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Surface Engineering Volume 32, 2016 - Issue 12: Laser processing
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Original Articles

Effect of laser shock peening on aluminium alloy laser-welds

G. SunSchool of Mechanical Engineering, Southeast University, Nanjing211189, China;School of Mechanical Engineering, Jiangsu University, Zhenjiang212013, ChinaCorrespondence[email protected]
,
X. FangSchool of Mechanical Engineering, Jiangsu University, Zhenjiang212013, China
,
Z. TongSchool of Mechanical Engineering, Jiangsu University, Zhenjiang212013, China
,
Z. NiSchool of Mechanical Engineering, Southeast University, Nanjing211189, China
&
Y. LuSchool of Mechanical Engineering, Southeast University, Nanjing211189, China
Pages 943-948 | Received 08 Dec 2015, Accepted 17 May 2016, Published online: 04 Jul 2016

Citations (15)

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Sunil Pathak, Marek Böhm, Jan Kaufman, Jaromír Kopeček, Sanin Zulić, Ondřej Stránský, Jan Brajer, Libor Beránek & Tomáš Mocek. (2023) Microstructure and surface quality of SLM printed miniature helical gear in LSPwC. Surface Engineering 39:2, pages 229-237.
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Qiuju Zheng, Tian Chen & Hongbo Li. (2023) Enhanced mechanical properties of molybdenum-coated aluminium via laser cladding. Surface Engineering 39:1, pages 56-64.
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Sanin Zulić, Danijela Rostohar, Jan Kaufman, Sunil Pathak, Jaromir Kopeček, Marek Böhm, Jan Brajer & Tomáš Mocek. (2022) Fatigue life enhancement of additive manufactured 316l stainless steel by LSP using a DPSS laser system. Surface Engineering 38:2, pages 183-190.
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Xiaodi Zhang, Kai Liao, Vincent Ji, Hui Chen & Lei Hu. (2018) Effect of the shot peening on the deformation of Al alloy component. Surface Engineering 34:12, pages 946-953.
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Hai Zhang, Dongpo Wang & Caiyan Deng. (2018) Behaviours of ultrasonic peening treatment induced effects near the edges. Surface Engineering 34:1, pages 63-70.
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Articles from other publishers (10)

Nan Li, Qiang Wang, Wenjuan Niu, Peng Han, Nan Guo & Shenao Li. (2024) Microstructure and wear behaviors of 17-4 PH stainless steel fabricated by laser cladding with post laser shock peening treatment. Wear 538-539, pages 205207.
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Gang Song, Zejie Wang, Xiaoyu Fan & Liming Liu. (2023) Research Progress of Aluminum Alloy Welding/Plastic Deformation Composite Forming Technology in Achieving High-Strength Joints. Materials 16:24, pages 7672.
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Liang Lan, Ruyi Xin, Xinyuan Jin, Shuang Gao & Bo He. (2022) Influence of multiple laser shock peening treatments on the microstructure and mechanical properties of Ti−6Al−4V alloy fabricated by electron beam melting. International Journal of Minerals, Metallurgy and Materials 29:9, pages 1780-1787.
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Gang Song, Zejie Wang, Zhenfu Liu & Liming Liu. (2022) Effect of partial rolling on the microstructure and mechanical properties of laser-TIG hybrid welded joints of 7075-T6 aluminum alloy. The International Journal of Advanced Manufacturing Technology 121:1-2, pages 589-599.
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Jiwen Cheng, Gang Song, Xiaosheng Zhang, Chunbai Liu & Liming Liu. (2021) Review of Techniques for Improvement of Softening Behavior of Age-Hardening Aluminum Alloy Welded Joints. Materials 14:19, pages 5804.
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Yingwu Fang. (2021) Simulation and Experiment of Impact Effects of Nanosecond Pulse Laser-Generated Processing Ti-6Al-4V Alloy. Journal of Materials Engineering and Performance 30:8, pages 5515-5523.
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Sepehr Sadeh & Arif Malik. (2021) Investigation into the effects of laser shock peening as a post treatment to laser impact welding. Materials & Design 205, pages 109701.
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Peilin Fu, Jianghong Yuan, Xu Zhang, Guozheng Kang, Ping Wang & Qianhua Kan. (2020) Forced vibration analysis of blade after selective laser shock processing based on Timoshenko’s beam theory. Composite Structures 243, pages 112249.
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Nikola Kalentics, Manuel Ortega Varela de Seijas, Seth Griffiths, Christian Leinenbach & Roland E. Logé. (2020) 3D laser shock peening – A new method for improving fatigue properties of selective laser melted parts. Additive Manufacturing 33, pages 101112.
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Anton du PlessisDaniel GlaserHeinrich MollerNtombizodwa MatheLerato TshabalalaBusisiwe MfusiRoelf Mostert. (2019) Pore Closure Effect of Laser Shock Peening of Additively Manufactured AlSi10Mg. 3D Printing and Additive Manufacturing 6:5, pages 245-252.
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