Laser-based additive manufacturing (LBAM) has shown great potential in the development
of new metallic materials, especially in the design and fabrication of metal matrix composites …

The necessity for high performance and low-cost materials caused the researchers
worldwide to switch the focus from traditional steel materials to new particle-reinforced steel …

The main challenge of particle reinforced metal matrix composites (MMCs) is balancing
strength and ductility. This research uses type 420 stainless steel and spherical cast …

Laser powder bed fusion (LPBF) is one of the most widely used additive manufacturing
methods for fabricating metal components. It is possible to produce multi-material structures …

The spherical cast WC/W 2 C is selected to produce a martensitic stainless steel-based
composite using the laser powder bed fusion technique. W and C reacted with Fe and Cr …

Abstract 316L stainless steel has a wide range of engineering applications. However, its
relatively low yield strength limits its applications. In this work, strengthened 316L stainless …

Nowadays, many fields are benefiting from manufacturing complex parts with high
performance by selective laser melting (SLM), and particulate-reinforced iron-based metal …

Many traditional methods for strengthening martensitic stainless steel (SS) typically come at
the sacrifice of ductility. Herein, we report a configuration design of ceramic particles for …

Aluminum matrix composites are attractive in aerospace and automobile industry due to its
low density, high strength and high corrosion resistance. Additive manufacturing methods …

The work presented in this paper focused on the effects of laser remelting with varied laser
energy densities from 800 J/mm to 1400 J/mm on the phase transformation and …