M270M HPS345W पूर्वतापन — H4, High HI, ≤ 20 mm: 100°F

M270M HPS345W / M270 HPS50W

AASHTO M270M HPS345W (M270 HPS50W) is a high-performance weathering bridge steel with enhanced weldability through controlled chemistry — 0.11% max carbon, 0.006% max sulfur with calcium treatment for inclusion shape control. Developed under FHWA-funded research to eliminate the lamellar tearing and inconsistent toughness problems of earlier weathering steel bridge designs. The lower carbon equivalent compared to conventional Gr.345W reduces cracking sensitivity at flange splices. NFC preheat per Table 6.3 Group 1; FC per Tables 12.6/12.7.

M270M HPS345W / M270 HPS50W के लिए FC पूर्वतापन को समझना

High-performance weathering 345 MPa steel with enhanced weldability. Under D1.5 fracture-critical requirements (Clause 12), the combination of H4 hydrogen designation and this heat input band requires 100°F minimum preheat at ≤ 20 mm (3/4 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.

M270M HPS345W / M270 HPS50W कहाँ उपयोग होता है

Preferred over conventional Gr.345W for new unpainted bridge construction. The HPS designation indicates FHWA-developed chemistry with 0.11% max carbon and controlled sulfur for enhanced weldability and lamellar tearing resistance. Flange splice CJP welds benefit from the lower carbon equivalent, reducing reject rates during cold-weather bridge fabrication. Material cost premium over standard Gr.345W is typically 15–25% per ton but eliminates weldability-related rework.

M270M HPS345W / M270 HPS50W के लिए H4 हाइड्रोजन नियंत्रण

HPS345W (HPS50W) already has inherently low carbon equivalent due to HPS chemistry control. Combined with H4 consumables, the preheat requirement drops to the lowest tier in Tables 12.6/12.7 — frequently 20–30°F lower than conventional 345W, compounding the weldability advantage of HPS chemistry with optimized hydrogen control.

≤ 20 mm (3/4 in) पर पूर्वतापन क्यों महत्वपूर्ण है

Material up to 20 mm (3/4 in) covers most cross-frame angles, stiffener clips, lateral bracing members, and light bridge plate. At this thickness, hydrogen diffusion is efficient and preheat requirements are the lowest in Table 6.3 — 10°C (50°F) for both groups. In FC service, this thickness tier also carries the lowest preheat in Tables 12.4–12.7, starting at 40°C (100°F) for H4 consumables.

≤ 20 mm (3/4 in) पर M270M HPS345W / M270 HPS50W

HPS345W (HPS50W) at thin thickness is specified for stiffener attachments and connection details where the improved weldability and lamellar tearing resistance justify the 15–25% material cost premium over conventional 345W. The 0.11% max carbon provides significantly lower carbon equivalent than conventional weathering steel, reducing preheat sensitivity and reject rates during production welding.

FC पुल वेल्डिंग के लिए H4-प्रमाणित उपभोज्य

H4 पूरक पदनाम प्रमाणित करता है कि उपभोज्य प्रति 100g जमा वेल्ड धातु में 4 mL से अधिक विसरणशील हाइड्रोजन जमा नहीं करता। फ्रैक्चर-क्रिटिकल M270M HPS345W / M270 HPS50W के लिए ≤ 20 mm (3/4 in) मोटाई पर > 2.8 kJ/mm ऊष्मा इनपुट के साथ, H4 उपभोज्य FC तालिकाओं में 100°F (40°C) का सबसे कम पूर्वतापन प्राप्त करते हैं। यह पसंदीदा हाइड्रोजन स्तर है जब पूर्वतापन कमी प्राथमिकता हो।

H4 > 2.8 kJ/mm · ≤ 20 mm (3/4 in) पर अन्य पुल स्टील

H4 > 2.8 kJ/mm पर M270M HPS345W / M270 HPS50W

विभिन्न संयोजन आज़माएँ

किसी भी AASHTO M270 स्टील, हाइड्रोजन स्तर, और ऊष्मा इनपुट संयोजन को देखने के लिए D1.5 ब्रिज पूर्वतापन कैलकुलेटर का उपयोग करें। स्ट्रक्चरल स्टील के लिए D1.1 पूर्वतापन कैलकुलेटर भी देखें।

संबंधित गाइड