AWS D1.1:2025 · 表5.11 · カテゴリーB

API 5L X42のGMAW用予熱 — over 2-1/2"

API 5L X42をGMAW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。

GMAWについて

GMAW (Gas Metal Arc Welding)

GMAW (MIG) feeds continuous solid wire with shielding gas — an inherently low-hydrogen process assigned to Category B in Table 5.11.

GMAW on pipe requires specialized gun angles and travel speed control for circumferential joints. Pulsed GMAW is increasingly popular for pipe root passes as an alternative to SMAW. The absence of slag between passes eliminates inter-pass cleaning time, significantly improving productivity on multi-pass pipe joints.

Pipe and Tube Steels

API 5L X42

API 5L X42 is a higher-strength pipeline grade with 42 ksi minimum yield (290 MPa) and 60 ksi minimum tensile, used for moderate-pressure transmission lines operating below 1,000 psi. Despite the strength increase over Grade B, it remains in D1.1 Table 5.11 Categories A and B due to controlled chemistry (PSL 2 limits: 0.22% max carbon, 0.43% max CE-IIW). X42 is common in gas distribution laterals, water transmission mains, and crude gathering systems in pipe sizes from 4" through 36" NPS. The "X" prefix designates minimum yield in ksi — X42 is the lowest X-grade in API 5L, sitting between Grade B and the higher X52/X60/X65 grades used for higher-pressure trunk lines.

API 5L X42 + GMAW

API 5L X42とGMAWでこの予熱が必要な理由

Higher-strength pipeline grade at 42 ksi for moderate-pressure transmission. With low-hydrogen GMAW, this combination falls under Category B rather than Category A, reflecting the lower hydrogen potential of the consumable. The 225°F minimum preheat is lower than what non-low-hydrogen SMAW would require at the same thickness. Low-hydrogen electrodes and inherently low-hydrogen wire processes reduce the driving force for hydrogen-induced cracking in the heat-affected zone.

API 5L X42の用途

API 5L X42の代表的な適用例

Deployed in moderate-pressure gas gathering systems, produced water disposal pipelines, crude oil collection networks, and cross-country water transmission trunk lines. X42 mainline girth welds use the same root-fill-cap sequence as Gr.B but with closer attention to bead placement and travel speed on heavier wall pipe to control heat input. Station piping, pig launcher barrel welds, and meter run assemblies are common shop applications. In oilfield gathering systems, X42 pipe diameters typically range from 6" to 20" NPS with wall thicknesses from 0.219" to 0.375". Tie-in welds at valve stations are a common field joint requiring portable preheating equipment. Operating pressures for X42 gathering systems typically run 300-600 psi, governed by ASME B31.8 or DOT 49 CFR 192. Hydrostatic test pressures reach 1.25 to 1.5 times MAOP, putting welds under scrutiny before commissioning.

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

GMAW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

API 5L X42とGMAW

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

API 5L X42溶接ガイド

よくある質問

over 2-1/2"でGMAWを使用したAPI 5L X42の最小予熱温度は？

API 5L X42をGMAW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。

API 5L X42とGMAWに適用される表5.11のカテゴリーは？

GMAWで溶接されたAPI 5L X42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API 5L X42の予熱が225°Fである理由は？

GMAWでのover 2-1/2"板厚におけるAPI 5L X42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。