[HTML][HTML] Review on residual stresses in metal additive manufacturing: formation mechanisms, parameter dependencies, prediction and control approaches
S Chen, H Gao, Q Wu, Z Gao, X Zhou - Journal of materials research and …, 2022 - Elsevier
Metal additive manufacturing (MAM) technology has great application potential in the
aerospace, medical and energy fields with its high material utilization efficiency to achieve …
aerospace, medical and energy fields with its high material utilization efficiency to achieve …
An overview of residual stresses in metal powder bed fusion
JL Bartlett, X Li - Additive Manufacturing, 2019 - Elsevier
Metal additive manufacturing (AM) has garnered tremendous research and industrial
interest in recent years; in the field, powder bed fusion (PBF) processing is the most common …
interest in recent years; in the field, powder bed fusion (PBF) processing is the most common …
The metallurgy and processing science of metal additive manufacturing
Additive manufacturing (AM), widely known as 3D printing, is a method of manufacturing that
forms parts from powder, wire or sheets in a process that proceeds layer by layer. Many …
forms parts from powder, wire or sheets in a process that proceeds layer by layer. Many …
Additive manufacturing of Ti–6Al–4V parts through laser metal deposition (LMD): Process, microstructure, and mechanical properties
As one of the most important additive manufacturing (AM) techniques, laser metal deposition
(LMD) has been extensively studied specially during the last few years. Similar to other AM …
(LMD) has been extensively studied specially during the last few years. Similar to other AM …
An experimental investigation into additive manufacturing-induced residual stresses in 316L stainless steel
Additive manufacturing (AM) technology provides unique opportunities for producing net-
shape geometries at the macroscale through microscale processing. This level of control …
shape geometries at the macroscale through microscale processing. This level of control …
Measurement science needs for real-time control of additive manufacturing powder-bed fusion processes
Additive manufacturing (AM) is increasingly used in the development of new products: from
conceptual design to functional parts and tooling. However, today, variability in part quality …
conceptual design to functional parts and tooling. However, today, variability in part quality …
Crack propagation and fracture toughness of Ti6Al4V alloy produced by selective laser melting
V Cain, L Thijs, J Van Humbeeck… - Additive …, 2015 - Elsevier
The fracture toughness (K 1c) and fatigue crack growth rate (FCGR) properties of selective
laser melted (SLM) specimens produced from grade 5 Ti6Al4V powder metal has been …
laser melted (SLM) specimens produced from grade 5 Ti6Al4V powder metal has been …
A review of the as-built SLM Ti-6Al-4V mechanical properties towards achieving fatigue resistant designs
Ti-6Al-4V has been widely used in both the biomedical and aerospace industry, due to its
high strength, corrosion resistance, high fracture toughness and light weight. Additive …
high strength, corrosion resistance, high fracture toughness and light weight. Additive …
Overhanging features and the SLM/DMLS residual stresses problem: Review and future research need
AE Patterson, SL Messimer, PA Farrington - Technologies, 2017 - mdpi.com
A useful and increasingly common additive manufacturing (AM) process is the selective
laser melting (SLM) or direct metal laser sintering (DMLS) process. SLM/DMLS can produce …
laser melting (SLM) or direct metal laser sintering (DMLS) process. SLM/DMLS can produce …
The achievable mechanical properties of SLM produced Maraging Steel 300 components
T Hermann Becker, D Dimitrov - Rapid Prototyping Journal, 2016 - emerald.com
Purpose Selective laser melting (SLM) is a process that produces near net shape parts from
metallic powders. A concern with SLM-produced metals is the achievable materials …
metallic powders. A concern with SLM-produced metals is the achievable materials …