AASHTO/AWS D1.5:2025 · 表12.4/12.5 · 破壊臨界 · H4

M270M Gr.345S予熱 — H4、High HI、> 60 mm: 250°F

AASHTO/AWS D1.5:2025（橋梁溶接規格）に基づく、> 60 mm (> 2½ in)板厚、水素指定H4でのにおけるM270M Gr.345S / M270 Gr.50Sの破壊臨界予熱要件。

AWS D1.5:2025に基づく — すべての値は条項に追跡可能。

破壊臨界最低予熱・パス間温度

250°F / 120°C

H4水素 · > 2.8 kJ/mm入熱 · > 60 mm (> 2½ in)板厚

AASHTO/AWS D1.5M/D1.5:2025 表12.4/12.5

H4指定: AWS A4.3に基づき溶接材料は≤4 mL/100gの拡散性水素を溶着。水素が低いほど予熱要件も低くなります。

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。

AASHTO M270 Standard Grades

M270M Gr.345S / M270 Gr.50S

AASHTO M270M Gr.345S (M270 Gr.50S) is the structural shape variant of Gr.345, intended for rolled W-shapes and channels used in bridge framing. The "S" suffix indicates the shape-specific chemistry and mechanical property requirements. Used in cross-frame angles, diaphragm members, and built-up sections where rolled shapes are specified rather than plate. Preheat requirements match Gr.345 — Table 6.3 Group 1 for NFC, Tables 12.4/12.5 for FC applications.

この予熱の理由

M270M Gr.345S / M270 Gr.50SのFC予熱を理解する

Shape-grade 345 MPa (50 ksi) steel for rolled bridge members. Under D1.5 fracture-critical requirements (Clause 12), the combination of H4 hydrogen designation and this heat input band requires 250°F minimum preheat at > 60 mm (> 2½ in). Lower hydrogen levels (H4 < H8 < H16) allow lower preheat because less hydrogen enters the weld deposit. Similarly, higher heat input reduces preheat requirements because slower cooling rates give hydrogen more time to diffuse out.

橋梁への適用

M270M Gr.345S / M270 Gr.50Sの使用箇所

Used as rolled W-shapes and channels in bridge cross-frames, diaphragm members, and built-up sections. The "S" shape designation indicates procurement under AASHTO M270 with shape-specific chemistry and mandatory CVN testing. Common applications include WT sections for cross-frame members, MC channels for diaphragms, and W-shapes for floor beams on shorter spans. Weld details are primarily fillet welds at gusset connections and clip angles.

H4 製作の詳細

M270M Gr.345S / M270 Gr.50SにおけるH4水素管理

Shape-grade Gr.345S (50S) benefits from H4 at gusset-to-shape connections where access for torch preheat is limited by flanges and stiffeners. The lower preheat achievable with H4 reduces the thermal management complexity in tight spaces typical of cross-frame subassemblies.

板厚: > 60 mm (> 2½ in)

> 60 mm (> 2½ in)で予熱が重要な理由

Material over 65 mm (2-1/2 in) includes the heaviest bridge girder flanges and box-section walls. Table 6.3 requires 110°C (225°F) for both groups at this thickness. Extended preheat soak time is necessary to achieve uniform through-thickness temperature. FC preheat for the heaviest sections reaches 180–200°C (350–400°F) at the H16 hydrogen level.

製作の詳細

> 60 mm (> 2½ in)でのM270M Gr.345S / M270 Gr.50S

Gr.345S (50S) above 65 mm flange thickness is limited to the heaviest jumbo W-shapes (W14×730 or similar) used in critical transfer structures. These sections have significant residual stress from the rolling process that compounds with welding stresses. Full 225°F preheat plus controlled cooling is essential — some fabricators specify post-weld hydrogen release holds at 400°F for 2 hours on jumbo section connections.

H4水素管理

橋梁FC溶接用H4認定溶接材料

H4補足記号は、溶接材料が溶着金属100gあたり4mL以下の拡散性水素しか溶着しないことを証明します。> 2.8 kJ/mm入熱での> 60 mm (> 2½ in)板厚における破壊臨界M270M Gr.345S / M270 Gr.50Sにおいて、H4溶接材料はFCテーブルで最低予熱250°F (120°C)を達成します。予熱低減が優先される場合、これが推奨される水素レベルです。

鋼材比較

H4 > 2.8 kJ/mm · > 60 mm (> 2½ in)における他の橋梁鋼材

鋼材	表	予熱
M270M Gr.250 / M270 Gr.36	A	250°F (120°C)
M270M Gr.345W / M270 Gr.50W	B	300°F (150°C)
M270M HPS345W / M270 HPS50W	B	300°F (150°C)
M270M HPS485W / M270 HPS70W	B	300°F (150°C)

他の板厚

H4 > 2.8 kJ/mmでのM270M Gr.345S / M270 Gr.50S

インタラクティブ計算機

別の組み合わせを試す

D1.5橋梁予熱計算機を使用して、AASHTO M270鋼材の水素レベルと入熱の任意の組み合わせを検索できます。構造用鋼にはD1.1予熱計算機もご覧ください。

詳細情報