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

A106 Gr.B Preheat for SMAW (low-hydrogen) — up to 3/4"

Per AWS D1.1:2025 Table 5.11, the minimum preheat for A106 Gr.B welded with SMAW (low-hydrogen) at up to 3/4" is 32°F (0°C), Category B. Preheat below this raises hydrogen-cracking risk in the heat-affected zone; the same temperature is the minimum interpass limit maintained through the weld.

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

Minimum Preheat & Interpass Temperature

32°F / 0°C

Category B Low-hydrogen SMAW, SAW, GMAW, or FCAW 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.

Have a preheat question? Ask Flux

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 pipe butt joints, E7018 fill and cap passes follow the E6010 root. Vertical-down technique is not permitted with low-hydrogen electrodes. Interpass cleaning requires chipping and wire brushing between every pass to remove slag inclusions. Restart craters should be ground to sound metal before striking a new arc.

Practical Tips: SMAW-LH + Pipe and Tube Steels

SMAW-LH Tips for Pipe and Tube Steels

For A106 Grade B seamless pipe (35 ksi yield, high-temperature service), E7018 fill and cap passes follow E6010 root on process piping butt welds per ASME B31.1/B31.3. On thick-wall Schedule 160 and XXH A106 pipe (wall thickness over 1/2"), preheat to 150°F minimum for Category B at the 3/4"–1-1/2" tier. E7018 at 130–160 A (1/8" rod) in vertical-up position handles.

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

Why This Process?

Why SMAW (low-hydrogen) for A106 Gr.B at up to 3/4"

Why SMAW (low-hydrogen) for A106 Gr.B at up to 3/4"? SMAW (low-hydrogen) delivers 3-5 lb/hr deposition — compared to <a href="/welding/preheat-calculator/a106-b/saw/up-to-3-4-inch/">SAW</a> at 15-40 lb/hr. Position capability: all positions. Suitability: field and shop.

Pipe and Tube Steels

A106 Gr.B

ASTM A106 Grade B covers seamless carbon steel pipe for high-temperature service up to about 750°F, with 35 ksi minimum yield and 60 ksi minimum tensile strength. Produced in sizes from 1/4" through 30" NPS, it is the standard pipe material for power plants, refineries, and process piping where elevated temperature and pressure coexist. Chemistry limits (0.30% max carbon, 0.29-1.06% manganese) give it a weldability profile that matches common structural grades with Category A and B preheat requirements. A106 is exclusively seamless, which eliminates the ERW seam concern present in A53. Grade C (40 ksi yield) exists but Grade B handles the vast majority of process piping service.

A106 Gr.B + SMAW-LH

Why This Preheat for A106 Gr.B with SMAW-LH

Seamless pipe rated for high-temperature service up to 750°F. With low-hydrogen SMAW-LH, this combination falls under Category B rather than Category A — E7018 low-hydrogen electrodes produce typically 4-8 mL/100g diffusible hydrogen under proper rod oven conditions. The 32°F minimum preheat is lower than what non-low-hydrogen SMAW would require at the same thickness because SMAW-LH significantly reduces the driving force for hydrogen-induced cracking in the heat-affected zone.

Where A106 Gr.B Is Used

Typical Applications for A106 Gr.B

Used in boiler steam headers, refinery piping racks, process plant branch connections, heat exchanger nozzle welds, power plant main steam lines, petrochemical reactor feed piping, and high-temperature manifolds. A106 Gr.B butt welds in process piping require joint preparation to B31.1 (power piping) or B31.3 (process piping) depending on service classification. Socket welds on small-bore A106 drain lines and instrument take-offs are common in utility stations, typically 1/2" to 2" NPS. Typical wall thicknesses range from Schedule 40 (0.237" wall on 2" NPS) to Schedule 160 (0.500" wall on 4" NPS) in critical high-energy service. Weld procedure qualification often includes side bend tests and tensile tests specific to the pipe diameter and wall thickness being joined. Field welds at pipe-to-flange connections and valve set-on joints require portable preheating equipment when wall thickness exceeds 1/2".

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.

