AWS D1.1:2025 · الجدول 5.11 · الفئة B

التسخين المسبق لـ A709 HPS50W مع SMAW (low-hydrogen) — 3/4" to 1-1/2"

الحد الأدنى لدرجة حرارة التسخين المسبق وبين الممرات لـ A709 HPS50W الملحوم بـ SMAW (low-hydrogen) عند سماكة 3/4" to 1-1/2"، وفقاً لـ AWS D1.1:2025 الجدول 5.11.

مبني على AWS D1.1:2025 الجدول 5.11 — كل قيمة متتبعة إلى البند.

الحد الأدنى لدرجة حرارة التسخين المسبق وبين الممرات

50°F / 10°C

الفئة B عملية SMAW أو SAW أو GMAW أو FCAW منخفضة الهيدروجين

AWS D1.1:2025 الجدول 5.11، §5.7

أداة مرجعية. تحقق من الإصدار المطبق على المشروع وإجراء اللحام المعتمد من المهندس.

Have a preheat question? Ask Flux

حول SMAW-LH

SMAW (Low-Hydrogen)

Low-hydrogen SMAW (E7018/E7016) uses basic-coated electrodes requiring rod oven storage, assigned to Category B in Table 5.11.

E7018 is the default electrode for structural fillet and groove welds on common building steels. Rod ovens should hold at a minimum of 250°F per D1.1 Clause 7.3.2.1; exposure time out of the oven is limited to 4 hours maximum per Table 7.1. For overhead position, use 3/32" diameter rods to control puddle size. Vertical-up stringer beads provide the best fusion on thicker members.

Why This Process?

Why SMAW (low-hydrogen) for A709 HPS50W at 3/4" to 1-1/2"

Why SMAW (low-hydrogen) for A709 HPS50W at 3/4" to 1-1/2"? SMAW (low-hydrogen) delivers 3-5 lb/hr deposition — compared to SAW at 15-40 lb/hr. Position capability: all positions. Suitability: field and shop.

Recommended Filler Metal

Filler Metal for SMAW-LH

Electrode: E7018 (AWS A5.1) — the universal low-hydrogen structural rod. Diameter: 1/8" (general/out-of-position), 5/32" (production), 3/16" (heavy plate flat only). Storage: 250°F rod oven minimum per D1.1 §7.3.2.1. Exposure limit: 4 hours out of oven per Table 7.1, then re-bake at 500-800°F for minimum 2 hours per §7.3.2.4 (A5.1 classification).

Typical values for reference — always verify against your approved WPS and electrode manufacturer data.

Common Structural Steels

A709 HPS50W

ASTM A709 HPS50W is a high-performance weathering steel (50 ksi yield, 70 ksi minimum tensile) developed specifically for unpainted bridge construction. The HPS designation indicates enhanced weldability through lower carbon (0.11% max), controlled sulfur (0.006% max with calcium treatment), and copper-nickel-chromium alloying for atmospheric corrosion resistance. These chemistry controls reduce the CE-IIW to approximately 0.38-0.42, well below conventional weathering steels. It falls under Category B in Table 5.11. The FHWA-funded development program that created HPS grades (starting in the 1990s) aimed to eliminate the weldability problems, lamellar tearing, and inconsistent toughness that plagued earlier weathering steel bridge designs. HPS50W has largely replaced conventional A709 Gr.50W in new unpainted bridge designs.

A709 HPS50W + SMAW-LH

لماذا هذا التسخين المسبق لـ A709 HPS50W مع SMAW-LH

High-performance weathering bridge steel with enhanced weldability at 50 ksi. This steel is prequalified only with low-hydrogen processes under Table 5.11. With SMAW-LH, E7018 low-hydrogen electrodes produce typically 4-8 mL/100g diffusible hydrogen under proper rod oven conditions. The 50°F minimum preheat balances the steel’s strength level and carbon equivalent against the hydrogen control provided by SMAW-LH. Non-low-hydrogen SMAW is not an option for this grade under D1.1 prequalified WPS.

أين يُستخدم A709 HPS50W

التطبيقات النموذجية لـ A709 HPS50W

Deployed in unpainted bridge plate girders across humid or coastal environments, curved girders on interchange ramps, signature pedestrian bridges in architectural applications, and rural highway bridges where lifecycle paint costs exceed the HPS premium. The enhanced weldability of HPS50W reduces fabrication risk at flange splices and allows wider groove angles with reduced risk of lamellar tearing in thick flange plates through controlled sulfur and inclusion shape control via calcium treatment. The chemistry control (0.11% max carbon, controlled sulfur at 0.006% max) differentiates HPS from conventional weathering grades. Material cost premium over standard A709 Gr.50W is typically 15-25% per ton but eliminates lifetime repainting cycles estimated at $15-25 per square foot every 20-25 years. The lower CE-IIW of HPS50W compared to conventional weathering grades means it welds with less preheat sensitivity, reducing reject rates on thick flange CJP splices during cold-weather bridge fabrication.

السماكة: 3/4" to 1-1/2"

لماذا يهم التسخين المسبق عند 3/4" to 1-1/2"

Preheat climbs at this range as thicker material slows heat dissipation, trapping hydrogen at crack-susceptible grain boundaries.

مقارنة الفولاذ

أنواع فولاذ أخرى مع SMAW (low-hydrogen) عند 3/4" to 1-1/2"

الفولاذ	الفئة	التسخين المسبق
A36	B	50°F (10°C)
A633 Gr.E	C	150°F (65°C)
A709 HPS70W	C	150°F (65°C)
A710 Gr.A	C	150°F (65°C)

سماكات أخرى

A709 HPS50W مع SMAW (low-hydrogen)

حاسبة تفاعلية

جرّب تركيبات مختلفة

استخدم حاسبة التسخين المسبق التفاعلية للبحث عن أي تركيبة من الفولاذ والعملية والسماكة من D1.1:2025 الجدول 5.11.

اعرف المزيد

أدلة لحام A709 HPS50W

الأسئلة الشائعة

ما هو الحد الأدنى للتسخين المسبق لـ A709 HPS50W مع SMAW-LH عند 3/4" to 1-1/2"؟

لـ A709 HPS50W الملحوم بـ SMAW (low-hydrogen) عند سماكة 3/4" to 1-1/2"، الحد الأدنى لدرجة حرارة التسخين المسبق هو 50°F (10°C) وفقاً لـ AWS D1.1:2025 الجدول 5.11، الفئة B. هذا أيضاً الحد الأدنى لدرجة حرارة بين الممرات.

ما الفئة التي تنطبق على A709 HPS50W مع SMAW-LH؟

A709 HPS50W الملحوم بـ SMAW (low-hydrogen) يقع تحت الفئة B في AWS D1.1:2025 الجدول 5.11. عملية SMAW أو SAW أو GMAW أو FCAW منخفضة الهيدروجين. عند سماكة 3/4" to 1-1/2"، تتطلب هذه الفئة تسخيناً مسبقاً بحد أدنى 50°F (10°C).

بيانات مرجعية D1.1:2025. غير تابع لـ AWS.