A913 Grade 70 (70 ksi yield, 90 ksi minimum tensile) is a TMCP structural shape used in heavily loaded columns and seismic applications requiring higher strength than Gr.50/60/65. It falls under Category C for standard low-hydrogen processes, with preheat requirements reflecting its higher strength level and CE-IIW of approximately 0.42-0.48. With H8-certified consumables, it qualifies for Category F — 32°F up to 2-1/2”, 150°F above. The TMCP QST microstructure provides inherent resistance to hydrogen cracking through its fine-grained bainitic structure, which is why H8 consumables unlock a reduced-preheat path not available for conventional Q&T steels at similar strength. A913 Gr.70 is primarily available in W14 sections ranging from W14x233 through W14x730, with limited W12 and W36 availability.

A913 Gr.70 + SMAW-LH

Why This Preheat for A913 Gr.70 with SMAW-LH

TMCP 70 ksi shape with Category F reduced preheat using H8 consumables. 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 SMAW-LH, 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 A913 Gr.70 Is Used

Typical Applications for A913 Gr.70

Used in heavily loaded interior columns of super-tall buildings, transfer truss compression chords, mega-brace members in outrigger systems, stadium roof cantilever supports, and seismic collectors in high-rise cores. A913 Gr.70 TMCP shapes enable smaller column sections, freeing usable floor space on every floor of the building. Column splice butt welds at upper stories and moment connection flange welds carry the highest inspection priority. The 70 ksi yield enables using W14x398 where conventional Gr.50 would require W14x550, saving 38% in material weight and 3-4 inches of floor space per column. Erection splices at every 2-3 stories use CJP groove welds with backing bars removed and back-gouged per seismic detailing requirements. The Category F path with H8 consumables (32°F up to 2-1/2", 150°F above) provides a practical alternative to full Category C preheat on these thick-flange column splices.

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 A913 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 A913 Gr.70 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 SMAW (low-hydrogen) 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

A913 Gr.70 with SMAW (low-hydrogen)

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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A913 Gr.70 Welding Guides

FAQ

What is the minimum preheat for A913 Gr.70 with SMAW-LH at 1-1/2" to 2-1/2"?

For A913 Gr.70 welded with SMAW (low-hydrogen) 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 A913 Gr.70 with SMAW-LH?

A913 Gr.70 welded with SMAW (low-hydrogen) 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 A913 Gr.70 at 1-1/2" to 2-1/2"?

The 225°F preheat for A913 Gr.70 at 1-1/2" to 2-1/2" with SMAW (low-hydrogen) 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.