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

A516 Gr.65/70 Preheat for SAW — 1-1/2" to 2-1/2"

Minimum preheat and interpass temperature for A516 Gr.65/70 welded with SAW at 1-1/2" to 2-1/2" thickness, per AWS D1.1:2025 Table 5.11.

Built on AWS D1.1:2025 Table 5.11 — every value traced to the clause.

Minimum Preheat & Interpass Temperature
150°F / 65°C
Category B Low-hydrogen SMAW, SAW, GMAW, or FCAW process
AWS D1.1:2025 Table 5.11, §5.7
Reference tool. Verify against project-applicable edition and Engineer-approved WPS.

Have a preheat question? Ask Flux

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.

For pressure vessel longitudinal and circumferential seams, SAW is the primary process. Tandem or multi-wire configurations on specialized manipulators achieve consistent quality over seam lengths exceeding 40 feet. Flux basicity index per ASME Section II Part C determines the mechanical properties of the weld deposit.

Practical Tips: SAW + Pressure Vessel and Low-Temperature Steels

SAW Tips for Pressure Vessel and Low-Temperature Steels

For A516 Grades 65/70 pressure vessel plate (35–38 ksi yield, Category B only), SAW F7A2-EM12K at 550–650 A is the standard for vessel longitudinal and circumferential seams. Neutral flux is mandatory for multi-pass seams on these higher-strength grades to prevent alloying element dilution in the weld deposit from pass to pass. Preheat to 150°F for plate 3/4"–1-1/2"; 225°F above.

Typical values for reference — always verify against your approved WPS and electrode manufacturer data.

Recommended Filler Metal

Filler Metal for SAW

Wire: EM12K or EL12 with matching flux (AWS A5.17). Common combo: F7A2-EM12K. Diameter: 3/32" or 7/64". Flux type: active (A) for single-pass, neutral (N) for multi-pass. Voltage: 28-34V. Current: 400-800A depending on joint size. Travel: 12-24 ipm.

Typical values for reference — always verify against your approved WPS and electrode manufacturer data.

Pressure Vessel and Low-Temperature Steels

A516 Gr.65/70

ASTM A516 Grades 65 and 70 are the higher-strength pressure vessel plates in this specification, with 65 and 70 ksi minimum tensile strength and 35/38 ksi minimum yield respectively. Used in higher-pressure vessels, distillation columns, and reactor shells, they require low-hydrogen welding processes (Category B only in Table 5.11) due to their higher carbon equivalent compared to Grades 55/60. Carbon limits are 0.28% max for Gr.65 and 0.31% max for Gr.70 on thicker plate, pushing the CE-IIW into the 0.43-0.48 range where non-low-hydrogen SMAW is no longer prequalified. A516 Gr.70 is the single most specified plate grade for ASME Section VIII Division 1 pressure vessels, accounting for an estimated 40%+ of all vessel plate orders in North America.

A516 Gr.65/70 + SAW

Why This Preheat for A516 Gr.65/70 with SAW

Higher-strength pressure vessel plate requiring low-hydrogen processes only. This steel is prequalified only with low-hydrogen processes under Table 5.11. With SAW, the submerged arc process with granular flux produces controlled hydrogen levels, with flux condition being the primary variable. The 150°F minimum preheat balances the steel’s strength level and carbon equivalent against the hydrogen control provided by SAW. Non-low-hydrogen SMAW is not an option for this grade under D1.1 prequalified WPS.

Where A516 Gr.65/70 Is Used

Typical Applications for A516 Gr.65/70

Used in higher-pressure process vessels, distillation columns, reactor shells, thick-wall accumulators, high-pressure heat exchangers, and flare knockout drums. A516 Gr.70 plate is common in ASME VIII Division 1 vessels above 250 psi design pressure and in columns operating under hydroprocessing conditions. Longitudinal seams on heavy-wall vessels and nozzle-to-shell set-on welds are critical joint configurations requiring strict preheat compliance. Wall thicknesses in high-pressure service can exceed 3" on large-diameter vessels, with shell diameters from 24" to over 15 feet. Post-weld heat treatment per ASME Code is frequently required for A516 Gr.70 above 1-1/4" wall thickness, adding PWHT soak temperature (typically 1100-1200°F) and hold time (1 hour per inch of thickness) to the fabrication sequence. PWHT stress-relieves the weld and HAZ but does not change the preheat requirements during the initial welding operation.

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.

Compare Steels

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

SteelCategoryPreheat
A36B150°F (65°C)
A633 Gr.EC225°F (110°C)
A709 HPS70WC225°F (110°C)
A710 Gr.AC225°F (110°C)
Other Thicknesses

A516 Gr.65/70 with SAW

up to 3/4"32°F (0°C) 3/4" to 1-1/2"50°F (10°C) over 2-1/2"225°F (110°C)
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A516 Gr.65/70 Welding Guides

D1.1A516 Gr.65/70 in D1.1Higher-strength pressure vessel plate requiring low-hydrogen processes only ?Preheat ExplainedWhy A516 Gr.65/70 needs preheat control ?WPS vs PQRProcedure essentials
FAQ
What is the minimum preheat for A516 Gr.65/70 with SAW at 1-1/2" to 2-1/2"?
When welding A516 Gr.65/70 at 1-1/2" to 2-1/2" using SAW, the minimum preheat temperature is 150°F (65°C) per AWS D1.1:2025 Table 5.11, Category B. SAW places this combination in Category B. This is also the minimum interpass temperature — the joint must not cool below 150°F between passes.
What Table 5.11 category applies to A516 Gr.65/70 with SAW?
When using SAW on A516 Gr.65/70, the combination falls under Category B in AWS D1.1:2025 Table 5.11. Low-hydrogen SMAW, SAW, GMAW, or FCAW process. At 1-1/2" to 2-1/2" thickness, Category B with SAW requires a minimum preheat of 150°F (65°C).
Why is preheat 150°F for A516 Gr.65/70 at 1-1/2" to 2-1/2"?
The 150°F preheat for A516 Gr.65/70 at 1-1/2" to 2-1/2" when using SAW reflects the combination of the steel's hardenability and the increased restraint at this thickness. SAW delivers controlled hydrogen levels, but at this thickness the preheat must slow 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.