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Fusion WELDING
specializing in precision Tig and Mig welding
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Lynn Welding provides professional MIG welding services tailored for aerospace applications. The facility is qualified to perform the GMAW process according to AWS D1.1, D1.2, and D1.6 standards.
Lynn Welding provides robotic welding services utilizing an ABB 6-axis robotic arm integrated with Fronius TIG welding equipment. This setup ensures both the required quality and throughput of parts.
Robotic Welding
Lynn Welding's robotic welding system operates at three distinct stations for enhanced flexibility and reduced tooling changeover. One station features a two-axis positioner with three tooling stations, allowing a six-axis welding robot to work efficiently under a light curtain safety system, ensuring quick and safe operator intervention. The other two stations are equipped with a 2’x4.5’ weld tooling table, protected by pneumatic telescoping barrier doors.
This versatile system incorporates an ABB 6-axis robotic arm integrated with Fronius TIG welding equipment to achieve the required quality and throughput of parts.
Fusion Welding
Below are the Fusion Welding approvals currently held by Lynn Welding. For additional accreditations and approvals, please visit our certifications page.
- MIL-W-22248A (Specifications for Welding Aluminum and Aluminum Alloy
- AWS D17.1 (Fusion Welding of Aerospace Applications)
- MIL-STD-2219 (Military Standard)
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- CSMP039 Fusion weld-aluminum
- CSMP039 Fusion weld-steel
- CSMP039 Fusion weld-nickel alloys
- CSMP039 Fusion weld-titanium
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- D1-4426 (Basic Quality System for D1-4426 approval only Quality System)
- BAC 5975 (CRES Heat Resist Nickel - Cobalt Alloys BAC 5975)
- MIL-STD-2219 (Aerospace Applications - Aluminum Alloys MIL-STD-2219)
- BAC 5975 (CRES Heat Resist Nickel - Cobalt Alloys)
- AMS-STD-2219 (Aluminum Alloys)
- MIL-W-8604 (Aluminum Alloys MIL-W-8604)
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- AMS2685 - Welding, Tungsten Arc, Inert Gas (GTAW Method)
- AMS2689 - Fusion Welding Titanium and Titanium Alloys
- AWS D17.1/D17.1M - Specification for Fusion Welding for Aerospace Applications
- GPS4100-1 - Welding, Fusion arc
- GPS7024-1 - Welding, Fusion arc (F-18)
- GPS7315-1 - Joining (Grimes)
- GPS7320-1 - Welding, Manual gas tungsten arc, Aluminum alloys (Grimes)
- P6200 - Process for Fusion Welding
- P6207 - Welding, Titanium, Gas Tungsten Arc, Process for
- S9074-AR-GIB-010/278
- WBS28 - Fusion welding supplement to AWS D17.1/D17.1M
- WBS5018 - Fusion arc welding
- CPW 24-1A (Carbon and Low Alloy Steels)
- CPW 24-2AJ (Corrosion-resistance steels other than Precipitation Hardenable)
- CPW 24-22A (Precipitation Hardenable, Corrosion-resistance steels)
- CPW 24-3AJ (Nickel and Non-precipitation Hardenable Nickel Alloys)
- CPW 24-33AJ (Precipitation Hardenable Nickel Alloys)
- CPW 24-6AJ (Commercial Pure Titanium)
- CPW 24-66AJ (Titanium Alloys)
- CPW 24-7A (Cobalt Alloys)
- PWA 16-1 (Carbon and Low Alloy Steels)
- PWA 16-2 (Corrosion-resistance steels other than Precipitation Hardenable)
- PWA 16-22 (Precipitation Hardenable, Corrosion-resistance steels)
- PWA 16-222 (Cres. Precipitation Hardenable Alloys)
- PWA 16-3 (Nickel and Non-precipitation Hardenable Nickel Alloys)
- PWA 16-33 (Precipitation Hardenable Nickel Alloys)
- PWA 16-37 (Ni & Non Precip. Hard. Nickel Alloys Welded To Cobalt Alloys)
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- PWA 16-333 (Ni & Non Precip. Hard. Ni Alloys Welded To Precip. Hard. Ni Alloys)
- PWA 16-4 (Aluminum Alloys)
- PWA 16-6 (Commercial Pure Titanium)
- PWA 16-66 (Titanium Alloys)
- PWA 16-666 (Titanium Alloys, Special Alloy Filler Metal Requirement)
- PWA 16-7 (Cobalt ALLOYS)
- PWA 16-733 (Cobalt to Nickel Alloys)
- See more Pratt & Whitney approvals