AWS D1.1:2025 · 표 5.11 · 범주 B

A992 FCAW 예열 — 1-1/2" to 2-1/2"

AWS D1.1:2025 표 5.11에 따른 A992의 FCAW 용접 시 1-1/2" to 2-1/2" 두께에서의 최소 예열 및 층간 온도.

AWS D1.1:2025 표 5.11 기반 — 모든 값이 조항까지 추적됨.

최소 예열 및 층간 온도

150°F / 65°C

범주 B 저수소 SMAW, SAW, GMAW 또는 FCAW 공정

AWS D1.1:2025 표 5.11, §5.7

참조 도구. 프로젝트 적용 판본 및 엔지니어 승인 WPS와 대조 확인하십시오.

Have a preheat question? Ask Flux

FCAW 정보

FCAW (Flux Cored Arc Welding)

FCAW uses tubular flux-cored wire, available gas-shielded (E71T-1) or self-shielded (E71T-8) for field work. Category B in Table 5.11.

E71T-1 gas-shielded wire is the workhorse for structural steel erection fillet welds. Self-shielded E71T-8 is preferred for field welding where wind makes gas shielding unreliable. Deposition rates run 8-12 lb/hr depending on wire diameter and position. The flux core provides a protective slag that supports the puddle in vertical-up and overhead positions.

Practical Tips: FCAW + Common Structural Steels

FCAW Tips for Common Structural Steels

For A992 wide-flange shapes (50 ksi yield, Category B), FCAW E71T-1M at 220–260 A is the standard field-erection process for moment-frame beam flange welds, column splice plates, and all-around column base plate fillets. Demand-critical seismic welds per AISC 341 require H8-designated wire and CVN testing at -20°F — confirm wire lot certification before starting seismic connection welds.

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

Recommended Filler Metal

Filler Metal for FCAW

Gas-shielded: E71T-1C (AWS A5.20, requires 100% CO2) or E71T-1M (requires 75/25 Ar/CO2 mixed gas) — the C/M suffix designates the required shielding gas. Self-shielded: E71T-8 (no external gas, field-ready). Diameter: 0.045" standard, 1/16" for high-deposition. Stick-out: 3/4" to 1-1/4" (longer than GMAW due to resistive heating of flux core).

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

Common Structural Steels

A992

ASTM A992 (50 ksi minimum yield, 65 ksi maximum yield, 65 ksi minimum tensile) is the standard specification for W-shapes in building construction — virtually all wide-flange beams and columns in US structural steel buildings are A992. The specification was created in 1998 to address weldability concerns with earlier A36/A572 shapes by imposing tighter chemistry controls: 0.23% max carbon, 0.15% max combined V+Cb+N, and a 0.85 maximum yield-to-tensile ratio to ensure ductile behavior in seismic connections. These controls produce a typical CE-IIW of 0.38-0.44. It falls under Category B in Table 5.11, requiring low-hydrogen welding processes. Most domestic W-shapes are dual-certified A992/A572 Gr.50, with actual mill test yields typically 50-58 ksi. The controlled chemistry makes A992 the most weldable 50 ksi structural shape available.

A992 + FCAW

FCAW를 사용한 A992의 이 예열 이유

Standard W-shape specification for virtually all US building wide-flanges. This steel is prequalified only with low-hydrogen processes under Table 5.11. With FCAW, flux-cored wire in FCAW provides a combination of deoxidizers and low-moisture flux formulations that control hydrogen. The 150°F minimum preheat balances the steel’s strength level and carbon equivalent against the hydrogen control provided by FCAW. Non-low-hydrogen SMAW is not an option for this grade under D1.1 prequalified WPS.

A992이 사용되는 곳

A992의 일반적인 용도

The universal W-shape steel for building frames: beam-to-column moment connections, simple shear tabs, column web doubler plates, continuity plates, collector beams in lateral systems, drag struts, transfer beams, and composite deck stud rails. A992 chemistry control (max 0.23% carbon, max 0.15% V-Cb-N) was specifically designed to improve weldability over earlier A36/A572 shapes after the 1994 Northridge earthquake revealed brittle fracture problems in welded steel moment frames. Flange CJP welds in seismic moment frames are the highest-criticality joints in US building construction. The controlled yield-to-tensile ratio (max 0.85) ensures ductile behavior in seismic connections by guaranteeing sufficient strain hardening capacity. Mill test reports for A992 shapes routinely show actual yield strengths of 50-55 ksi, well above the 50 ksi minimum. The weld access hole geometry per AISC 358 is dimensioned specifically for A992 flanges to reduce stress concentrations at the CJP weld termination.

두께: 1-1/2" to 2-1/2"

1-1/2" to 2-1/2"에서 예열이 중요한 이유

Heavy plate with significant restraint and thermal mass — preheat is critical to maintain slow cooling for hydrogen escape.

강재 비교

1-1/2" to 2-1/2"에서 FCAW를 사용하는 다른 강재

강재	범주	예열
A36	B	150°F (65°C)
A633 Gr.E	C	225°F (110°C)
A709 HPS70W	C	225°F (110°C)
A710 Gr.A	C	225°F (110°C)

기타 두께

A992, FCAW

인터랙티브 계산기

다양한 조합 시도

인터랙티브 예열 계산기를 사용하여 D1.1:2025 표 5.11의 모든 강재, 공정, 두께 조합을 조회하세요.

더 알아보기

A992 용접 가이드

자주 묻는 질문

1-1/2" to 2-1/2"에서 FCAW를 사용하여 A992의 최소 예열은 얼마입니까?

1-1/2" to 2-1/2" 두께에서 FCAW로 용접하는 A992의 최소 예열 온도는 AWS D1.1:2025 표 5.11, 범주 B에 따라 150°F (65°C)입니다. 이것은 또한 최소 층간 온도입니다.

FCAW를 사용하는 A992에 어떤 범주가 적용됩니까?

FCAW로 용접하는 A992은 AWS D1.1:2025 표 5.11의 범주 B에 해당합니다. 저수소 SMAW, SAW, GMAW 또는 FCAW 공정. 1-1/2" to 2-1/2" 두께에서 이 범주는 최소 150°F (65°C)의 예열을 요구합니다.

1-1/2" to 2-1/2"에서 A992의 예열이 150°F인 이유는?

1-1/2" to 2-1/2"에서 FCAW로 용접하는 A992의 150°F 예열은 강재의 경화성과 이 두께에서의 증가된 구속력의 조합을 반영합니다.

D1.1:2025 참조 데이터. AWS와 무관.