Abstract: Laser cladding stainless steel alloying powder on 304 stainless steel thin plate substrate with thickness of 1.2 mm was carried out by use a laser equipped with a coaxial powder feed nozzle.

High-power diode lasers with outputs of ten or more kilowatts open new application scenarios for laser cladding. Particularly sustainable and resource-efficient coatings can be produced and applied, ...

New hard facing materials and corrosion-resistant alloys broaden the market for laser cladding services. Laser cladding, a type of laser surface alloying, is a process that precisely applies a uniform ...

Abstract: Laser cladding technology, a crucial branch of metal additive manufacturing, finds extensive application in aerospace, automotive manufacturing, and marine engineering. This process employs ...

ABSTRACT: The study of laser-powder cladding process subject to heat transfer, melting and crystallization kinetics has been carried out numerically and experimentally. The Kolmogorov-Avrami equation ...