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

Preheat M270M HPS485W — H8, Low HI, > 60 mm: 375°F

Persyaratan preheat fraktur kritis untuk M270M HPS485W / M270 HPS70W pada ketebalan > 60 mm (> 2½ 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

375°F / 190°C

Hidrogen H8 · masukan panas 1.2–2.0 kJ/mm · ketebalan > 60 mm (> 2½ 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 High-Performance Grades

M270M HPS485W / M270 HPS70W

AASHTO M270M HPS485W (M270 HPS70W) is a high-performance weathering steel with 485 MPa (70 ksi) yield, used in long-span bridge girder flanges and heavily loaded members where weight reduction is critical. Produced as quenched-and-tempered plate up to 100 mm (4 in) thick. The high strength level places it in NFC Group 2 (Table 6.3) with higher minimum preheat than Group 1. FC preheat follows Tables 12.6/12.7 alongside the 345W grades but at higher temperatures reflecting the increased hardenability. Maximum interpass per Table 6.4 is 230°C (450°F) to protect the Q&T microstructure.

Mengapa Preheat Ini

Memahami Preheat FC untuk M270M HPS485W / M270 HPS70W

High-performance 485 MPa (70 ksi) weathering bridge steel. Under D1.5 fracture-critical requirements (Clause 12), the combination of H8 hydrogen designation and this heat input band requires 375°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.

Aplikasi Jembatan

Di Mana M270M HPS485W / M270 HPS70W Digunakan

Used in long-span bridge main girder flanges, cable-stayed bridge edge girders, and heavily loaded interchange ramp girders where weight reduction is critical. Enables 20–30% weight savings versus Gr.345 designs, allowing shallower girder sections that reduce embankment costs. Flange thickness often exceeds 50 mm (2 in), making preheat and interpass control critical at every CJP splice. Fabricators must use dual-readout temperature monitoring to ensure joints stay within the qualified range between minimum preheat and maximum interpass.

H8 Detail Fabrikasi

Kontrol Hidrogen H8 untuk M270M HPS485W / M270 HPS70W

HPS485W (HPS70W) at H8 represents a moderate preheat specification used when H4 consumables are not available in the required wire diameter or flux combination. For SAW on long girder flange welds, H8 wire-flux combinations are more readily available than H4 alternatives.

Ketebalan: > 60 mm (> 2½ in)

Mengapa Preheat Penting pada > 60 mm (> 2½ in)

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.

Detail Fabrikasi

M270M HPS485W / M270 HPS70W pada > 60 mm (> 2½ in)

HPS485W (HPS70W) above 65 mm is the heaviest plate used in high-performance bridge construction. Flange widths reach 750–900 mm (30–36 in), with splice welds requiring 100+ passes over multiple shifts. Temperature management becomes the dominant production variable — too cold risks cracking, too hot risks softening the Q&T microstructure. Fabricators invest in automated temperature monitoring systems with data logging for FC traceability.

Bandingkan Baja

Baja Jembatan Lain pada H8 1.2–2.0 kJ/mm · > 60 mm (> 2½ in)

Baja	Tabel	Preheat
M270M Gr.250 / M270 Gr.36	A	325°F (160°C)
M270M Gr.345 / M270 Gr.50	A	325°F (160°C)
M270M Gr.345S / M270 Gr.50S	A	325°F (160°C)
M270M Gr.345W / M270 Gr.50W	B	375°F (190°C)

Ketebalan Lainnya

M270M HPS485W / M270 HPS70W pada H8 1.2–2.0 kJ/mm

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.

Pelajari Lebih Lanjut

Panduan Terkait

Pertanyaan Umum

Berapa preheat FC untuk M270M HPS485W / M270 HPS70W dengan H8 pada > 60 mm (> 2½ in)?

Untuk fraktur kritis M270M HPS485W / M270 HPS70W dilas dengan bahan habis pakai bertanda H8 pada ketebalan > 60 mm (> 2½ in) dan masukan panas 1.2–2.0 kJ/mm, preheat minimum adalah 375°F (190°C) sesuai D1.5 Tabel 12.6/12.7.

Apa perbedaan antara preheat FC dan NFC untuk M270M HPS485W / M270 HPS70W?

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 HPS485W / M270 HPS70W?

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 375°F menyeimbangkan tingkat hidrogen dan laju pendinginan.

Why is preheat the same for both groups above 65 mm?

Table 6.3 converges at 110°C (225°F) for both groups at this thickness because the dominant factor becomes hydrogen diffusion distance through the thick section rather than the steel’s hardenability. Even Group 1 steels need substantial preheat at 65+ mm to keep cooling rates slow enough for safe hydrogen escape.

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