AWS D1.1:2025 · Tabla 5.11 · Categoría G

Precalentamiento de A913 Gr.80 para SAW (H4) — up to 3/4"

Temperatura mínima de precalentamiento e interpaso para A913 Gr.80 soldado con SAW (H4) en espesor up to 3/4", según AWS D1.1:2025 Tabla 5.11.

Basado en AWS D1.1:2025 Tabla 5.11 — cada valor trazado a la cláusula.

Temperatura Mínima de Precalentamiento e Interpaso

32°F / 0°C

Categoría G
Consumibles certificados H4 — control de hidrógeno más estricto

AWS D1.1:2025 Tabla 5.11, §5.7

Cuando la temperatura del metal base es inferior a 32°F [0°C], precalentar a mínimo 70°F [20°C] y mantener durante la soldadura (Tabla 5.11 nota al pie a).

Esta página muestra precalentamiento con consumibles certificados H4. La designación H4 es más estricta que H8 — no más de 4 mL de hidrógeno difusible por 100g de metal depositado, según AWS A4.3.

Herramienta de referencia. Verificar contra la edición aplicable al proyecto y WPS aprobada por el Ingeniero.

SAW (H4) Overview

SAW (H4) for A913 Gr.80 at up to 3/4"

H4-certified SAW (H4) for A913 Gr.80 at up to 3/4": minimum preheat 32°F (0°C) under Category G. H4 certification with SAW is the most difficult to achieve among all arc welding processes due to the large volume of granular flux involved. Flux moisture control must be exceptional — many SAW flux products cannot reliably achieve H4 levels even under ideal conditions. The limited availability of H4-certified SAW wire-flux combinations makes this designation uncommon in practice, which is one reason D1.1 Table 5.11 assigns SAW-compatible steels to categories that do not require H4.

Acerca de 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 Grade 80 TMCP shapes (80 ksi yield, Category G, H4 required), SAW with H4-designated wire-flux combination is theoretically permitted but highly uncommon — very few SAW consumable combinations carry the H4 designator. Sourcing verified H4 SAW flux requires direct engagement with specialty consumable manufacturers. A higher-strength wire is also needed for tensile matching (EM12K at 70 ksi tensile.

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

Why This Process?

Why SAW (H4) for A913 Gr.80 at up to 3/4"

Why SAW (H4) for A913 Gr.80 at up to 3/4"? SAW (H4) delivers 15-40 lb/hr deposition — the highest deposition rate among available processes. Position capability: flat and horizontal only. Suitability: shop only. The H4 designation provides the strictest hydrogen control available, which is mandatory for this steel grade under Table 5.11 — no other hydrogen level or standard low-hydrogen process is prequalified.

High-Strength and TMCP Steels

A913 Gr.80

ASTM A913 Grade 80 (80 ksi yield, 95 ksi minimum tensile) is the highest-strength TMCP shape specification in D1.1, produced exclusively by the QST process. It requires H4-certified consumables (the strictest hydrogen control at ≤4 mL/100g deposited weld metal per AWS A4.3) and falls exclusively under Category G, which has four thickness-dependent preheat tiers (32°F up to 3/4”, 50°F up to 1-1/2”, 150°F up to 2-1/2”, 225°F above). No other hydrogen designation, standard low-hydrogen, or non-low-hydrogen SMAW is prequalified for this grade under Table 5.11. The H4 requirement limits the available consumable pool significantly — only select electrode classifications carry the H4 designator. A913 Gr.80 availability is limited to heavy W14 column sections from a small number of domestic and international mills, with procurement lead times typically 16-24 weeks.

A913 Gr.80 + SAW

Por qué Este Precalentamiento para A913 Gr.80 con SAW

Highest-strength 80 ksi TMCP shape requiring H4 consumables exclusively. This steel requires H4-certified consumables — the strictest hydrogen control in Table 5.11 at no more than 4 mL diffusible hydrogen per 100g. At 32°F with SAW, the four thickness-dependent preheat tiers in Category G reflect the balance between the steel's 80 ksi yield strength and the exceptional hydrogen control provided by H4 certification. No other hydrogen designation is prequalified for this grade.

Dónde se Usa A913 Gr.80

Aplicaciones Típicas de A913 Gr.80

Reserved for the most demanding column applications in super-tall structures, typically interior gravity columns carrying 50+ stories of tributary load. A913 Gr.80 allows W14 sections to replace built-up box columns, simplifying connections and reducing fabrication cost while maintaining equivalent axial capacity. Every weld on this grade demands verified H4 consumables and documented preheat compliance — no exceptions or substitutions are permitted under Table 5.11. Column splice CJP welds require UT inspection per D1.1 Table 8.2. Only a limited number of domestic mills produce A913 Gr.80 shapes, with lead times of 16-24 weeks for non-stock sizes. The H4 consumable requirement eliminates most standard electrode inventory and requires dedicated electrode orders for each project. Fabricators must establish verified H4 supply chains before bidding Gr.80 column work, as H4-designated electrodes are not stocked by most welding distributors. Rejected consumable certifications can delay erection schedules by weeks.

Espesor: up to 3/4"

Por qué el Precalentamiento Importa en up to 3/4"

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

Requisito H4

Consumibles Certificados H4 para A913 Gr.80

La Categoría G es exclusiva para A913 Gr.80 y requiere consumibles certificados H4 — el control de hidrógeno más estricto en D1.1 con no más de 4 mL de hidrógeno difusible por 100g de metal de soldadura depositado. Los consumibles estándar de bajo hidrógeno o H8 no están precalificados para este grado.

Otros Espesores

A913 Gr.80 con SAW (H4)

Calculadora Interactiva

Prueba Diferentes Combinaciones

Usa la calculadora interactiva de precalentamiento para consultar cualquier combinación de acero, proceso y espesor de D1.1:2025 Tabla 5.11.

Más Información

Guías de Soldadura de A913 Gr.80

Preguntas Frecuentes

¿Cuál es el precalentamiento mínimo para A913 Gr.80 con SAW en up to 3/4"?

Para A913 Gr.80 soldado con SAW (H4) en espesor up to 3/4", la temperatura mínima de precalentamiento es 32°F (0°C) según AWS D1.1:2025 Tabla 5.11, Categoría G. Esta es también la temperatura mínima de interpaso — la junta no debe enfriarse por debajo de 32°F entre pasadas.

¿Qué categoría de la Tabla 5.11 aplica a A913 Gr.80 con SAW?

A913 Gr.80 soldado con SAW (H4) cae bajo la Categoría G en AWS D1.1:2025 Tabla 5.11. Consumibles certificados H4 — control de hidrógeno más estricto. En espesor up to 3/4", esta categoría requiere un precalentamiento mínimo de 32°F (0°C).

¿Necesita A913 Gr.80 precalentamiento en up to 3/4"?

En espesor up to 3/4" con SAW (H4), el precalentamiento mínimo es 32°F (0°C) — efectivamente temperatura ambiente sobre congelación. No se requiere precalentamiento activo a menos que el metal base esté por debajo de 32°F. Según la nota al pie (a) de la Tabla 5.11, si se trabaja bajo congelación, precalentar a al menos 70°F (20°C) y mantener durante la soldadura.

¿Qué significa H4 para soldar A913 Gr.80?

El designador suplementario H4 certifica que el consumible deposita no más de 4 mL de hidrógeno difusible por 100g de metal depositado. Para A913 Gr.80, usar consumibles H4 certificados con SAW califica para Categoría G con precalentamiento de 32°F en up to 3/4".

Datos de referencia D1.1:2025. Sin afiliación con AWS.