AWS D1.1:2025 · 表5.11 · カテゴリーB

A1066 Gr.50のSMAW (low-hydrogen)用予熱 — over 2-1/2"

A1066 Gr.50をSMAW (low-hydrogen)で板厚over 2-1/2"で溶接する場合の最低予熱およびパス間温度。AWS D1.1:2025 表5.11に基づく。

AWS D1.1:2025 表5.11に基づく — すべての値は条項に追跡可能。

最低予熱・パス間温度

225°F / 110°C

カテゴリーB 低水素SMAW、SAW、GMAW、またはFCAWプロセス

AWS D1.1:2025 表5.11、§5.7

参考ツール。プロジェクト適用版およびエンジニア承認済みWPSで確認すること。

Have a preheat question? Ask Flux

SMAW-LHについて

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.

Practical Tips: SMAW-LH + High-Strength and TMCP Steels

SMAW-LH Tips for High-Strength and TMCP Steels

For A1066 Grade 50 HSLA plate (50 ksi yield, Category B or H8 Category E), E7018-H8 certified electrodes qualify for Category E preheat (50°F up to 1", 120°F above) — the H8 marking must appear on the rod package, not just the manufacturer literature. Standard E7018 (non-H8) falls under full Category B. SMAW-LH handles positional repair welds and connection details.

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

Recommended Filler Metal

Filler Metal for SMAW-LH

Electrode: E7018 (AWS A5.1) — the universal low-hydrogen structural rod. Diameter: 1/8" (general/out-of-position), 5/32" (production), 3/16" (heavy plate flat only). Storage: 250°F rod oven minimum per D1.1 §7.3.2.1. Exposure limit: 4 hours out of oven per Table 7.1, then re-bake at 500-800°F for minimum 2 hours per §7.3.2.4 (A5.1 classification).

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

High-Strength and TMCP Steels

A1066 Gr.50

ASTM A1066 Grade 50 is a high-strength low-alloy plate (50 ksi yield, 65 ksi minimum tensile) with options for enhanced toughness and weldability through controlled chemistry and supplementary requirements. It falls under Category B for standard low-hydrogen processes and qualifies for the reduced Category E preheat (50°F up to 1”, 120°F above 1”) with H8-certified consumables. The specification includes S-series supplementary requirements for impact testing at various temperatures, allowing engineers to select the toughness grade appropriate for their service environment. Carbon content is limited to 0.20% max with CE-IIW controlled to approximately 0.38-0.44. A1066 Gr.50 competes with A572 Gr.50 plate in applications where the H8 preheat reduction provides meaningful fabrication cost savings on thick-section joints.

A1066 Gr.50 + SMAW-LH

A1066 Gr.50とSMAW-LHでこの予熱が必要な理由

HSLA plate with H8-eligible Category E reduced preheat option at 50 ksi. This steel is prequalified only with low-hydrogen processes under Table 5.11. With SMAW-LH, E7018 low-hydrogen electrodes produce typically 4-8 mL/100g diffusible hydrogen under proper rod oven conditions. The 225°F minimum preheat balances the steel’s strength level and carbon equivalent against the hydrogen control provided by SMAW-LH. Non-low-hydrogen SMAW is not an option for this grade under D1.1 prequalified WPS.

A1066 Gr.50の用途

A1066 Gr.50の代表的な適用例

Applied in bridge plate girder webs where enhanced toughness is required beyond A709 Gr.50, cold-region building plate elements, heavy equipment support platforms, wind turbine tower flanges, and modular building frames. A1066 Gr.50 with H8 consumables qualifies for Category E reduced preheat (50°F up to 1", 120°F above 1"), offering a cost advantage over standard Category B procedures on thick plate where preheat time is a significant production bottleneck. Plate procurement requires specifying the supplementary toughness requirements (S-series) appropriate for the service temperature — S30 for -30°F, S50 for -50°F testing. The H8 preheat reduction becomes increasingly valuable as plate thickness increases, saving 30-60 minutes of preheating time per joint on material over 1 inch. For a bridge fabricator welding 200+ stiffener fillet welds per girder, the cumulative preheat savings from H8 consumables can reduce shop cycle time by 15-20% compared to full Category B procedures.

板厚: over 2-1/2"

over 2-1/2"で予熱が重要な理由

The heaviest sections demand the highest preheat in Table 5.11. Multi-pass sequences require maintaining interpass temperature throughout.

鋼材比較

SMAW (low-hydrogen)とover 2-1/2"における他の鋼材

鋼材	カテゴリー	予熱
A36	B	225°F (110°C)
A633 Gr.E	C	300°F (150°C)
A709 HPS70W	C	300°F (150°C)
A710 Gr.A	C	300°F (150°C)

他の板厚

A1066 Gr.50とSMAW (low-hydrogen)

インタラクティブ計算機

別の組み合わせを試す

インタラクティブ予熱計算機を使用して、D1.1:2025 表5.11のあらゆる鋼材・プロセス・板厚の組み合わせを検索できます。

詳細情報

A1066 Gr.50溶接ガイド

よくある質問

over 2-1/2"でSMAW-LHを使用したA1066 Gr.50の最小予熱温度は？

A1066 Gr.50をSMAW (low-hydrogen)でover 2-1/2"の板厚で溶接する場合、最低予熱温度はAWS D1.1:2025 表5.11、カテゴリーBに基づき225°F（110°C）です。これはパス間温度の最低値でもあり、パス間でも継手が225°F以下に冷却されてはなりません。

A1066 Gr.50とSMAW-LHに適用される表5.11のカテゴリーは？

SMAW (low-hydrogen)で溶接されたA1066 Gr.50は、AWS D1.1:2025 表5.11のカテゴリーBに該当します。低水素SMAW、SAW、GMAW、またはFCAWプロセス。over 2-1/2"板厚では、このカテゴリーは最低予熱225°F（110°C）を要求します。

over 2-1/2"でのA1066 Gr.50の予熱が225°Fである理由は？

SMAW (low-hydrogen)でのover 2-1/2"板厚におけるA1066 Gr.50の225°F予熱は、鋼材の焼入性とこの板厚での拘束の増大の組み合わせを反映しています。高い予熱は熱影響部の冷却速度を遅くし、鋼材が割れ感受性ミクロ組織に変態する前に拡散性水素が逸散する時間を与えます。

D1.1:2025参考データ。AWSとの提携なし。