AWS D1.1:2025 · Tabelle 5.11 · Kategorie B

A709 HPS50W Vorwärmung für SAW — up to 3/4"

Mindestvorwärm- und Zwischenlagentemperatur für A709 HPS50W geschweißt mit SAW bei up to 3/4" Dicke, gemäß AWS D1.1:2025 Tabelle 5.11.

Basierend auf AWS D1.1:2025 Tabelle 5.11 — jeder Wert bis zur Klausel zurückverfolgt.

Mindest-Vorwärm- und Zwischenlagentemperatur

32°F / 0°C

Kategorie B
Niedrigwasserstoff SMAW-, SAW-, GMAW- oder FCAW-Verfahren

AWS D1.1:2025 Tabelle 5.11, §5.7

Wenn die Grundwerkstofftemperatur unter 32°F [0°C] liegt, auf mindestens 70°F [20°C] vorwärmen und während des Schweißens aufrechterhalten (Tabelle 5.11 Fußnote a).

Referenzwerkzeug. Gegen projektanwendbare Ausgabe und von Ingenieur genehmigte WPS prüfen.

Über SAW

SAW (Submerged Arc Welding)

SAW submerges the arc beneath granular flux for highest deposition rates, flat/horizontal only. Category B in Table 5.11.

SAW with F7A2-EM12K wire/flux delivers the highest deposition rates for flat-position fillet welds on building steel. Typical parameters: 500-700 amps, 28-32 volts, 18-30 IPM travel speed. Flux consumption runs approximately equal to wire consumption by weight. Unfused flux recovery and recycling systems are standard in production shops to control consumable costs.

Practical Tips: SAW + Common Structural Steels

SAW Tips for Common Structural Steels

For A709 HPS50W high-performance weathering bridge steel (50 ksi yield, CE-IIW ~0.38–0.42), SAW with weathering-compatible wire (F7A2-EM12K-W) handles girder web-to-flange fillet welds and flange butt splice groove welds. The lower CE-IIW compared to conventional A588 weathering steel means SAW preheat sensitivity is reduced, lowering the risk of HAZ cracking on thick flange splices during cold-weather shop fabrication.

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

Why This Process?

Why SAW for A709 HPS50W at up to 3/4"

Why SAW for A709 HPS50W at up to 3/4"? SAW delivers 15-40 lb/hr deposition — the highest deposition rate among available processes. Position capability: flat and horizontal only. Suitability: shop only.

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 + SAW

Warum Diese Vorwärmung für A709 HPS50W mit SAW

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 SAW, the submerged arc process with granular flux produces controlled hydrogen levels, with flux condition being the primary variable. The 32°F minimum preheat balances the steel’s strength level and carbon equivalent against the hydrogen control provided by SAW. Non-low-hydrogen SMAW is not an option for this grade under D1.1 prequalified WPS.

Wo A709 HPS50W Eingesetzt Wird

Typische Anwendungen für 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.

Dicke: up to 3/4"

Warum Vorwärmung bei up to 3/4" Wichtig ist

Thin material sheds heat quickly, allowing hydrogen to escape the HAZ readily — lowest preheat tier in Table 5.11.

Stähle Vergleichen

Andere Stähle mit SAW bei up to 3/4"

Stahl	Kategorie	Vorwärmung
A36	B	32°F (0°C)
A633 Gr.E	C	50°F (10°C)
A709 HPS70W	C	50°F (10°C)
A710 Gr.A	C	50°F (10°C)

Andere Dicken

A709 HPS50W mit SAW

Interaktiver Rechner

Verschiedene Kombinationen Ausprobieren

Verwenden Sie den interaktiven Vorwärmrechner für jede Stahl-, Verfahrens- und Dickenkombination aus D1.1:2025 Tabelle 5.11.

Mehr Erfahren

Schweißleitfäden für A709 HPS50W

Häufige Fragen

Was ist die Mindestvorwärmung für A709 HPS50W mit SAW bei up to 3/4"?

Für A709 HPS50W geschweißt mit SAW bei up to 3/4" Dicke beträgt die Mindestvorwärmtemperatur 32°F (0°C) gemäß AWS D1.1:2025 Tabelle 5.11, Kategorie B.

Welche Kategorie der Tabelle 5.11 gilt für A709 HPS50W mit SAW?

A709 HPS50W geschweißt mit SAW fällt unter Kategorie B in AWS D1.1:2025 Tabelle 5.11. Niedrigwasserstoff SMAW-, SAW-, GMAW- oder FCAW-Verfahren. Bei up to 3/4" Dicke erfordert diese Kategorie eine Mindestvorwärmung von 32°F (0°C).

Benötigt A709 HPS50W Vorwärmung bei up to 3/4"?

Bei up to 3/4" Dicke mit SAW beträgt die Mindestvorwärmung 32°F (0°C) — effektiv Umgebungstemperatur über dem Gefrierpunkt. Keine aktive Vorwärmung erforderlich.

D1.1:2025 Referenzdaten. Nicht mit AWS verbunden.