Typical computer-based parameter optimization and uncertainty quantification of the
additive manufacturing process usually requires significant computational cost for …

This work focuses on the thermal modeling of the Directed Energy Deposition of a composite
coating (316L stainless steel reinforced by Tungsten carbides) on a 316L substrate. The …

In this paper, the 316L stainless steel matrix composite strengthened by TiB 2 was
successfully fabricated using laser cladding additive manufacturing technology. The …

AISI 316L stainless-steel-based tungsten carbide composite layers fabricated via laser metal
deposition are used for additive manufacturing. Heat treatment practices such as low …

In the last decade, machine learning is increasingly attracting researchers in several
scientific areas and, in particular, in the additive manufacturing field. Meanwhile, this …

Over the years, titanium and titanium alloys have seen a rise in choice of material for many
industries such as, biomedical, automotive, aerospace, marine, energy, and chemical …

Stainless steel-based WC composite layers fabricated by a laser cladding technique, have
strong mechanical strength. However, the wear resistance of WC composite layers is not …

Simulation of the geometry and internal grain size changes of laser cladding has been
extensively studied, with the majority of such simulations focusing on pure metal powders …

摘要综述了WC 熔覆层的研究进展, 重点介绍了激光熔覆工艺参数及其辅助技术对涂层的品质,
组织和性能的影响, 揭示了WC 对高熵合金复合涂层的耐磨性, 耐蚀性的影响, 同时阐述了WC …

In order to study the influence of process parameters on the residual stress of TB18 titanium
alloy produced by laser directed energy deposition, a method combining numerical …