Tailoring microstructure of additively manufactured Ti6Al4V titanium alloy using hybrid additive manufacturing technology
H Lu, W Deng, K Luo, Y Chen, J Wang, J Lu - Additive Manufacturing, 2023 - Elsevier
An innovative hybrid additive manufacturing (HAM) technology combining laser shock
peening without coating (LSPwC) and laser powder bed fusion (LPBF) has been proposed …
peening without coating (LSPwC) and laser powder bed fusion (LPBF) has been proposed …
Microstructural evolution and tensile property enhancement of remanufactured Ti6Al4V using hybrid manufacturing of laser directed energy deposition with laser …
H Lu, L Wu, H Wei, J Cai, K Luo, X Xu, J Lu - Additive Manufacturing, 2022 - Elsevier
Laser-directed energy deposition (LDED) provides an attractive and cost-effective way to
remanufacture high-value engineering components. However, the LDED manufactured …
remanufacture high-value engineering components. However, the LDED manufactured …
High-performance integrated additive manufacturing with laser shock peening–induced microstructural evolution and improvement in mechanical properties of …
J Lu, H Lu, X Xu, J Yao, J Cai, K Luo - International Journal of Machine …, 2020 - Elsevier
High-performance integrated additive manufacturing with laser shock peening (LSP), is an
innovative selective laser melting (SLM) method to improve mechanical properties, and …
innovative selective laser melting (SLM) method to improve mechanical properties, and …
[HTML][HTML] Effects of laser shock peening on microstructure and properties of Ti–6Al–4V titanium alloy fabricated via selective laser melting
L Lan, R Xin, X Jin, S Gao, B He, Y Rong, N Min - Materials, 2020 - mdpi.com
Laser shock peening (LSP) is an innovative surface treatment process with the potential to
change surface microstructure and improve mechanical properties of additively …
change surface microstructure and improve mechanical properties of additively …
Gradient microstructure evolution in laser shock peened Ti6Al4V titanium alloy
The microstructures at different depths of Ti6Al4V alloy induced by laser shock peening
(LSP) are comprehensively characterized using TEM, EBSD and XRD. The results show that …
(LSP) are comprehensively characterized using TEM, EBSD and XRD. The results show that …
Simultaneous improvement of strength and elongation of laser melting deposited Ti-6Al-4V titanium alloy through three-stage heat treatment
Y Zhou, K Wang, Z Sun, R Xin - Journal of Materials Processing …, 2022 - Elsevier
This study reported a strategy of three-stage heat treatment to simultaneously improve yield
strength (YS), ultimate tensile strength (UTS) and elongation (EL) of laser melting deposited …
strength (YS), ultimate tensile strength (UTS) and elongation (EL) of laser melting deposited …
Laser shock peening of laser additive manufactured Ti6Al4V titanium alloy
W Guo, R Sun, B Song, Y Zhu, F Li, Z Che, B Li… - Surface and coatings …, 2018 - Elsevier
Laser shock peening is combined with laser additive manufacturing to modify the surface
microstructures and mechanical properties of as manufactured Ti6Al4V titanium alloy …
microstructures and mechanical properties of as manufactured Ti6Al4V titanium alloy …
Effects of laser shock peening on microstructure and fatigue behavior of Ti–6Al–4V alloy fabricated via electron beam melting
X Jin, L Lan, S Gao, B He, Y Rong - Materials Science and Engineering: A, 2020 - Elsevier
Laser shock peening (LSP) is a post-treatment process that is widely used to modify the
surface microstructure and mechanical properties of parts constructed by additive …
surface microstructure and mechanical properties of parts constructed by additive …
Effects of laser shock peening on the ultra-high cycle fatigue performance of additively manufactured Ti6Al4V alloy
Q Jiang, S Li, C Zhou, B Zhang, Y Zhang - Optics & Laser Technology, 2021 - Elsevier
Although additive manufacturing (AM) allows to fabricate metallic parts with a high static
strength comparable to their forged counterparts, the fatigue strength of an AM-ed part is …
strength comparable to their forged counterparts, the fatigue strength of an AM-ed part is …
Interfacial characterization and reaction mechanism of Ti/Al multi-material structure during laser powder bed fusion process
X Wu, D Zhang, D Yi, S Hu, G Huang, R Poprawe… - Materials …, 2022 - Elsevier
Laser powder bed fusion (LPBF) process is a promising additive manufacturing technique to
manufacture multi-material integrated parts with complex structures. In this paper, the multi …
manufacture multi-material integrated parts with complex structures. In this paper, the multi …
相关搜索
- laser melting titanium alloy
- ti 6al titanium alloy
- hybrid manufacturing microstructural evolution
- strength and elongation titanium alloy
- ti 6al strength and elongation
- ti 6al laser melting
- hybrid manufacturing property enhancement
- hybrid manufacturing energy deposition
- additive manufacturing mechanical properties
- fatigue performance ti6al4v alloy
- ti 6al scanning strategies
- simultaneous improvement titanium alloy
- ti 6al simultaneous improvement
- ti 6al crystallographic texture
- heat treatment titanium alloy
- ti 6al heat treatment