Additive manufacturing of functionally graded metallic materials using laser metal deposition
Functionally graded materials (FGMs) have attracted much research interest in the industry
due to their graded material properties, which result from gradually distributed compositions …
due to their graded material properties, which result from gradually distributed compositions …
Current research and industrial application of laser powder directed energy deposition
Additive Manufacturing (AM) technologies are recognized as the future of the manufacturing
industry thanks to their possibilities in terms of shape design, part functionality, and material …
industry thanks to their possibilities in terms of shape design, part functionality, and material …
Wire arc additive manufacturing of functionally graded material with SS 316L and IN625: Microstructural and mechanical perspectives
In the present study, functionally graded material (FGM) of Austenitic Stainless Steel-SS
316L and Nickel-based superalloy-Inconel 625 (IN625) was manufactured via Gas Metal Arc …
316L and Nickel-based superalloy-Inconel 625 (IN625) was manufactured via Gas Metal Arc …
Introduction to additive manufacturing
This chapter introduces the basic definition, principle, and development of various additive
manufacturing (AM) processes (eg, powder bed fusion, electron beam melting, direct metal …
manufacturing (AM) processes (eg, powder bed fusion, electron beam melting, direct metal …
Additive manufacturing of copper–H13 tool steel bi-metallic structures via Ni-based multi-interlayer
When selecting a material for dies and molds, strength is needed at high temperatures to
hold the shape of the component along with a high thermal conductivity to decrease the …
hold the shape of the component along with a high thermal conductivity to decrease the …
Fabrication of SS316L-IN625 functionally graded materials by powder-fed directed energy deposition
In this work, functionally graded materials of Stainless Steel 316L and Inconel 625 were
fabricated using Directed Energy Deposition. Intermediate layers were built in between of …
fabricated using Directed Energy Deposition. Intermediate layers were built in between of …
A cost-driven process planning method for hybrid additive–subtractive remanufacturing
Hybrid manufacturing combines additive manufacturing's advantages of building complex
geometries and subtractive manufacturing's benefits of dimensional precision and surface …
geometries and subtractive manufacturing's benefits of dimensional precision and surface …
Effects of additive manufacturing processes on part defects and properties: A classification review
Additive manufacturing (AM) is an established manufacturing technology which allows for
greater design freedom. Across the seven existing AM processes, we observe a variety of …
greater design freedom. Across the seven existing AM processes, we observe a variety of …
Vision-based spatial damage localization method for autonomous robotic laser cladding repair processes
HZ Imam, H Al-Musaibeli, Y Zheng, P Martinez… - Robotics and Computer …, 2023 - Elsevier
Repair technologies have been considered as sustainable approaches due to their
capability to restore value in a damaged component and bring it to like-new condition …
capability to restore value in a damaged component and bring it to like-new condition …
[HTML][HTML] An analysis of fatigue failure mechanisms in an additively manufactured and shot peened IN 718 nickel superalloy
The family of additive manufacturing techniques has been attracting significant attention of
manufacturers and researchers, due to its unrivalled flexibility to fabricate and repair …
manufacturers and researchers, due to its unrivalled flexibility to fabricate and repair …