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AASHTO/AWS D1.5:2025 · Tabel 12.6/12.7 · Fraktur Kritis · H8

Preheat M270M Gr.345W — H8, Low HI, 20–40 mm: 225°F

Persyaratan preheat fraktur kritis untuk M270M Gr.345W / M270 Gr.50W pada ketebalan 20–40 mm (3/4–1½ in) dengan penunjukan hidrogen H8, sesuai AASHTO/AWS D1.5:2025, Kode Pengelasan Jembatan.

Berdasarkan AWS D1.5:2025 — setiap nilai dilacak ke pasal.

Preheat dan Interpass Minimum Fraktur Kritis
225°F / 110°C
Hidrogen H8 · masukan panas 1.2–2.0 kJ/mm · ketebalan 20–40 mm (3/4–1½ in)
AASHTO/AWS D1.5M/D1.5:2025 Tabel 12.6/12.7
Penunjukan H8: bahan habis pakai mengendapkan ≤ 8 mL/100g hidrogen difusibel sesuai AWS A4.3. Hidrogen lebih rendah = preheat lebih rendah.
Alat referensi. Verifikasi terhadap edisi yang berlaku dan WPS yang disetujui Insinyur.
AASHTO M270 Standard Grades

M270M Gr.345W / M270 Gr.50W

AASHTO M270M Gr.345W (M270 Gr.50W) is a weathering bridge steel with 345 MPa (50 ksi) yield that forms a protective oxide patina for unpainted bridge service. The copper-chromium-nickel alloying provides atmospheric corrosion resistance, eliminating lifetime repainting costs estimated at $15–25 per square foot per cycle. Weld filler must match the weathering composition (E8018-W2 or equivalent) for exposed joints. NFC preheat per Table 6.3 Group 1; FC per Tables 12.6/12.7 which carry higher preheat than the non-weathering grades.

Mengapa Preheat Ini

Memahami Preheat FC untuk M270M Gr.345W / M270 Gr.50W

Weathering 345 MPa (50 ksi) bridge steel for unpainted service. Under D1.5 fracture-critical requirements (Clause 12), the combination of H8 hydrogen designation and this heat input band requires 225°F minimum preheat at 20–40 mm (3/4–1½ 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.

Aplikasi Jembatan

Di Mana M270M Gr.345W / M270 Gr.50W Digunakan

Deployed in unpainted bridge plate girders across humid, coastal, and high-maintenance-cost environments. The weathering patina eliminates lifetime repainting cycles estimated at $15–25/sq ft per cycle. Weld filler must match the weathering composition (E8018-W2 or ER80S-G-W) for exposed joints to ensure the weld face develops the same protective oxide as the base metal. Conventional Gr.345W is being replaced by HPS345W in new designs due to superior weldability.

H8 Detail Fabrikasi

Kontrol Hidrogen H8 untuk M270M Gr.345W / M270 Gr.50W

Weathering Gr.345W (50W) with H8 represents the standard practice for most unpainted bridge fabrication. Gas-shielded FCAW wires commonly achieve H8 designation, making this the natural hydrogen level for high-productivity shop welding on weathering grade plate girders.

Ketebalan: 20–40 mm (3/4–1½ in)

Mengapa Preheat Penting pada 20–40 mm (3/4–1½ in)

Material from 20 to 40 mm (3/4 to 1-1/2 in) includes many girder web plates, splice plates, and bearing stiffener plates. Preheat increases to 20°C (70°F) for Group 1 and 50°C (125°F) for Group 2 under Table 6.3. The thicker section slows hydrogen diffusion, requiring higher preheat to maintain safe cooling rates.

Detail Fabrikasi

M270M Gr.345W / M270 Gr.50W pada 20–40 mm (3/4–1½ in)

At 20–40 mm, Gr.345W (50W) serves as the primary plate for unpainted bridge girder webs and connection plates. Weathering steel butt splices require the same CJP quality as painted Gr.345 but with compositional matching of the filler metal. Improper filler selection leaves a cosmetically distinct weld face that does not develop the same protective oxide, creating a maintenance concern on exposed bridges.

Bandingkan Baja

Baja Jembatan Lain pada H8 1.2–2.0 kJ/mm · 20–40 mm (3/4–1½ in)

BajaTabelPreheat
M270M Gr.250 / M270 Gr.36A175°F (80°C)
M270M Gr.345 / M270 Gr.50A175°F (80°C)
M270M Gr.345S / M270 Gr.50SA175°F (80°C)
M270M HPS345W / M270 HPS50WB225°F (110°C)
Ketebalan Lainnya

M270M Gr.345W / M270 Gr.50W pada H8 1.2–2.0 kJ/mm

≤ 20 mm (3/4 in)125°F (50°C) 40–60 mm (1½–2½ in)325°F (160°C) > 60 mm (> 2½ in)375°F (190°C)
Kalkulator Interaktif

Coba Kombinasi Berbeda

Gunakan Kalkulator Preheat Jembatan D1.5 untuk mencari baja AASHTO M270, tingkat hidrogen, dan kombinasi masukan panas. Lihat juga Kalkulator Preheat D1.1 untuk baja struktural.

θKalkulator Masukan PanasVerifikasi masukan panas untuk persyaratan FC CEKarbon EkuivalenHitung CE untuk mampu las baja jembatan
Pelajari Lebih Lanjut

Panduan Terkait

D1.5Pengelasan Jembatan D1.5Analisis lengkap standar ?Mengapa Preheat?Dasar-dasar preheat ?WPS vs PQRDasar-dasar prosedur
Pertanyaan Umum
Berapa preheat FC untuk M270M Gr.345W / M270 Gr.50W dengan H8 pada 20–40 mm (3/4–1½ in)?
Untuk fraktur kritis M270M Gr.345W / M270 Gr.50W dilas dengan bahan habis pakai bertanda H8 pada ketebalan 20–40 mm (3/4–1½ in) dan masukan panas 1.2–2.0 kJ/mm, preheat minimum adalah 225°F (110°C) sesuai D1.5 Tabel 12.6/12.7.
Apa perbedaan antara preheat FC dan NFC untuk M270M Gr.345W / M270 Gr.50W?
Preheat non-fraktur kritis (Tabel 6.3) adalah pencarian sederhana berdasarkan ketebalan. Preheat fraktur kritis (Tabel 12.4–12.8) menambahkan tingkat hidrogen dan masukan panas sebagai variabel, biasanya memerlukan preheat lebih tinggi.
Bagaimana masukan panas mempengaruhi preheat FC M270M Gr.345W / M270 Gr.50W?
Masukan panas lebih tinggi berarti laju pendinginan lebih lambat, memberikan hidrogen lebih banyak waktu untuk berdifusi keluar dari zona las. Pada 1.2–2.0 kJ/mm, preheat 225°F menyeimbangkan tingkat hidrogen dan laju pendinginan.
Why does Group 2 need higher preheat than Group 1 at this thickness?
Group 2 steels (HPS485W, HPS690W) have higher hardenability from their increased alloy content, forming harder microstructures on cooling. The 50°C (125°F) minimum versus Group 1’s 20°C (70°F) compensates for the greater cracking susceptibility of these higher-strength grades.

Data referensi D1.5:2025. Tidak berafiliasi dengan AWS atau AASHTO.