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Jan 22
Optimizing Material Quality with the Stacking Factor Test
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Dec 10
Enhancing Specialty Metal Performance with Oxide Resistance Testing
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Nov 19
Optical CMM Vision Inspection
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Oct 9
The Role of Interlaminate Resistance Testing in Motor Lamination Manufacturing Quality
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Sep 23
Ensuring Motor Lamination Quality with the Franklin Test
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Aug 9
Optimizing Motor Lamination Manufacturing with the Epstein Test
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Jun 12
The Role of Ductility Testing in Motor Laminations as Governed by ASTM A720
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May 17
Enhancing Precision in Motor Lamination Manufacturing with Advanced Coating Thickness Measurement
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May 3
Coating Adhesion & Cross Hatch Test governed by ASTM D3359
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Apr 17
Bend Adhesion & Tape Test
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Oct 11
Electric Motor Repair Case Study Part 2 - Reverse Engineering
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Oct 11
Electric Motor Repair Case Study Part 3 - Laser Cutting
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Oct 11
Electric Motor Repair Case Study Part 4 - Stacking & Welding Core
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Oct 11
Electric Motor Repair Overview
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Oct 11
Electric Motor Repair Case Study Part 5 - Re-inserting Core & Final Inspection
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Oct 11
Electric Motor Repair Case Study Part 1 - Inspect, Measure, Disassemble
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Jul 9
Thin Gauge Electrical Steel for EV Applications
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Jun 10
NADCAP Certification
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May 13
Laser Cutting vs. Stamping
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Apr 29
Lamination Bonding
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Mar 17
Cobalt & Nickel Annealing Process
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Feb 19
Electric Hybrid Motor Aerospace Case Study
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Nov 10
Annealed Cobalt & Nickel Stocking Program
Welding and Assembly
As an ISO 9001:2015 Certified company, Laser Technologies has comprehensive capabilities to deliver the highest quality products. If your product requires welding services during the manufacturing process, we are equipped to offer specialized welding services, including:
- Metal Inert Gas (MIG) Welding
- Tungsten Inert Gas (TIG) Welding
- Laser Welding
Typical Materials Welded
- Stainless
- Cold Roll Steel
- Hot Roll Steel
- Aluminum
MIG & TIG Welding
MIG - Metal inert gas welding is a welding process in which an electric arc forms between a consumable wire electrode and the workpiece metal which heats the workpiece metal causing them to melt and join. The weld area is protected from atmospheric contamination by an inert shielding gas. MIG welding is the most common industrial welding process, preferred for its versatility, speed, and the relative ease of adapting the process to robotic automation.
TIG - Tungsten inert gas welding is an arc welding process that uses a tungsten electrode to produce the weld. The weld area is protected from atmospheric contamination by an inert shielding gas, and a filler metal is normally used. TIG welding grants the operator excellent control over the weld, allowing for stronger, higher quality welds. However TIG welding is comparatively more complex and furthermore, it is significantly slower than most other welding techniques.