Laser welding, known for its precision and efficiency, utilizes a concentrated laser beam to create strong, distortion-free welds, making it an indispensable tool in modern manufacturing processes.

Electron beam welding has the advantage of providing great control over the weld in a high-vacuum environment such as found in space. So why use laser beam welding (LBW) rather than EBW?

Jumping into the world of laser welding? It’s definitely exciting—but let’s be honest, it comes with its fair share of ...

Welding in the thick sheet metal sector is challenging due to the high penetration depths required. Researchers at LZH aim to facilitate welding of thick-walled components in the 15 mm to 30 mm range ...

NASA Marshall engineers and scientists, along with their collaborators from Ohio State University, monitor laser beam welding in a vacuum chamber during a Boeing 727 parabolic flight. Tasha Dixon ...

Bouygues Offshore SA is developing its own scheme for use in J and S offshore pipelay based on high-powered, laser-beam welding (LBW) technology.

With Laser beam Welding equipment accounting for approximately 20% of automotive welding operations, this percentage is expected to rise as productivity, quality, and weld strength improve.

And Westsächsische Hochschule Zwickau, will carry out fundamental investigations into the MSG welding process, and also test and characterize the welded joints. Hybrid laser arc welding combines the ...

Conclusion The variation in laser weld quality in dental FeNiCr wires attributable to operator skill can be minimized by optimization of the physical welding parameters.

Recent improvements in “energy beam” welding techniques such as electron beam welding and laser welding offer vast improvements in speed and accuracy in comparison to electric-arc-based techniques.