Compare Steels

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

Steel	Category	Preheat
A36	B	32°F (0°C)
A633 Gr.E	C	50°F (10°C)
A709 HPS70W	C	50°F (10°C)
A710 Gr.A	C	50°F (10°C)

Other Thicknesses

A106 Gr.B with SMAW (low-hydrogen)

Application context

A106 Grade B seamless pipe at or below 3/4 inch wall with SMAW low-hydrogen is the structural-pipe combination for refinery and industrial pipe support brackets, pipe-to-plate fittings, walkway brackets on piping systems, and structural members fabricated from A106-B mechanical pipe where the welding falls under D1.1 (structural) rather than ASME B31.1 / B31.3 (process piping). The portability of stick welding suits field work on pipe.

Pre-weld notes

First scope question on every A106 weld: D1.1 vs ASME B31.1/B31.3. D1.1 governs structural welding — pipe used as a column, brace, or member of a structural assembly. ASME B31.1 (power piping) and B31.3 (process piping) govern pressure-piping welds on the pipe itself. The same A106-B pipe can be welded under either code on the same project, on different welds. For D1.1 structural work at this thickness, the 32°F preheat floor is satisfied by ordinary shop ambient. Binding constraints are LH electrode storage per Clause 7.3.2.1 and matching-strength filler per Table 5.7 Group I.

What a CWI verifies

A CWI on A106-B SMAW-LH thin-section structural work first verifies the WPS scope by reading the WPS title block — D1.1 structural vs ASME B31.x pressure piping. For D1.1 structural work, the inspection covers the LH electrode storage and atmospheric-exposure discipline per Clause 7.3, the matching-strength filler classification against Table 5.7 Group I, and the prequalified SMAW-LH limits in Table 5.1. Pressure-piping welds get bumped to ASME B31.x-qualified procedures with their own preheat and essential-variable rules.

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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A106 Gr.B Welding Guides

Primary sources

FAQ

What is the minimum preheat for A106 Gr.B with SMAW-LH at up to 3/4"?

When welding A106 Gr.B at up to 3/4" using SMAW-LH, the minimum preheat temperature is 32°F (0°C) per AWS D1.1:2025 Table 5.11, Category B. SMAW-LH places this combination in Category B. This is also the minimum interpass temperature — the joint must not cool below 32°F between passes.

What Table 5.11 category applies to A106 Gr.B with SMAW-LH?

When using SMAW-LH on A106 Gr.B, the combination falls under Category B in AWS D1.1:2025 Table 5.11. Low-hydrogen SMAW, SAW, GMAW, or FCAW process. At up to 3/4" thickness, Category B with SMAW-LH requires a minimum preheat of 32°F (0°C).

Does A106 Gr.B need preheat at up to 3/4"?

When welding with SMAW-LH at up to 3/4" thickness, the minimum preheat is 32°F (0°C) — effectively ambient temperature above freezing. SMAW-LH with this steel requires no active preheating 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.

Is this preheat the same in D1.1:2020 as D1.1:2025?

Yes — the 32°F (0°C) minimum preheat for A106 Grade B with SMAW low-hydrogen at up to 3/4 inch wall is unchanged across the 2020 and 2025 editions. Both editions place this combination in Category B per Table 5.11.

Does my joint qualify for prequalified WPS at this preheat?

If the joint is structural — not pressure-piping — and matches a prequalified detail in D1.1:2025 Clause 5, the matching-strength filler is from Table 5.7 Group I, and the WPS holds the 32°F minimum, the procedure is prequalified by Clause 5. Pressure-piping welds fall outside D1.1 and must be qualified under ASME B31.1 or B31.3 as applicable.

What is the difference between A106 Grade B and API 5L Grade B for D1.1 structural work?

Both sit in Table 5.6 Group I with similar mechanical properties and share Cat B preheat assignment in Table 5.11. The scope difference is the source standard — A106 is ASTM seamless mechanical pipe for high-temperature service (refinery, industrial), API 5L is line pipe for pipeline transmission service. For D1.1 structural welding, both ride the same prequalified WPS path under Clause 5 with Group I matching-strength filler from Table 5.7. The applicable non-D1.1 code differs (ASME B31.x vs API 1104) when the same pipe is used in pressure or pipeline service rather than as a structural member.

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