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

A500 Gr.B/C Preheat for SMAW (non-low-hydrogen) — up to 3/4"

Minimum preheat and interpass temperature for A500 Gr.B/C welded with SMAW (non-low-hydrogen) at up to 3/4" thickness, per AWS D1.1:2025 Table 5.11.

Minimum Preheat & Interpass Temperature

32°F / 0°C

Category A
Non-low-hydrogen SMAW process

AWS D1.1:2025 Table 5.11, §5.7

When base metal temperature is below 32°F [0°C], preheat to minimum 70°F [20°C] and maintain during welding (Table 5.11 footnote a).

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

About SMAW

SMAW (Non-Low-Hydrogen)

Non-low-hydrogen SMAW (E6010/E6011) uses cellulosic electrodes with higher hydrogen potential, assigned to Category A in Table 5.11.

For common structural shapes and plate, non-low-hydrogen SMAW with E6010 or E6011 excels at root passes on open-root groove welds where burn-through control matters. Vertical-up technique with a slight weave keeps the puddle manageable. Rod consumption runs about 10-12 electrodes per pound of weld metal deposited. Electrode stubs should be no shorter than 2 inches to maintain adequate arc length control.

Common Structural Steels

A500 Gr.B/C

ASTM A500 Grade B (46 ksi yield for round, 42 ksi for rectangular) and Grade C (50 ksi round, 46 ksi rectangular) cover cold-formed welded and seamless structural tubing — round, square, and rectangular HSS sections. These are the standard tubular members in building frames, trusses, and signage structures, produced in wall thicknesses from 16 gauge (0.065") up to 5/8" for rectangular and 1/2" for round. Table 5.11 assigns both Category A and B preheat requirements. The cold-forming process work-hardens the corners, producing corner radii with higher hardness (up to 20% increase) and reduced ductility compared to the flat faces. This affects welding behavior at corner locations, particularly on heavily loaded connection details where weld starts or stops near corner radii can create initiation points for fatigue cracks.

A500 Gr.B/C + SMAW

Why This Preheat for A500 Gr.B/C with SMAW

Cold-formed structural tubing for HSS sections in frames and trusses. At this thickness, SMAW with non-low-hydrogen electrodes places the joint in Category A of Table 5.11. The minimum preheat of 32°F compensates for the higher diffusible hydrogen from cellulosic electrode coatings. The thicker the material, the longer hydrogen takes to escape the heat-affected zone, which is why preheat rises with thickness even for this common grade.

Where A500 Gr.B/C Is Used

Typical Applications for A500 Gr.B/C

Standard for HSS columns in office buildings, hollow section trusses in warehouse roofs, exposed architectural tube steel, sign structures, solar panel racking frames, greenhouse frames, and guard rail posts. A500 tube-to-tube moment connections require through-plate or diaphragm detailing to transfer forces across the closed section. Slotted gusset connections into HSS bracing members are a signature fabrication detail requiring careful fit-up and beveling of the gusset plate. Common sizes include HSS 6x6x3/8 and HSS 8x8x1/2 for columns, HSS 4x4x1/4 for bracing, and HSS 10x6x3/8 for rectangular beam applications. The cold-formed corner radius creates a heat-affected zone consideration that differs from hot-rolled shapes when planning multi-pass weld sequences. Round HSS pipe columns are also common, typically HSS 6.625x0.280 through HSS 12.750x0.500 for mezzanine posts and canopy supports. Fillet welds connecting HSS to cap plates and base plates are the most frequent weld joint detail.

Thickness: up to 3/4"

Why Preheat Matters at up to 3/4"

Thin material sheds heat quickly, allowing hydrogen to escape the HAZ readily — lowest preheat tier in Table 5.11.

No Preheat Required

Why 32°F for A500 Gr.B/C?

A minimum preheat of 32°F (0°C) means no active preheating is needed above freezing conditions. Table 5.11 Category A at this thickness assigns the ambient minimum because A500 Gr.B/C with non-low-hydrogen SMAW has sufficient ductility and low enough carbon equivalent that hydrogen cracking risk is minimal at this section thickness. Per footnote (a), if working below 32°F, preheat the joint to at least 70°F (20°C) and maintain during welding.

Compare Steels

Other Steels with SMAW (non-low-hydrogen) at up to 3/4"

Steel	Category	Preheat
A36	A	32°F (0°C)
A53 Gr.B	A	32°F (0°C)

Other Thicknesses

A500 Gr.B/C with SMAW (non-low-hydrogen)

Interactive Calculator

Try Different Combinations

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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A500 Gr.B/C Welding Guides

FAQ

What is the minimum preheat for A500 Gr.B/C with SMAW at up to 3/4"?

For A500 Gr.B/C welded with SMAW (non-low-hydrogen) at up to 3/4" thickness, the minimum preheat temperature is 32°F (0°C) per AWS D1.1:2025 Table 5.11, Category A. This is also the minimum interpass temperature — the joint must not cool below 32°F between passes.

What Table 5.11 category applies to A500 Gr.B/C with SMAW?

A500 Gr.B/C welded with SMAW (non-low-hydrogen) falls under Category A in AWS D1.1:2025 Table 5.11. Non-low-hydrogen SMAW process. At up to 3/4" thickness, this category requires a minimum preheat of 32°F (0°C).

Does A500 Gr.B/C need preheat at up to 3/4"?

At up to 3/4" thickness with SMAW (non-low-hydrogen), the minimum preheat is 32°F (0°C) — effectively ambient temperature above freezing. No active preheating is required unless the base metal is below 32°F. Per Table 5.11 footnote (a), if working below freezing, preheat to at least 70°F (20°C) and maintain during welding.

Is preheat needed for plate under 3/4 inch?

For most structural steels at this thickness, the Table 5.11 minimum is 32°F (0°C) — ambient temperature above freezing. The thin cross-section allows hydrogen to diffuse out readily. Per footnote (a), if working below freezing, preheat to at least 70°F (20°C) and maintain during welding.

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