AWS D1.1:2025 · Tabela 5.11 · Categoria B

Pré-aquecimento de A913 Gr.50/60/65 para SAW — 3/4" to 1-1/2"

Temperatura mínima de pré-aquecimento e interpasse para A913 Gr.50/60/65 soldado com SAW em espessura 3/4" to 1-1/2", conforme AWS D1.1:2025 Tabela 5.11.

Baseado na AWS D1.1:2025 Tabela 5.11 — cada valor rastreado à cláusula.

Temperatura Mínima de Pré-aquecimento e Interpasse

50°F / 10°C

Categoria B
Processo SMAW, SAW, GMAW ou FCAW de baixo hidrogênio

AWS D1.1:2025 Tabela 5.11, §5.7

Ferramenta de referência. Verificar contra a edição aplicável ao projeto e EPS aprovada pelo Engenheiro.

Sobre 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 on high-strength plate requires careful selection of wire-flux combinations to meet both tensile matching and toughness requirements. F8A4-EA2 or similar high-performance combinations serve Category C steels. Heat input control is particularly important on TMCP grades because SAW naturally deposits high heat input due to the deeply penetrating arc.

Practical Tips: SAW + High-Strength and TMCP Steels

SAW Tips for High-Strength and TMCP Steels

For A913 Grades 50/60/65 TMCP shapes (CE-IIW 0.35–0.42), SAW is limited to flat-position shop fabrication of built-up sections — most A913 work involves W-shape splices welded in positions impractical for SAW. Where flat-position SAW is feasible, use 3/32" EM12K at 400–550 A with neutral flux. D1.1 Clause 7.7 heat input limitations do NOT apply to A913/A913M — SAW high heat.

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

Why This Process?

Why SAW for A913 Gr.50/60/65 at 3/4" to 1-1/2"

Why SAW for A913 Gr.50/60/65 at 3/4" to 1-1/2"? SAW delivers 15-40 lb/hr deposition — the highest deposition rate among available processes. Position capability: flat and horizontal only. Suitability: shop only.

High-Strength and TMCP Steels

A913 Gr.50/60/65

ASTM A913 Grades 50 (50 ksi yield), 60 (60 ksi yield), and 65 (65 ksi yield) are quenched-and-self-tempered (QST) structural shapes produced by thermo-mechanical controlled processing (TMCP) — an in-line water quench immediately after the final rolling pass, followed by self-tempering from the core heat. This produces a fine-grained bainitic/ferritic microstructure throughout the full cross-section with carbon content typically 0.10-0.16% and CE-IIW of 0.35-0.42. Standard low-hydrogen processes use Category B; H8-certified consumables qualify for the reduced Category D (32°F all thicknesses), reflecting the inherent hydrogen cracking resistance of the TMCP microstructure. Available exclusively as W-shapes (primarily W14 heavy column sections), A913 is not produced as plate or other forms. The QST process eliminates the need for separate mill heat treatment, providing consistent through-thickness properties.

A913 Gr.50/60/65 + SAW

Por que Este Pré-aquecimento para A913 Gr.50/60/65 com SAW

TMCP structural shapes for seismic frames with H8-eligible reduced preheat. 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 50°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.

Onde A913 Gr.50/60/65 é Usado

Aplicações Típicas de A913 Gr.50/60/65

Specified for seismic moment frame columns, high-rise building corner columns, transfer girder bearing seats, heavy truss chords, stadium cantilever support columns, and parking garage moment frame members. A913 TMCP shapes eliminate the need for post-rolling heat treatment, providing consistent through-thickness properties from flange tip to web center. Column splice CJP welds and beam-to-column continuity plate fillet welds are the critical weld joints. Available in W14 sections from W14x132 through W14x730, these shapes are the backbone of seismic column design in high-rise construction. The TMCP process creates a fine-grained microstructure throughout the full cross-section, unlike conventional heat-treated shapes that may have property gradients. The H8 path to Category D (32°F all thicknesses) offers significant fabrication cost savings on heavy column splices that would otherwise require 150-225°F preheat under Category B. Column flange thicknesses on W14x455 and heavier sections exceed 3".

Espessura: 3/4" to 1-1/2"

Por que o Pré-aquecimento Importa em 3/4" to 1-1/2"

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

Comparar Aços

Outros Aços com SAW em 3/4" to 1-1/2"

Aço	Categoria	Pré-aquecimento
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)

Outras Espessuras

A913 Gr.50/60/65 com SAW

Calculadora Interativa

Experimente Diferentes Combinações

Use a calculadora interativa de pré-aquecimento para consultar qualquer combinação de aço, processo e espessura da D1.1:2025 Tabela 5.11.

Saiba Mais

Guias de Soldagem de A913 Gr.50/60/65

Perguntas Frequentes

Qual é o pré-aquecimento mínimo para A913 Gr.50/60/65 com SAW em 3/4" to 1-1/2"?

Para A913 Gr.50/60/65 soldado com SAW em espessura 3/4" to 1-1/2", a temperatura mínima de pré-aquecimento é 50°F (10°C) conforme AWS D1.1:2025 Tabela 5.11, Categoria B. Esta é também a temperatura mínima de interpasse.

Qual categoria da Tabela 5.11 se aplica a A913 Gr.50/60/65 com SAW?

A913 Gr.50/60/65 soldado com SAW se enquadra na Categoria B da AWS D1.1:2025 Tabela 5.11. Processo SMAW, SAW, GMAW ou FCAW de baixo hidrogênio. Em espessura 3/4" to 1-1/2", esta categoria requer pré-aquecimento mínimo de 50°F (10°C).

Dados de referência D1.1:2025. Sem afiliação com AWS.