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K. Praveenkumar, S. Sudhagara Rajan, S. Swaroop & Geetha Manivasagam. (2023) Laser shock peening: a promising tool for enhancing the aeroengine materials’ surface properties. Surface Engineering 39:3, pages 245-274.
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H. Zhang & C. Y. Yu. (2006) Laser shock processing of holes. Surface Engineering 22:2, pages 153-156.
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H. Zhang. (1999) Surface treatment of aluminium alloy by laser shock processing. Surface Engineering 15:6, pages 454-456.
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Articles from other publishers (23)
Ruslan Kuliiev, Sören Keller & Nikolai Kashaev. (2023) Identification of Johnson-Cook material model parameters for laser shock peening process simulation for AA2024, Ti–6Al–4V and Inconel 718. Journal of Materials Research and Technology.
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Tobias Valentino, Andreas Stephen, Tim Radel & Frank Vollertsen. (2023) Applicability of a laser pre-treatment for a robust subsequent bending of thin sheet metal. CIRP Journal of Manufacturing Science and Technology 44, pages 45-54.
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K. Praveenkumar, S. Swaroop & Geetha Manivasagam. (2022) Residual Stress Distribution, Phase Transformation, and Wettability Characteristics of Laser Peened Austenitic Stainless Steel. Journal of Materials Engineering and Performance 31:8, pages 6846-6857.
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Sumair Sunny, Glenn Gleason, Karuna Sitaula & Arif Malik. (2021) Predictive Modeling of Laser Shock Peening Induced Near-Surface Residual Stress in Alumina. Procedia Manufacturing 53, pages 80-91.
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Yoichiro Hironaka, Eisuke Miura, Kohei Miyanishi, Keisuke Shigemori, Takeshi Matsuoka, Norimasa Ozaki, Takashi Kurita, Yuki Kabeya, Takeshi Watari, Yoshio Mizuta, Ryunosuke Kuroda & Ryosuke Kodama. (2020) Generation of residual stress field in metal by an interference shock wave. High Energy Density Physics 37, pages 100864.
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Sa’id Golabi, Mohammad Reza Vakil & Behzad Amirsalari. (2019) Multi-Objective Optimization of Residual Stress and Cost in Laser Shock Peening Process Using Finite Element Analysis and PSO Algorithm. Lasers in Manufacturing and Materials Processing 6:4, pages 398-423.
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Julián J. Narbon, Cristina Moreno-Díaz & José Manuel Arenas. (2019) Influence of surface treatment on the surface energy of an aluminium substrate. Colloids and Surfaces A: Physicochemical and Engineering Aspects 560, pages 323-329.
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MOHAMED EZZAT, M. A. EL-WAILY, M. ABDEL-RAHMAN & YEHEA ISMAIL. (2018) TREATMENT OF ALUMINUM ALLOYS SURFACE BY NANOSECOND LASER. Surface Review and Letters 25:04, pages 1850079.
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Peng Liu, Siyu Sun, Shubo Xu, Yang Li & Guocheng Ren. (2018) Microstructure and properties in the weld surface of friction stir welded 7050-T7451 aluminium alloys by laser shock peening. Vacuum 152, pages 25-29.
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Mahesh J. Yadav, A.N. Jinoop, Chaitanya Danduk & S. Kanmani Subbu. (2017) Laser Shock Processing: Process Physics, Parameters, and Applications. Materials Today: Proceedings 4:8, pages 7921-7930.
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A. Umapathi & S. Swaroop. (2016) Residual stress distribution in a laser peened Ti-2.5Cu alloy. Surface and Coatings Technology 307, pages 38-46.
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Weiguang Xia, Lei Li, Yanpeng Wei, Aimin Zhao, Yacong Guo, Chenguang Huang, Hongxiang Yin & Lingchen Zhang. (2015) Impact toughness of a gradient hardened layer of Cr5Mo1V steel treated by laser shock peening. Acta Mechanica Sinica 32:2, pages 301-308.
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K. Gurusami, Karibeeran Shanmuga Sundaram & R. Vijay. (2015) Influence of Nd: YAG Laser Parameters on Tensile Behaviour, Microhardness and Surface Roughness of Ni-Cr Alloy for Dental Prostheses. Applied Mechanics and Materials 766-767, pages 539-545.
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Abdullahi Gujba & Mamoun Medraj. (2014) Laser Peening Process and Its Impact on Materials Properties in Comparison with Shot Peening and Ultrasonic Impact Peening. Materials 7:12, pages 7925-7974.
Crossref
Crossref
Yongkang Zhang, Jinzhong Lu & Kaiyu LuoYongkang Zhang, Jinzhong Lu & Kaiyu Luo. 2013. Laser Shock Processing of FCC Metals. Laser Shock Processing of FCC Metals
153
167
.
Yongkang Zhang, Jinzhong Lu & Kaiyu LuoYongkang Zhang, Jinzhong Lu & Kaiyu Luo. 2013. Laser Shock Processing of FCC Metals. Laser Shock Processing of FCC Metals
85
101
.
Yongkang Zhang, Jinzhong Lu & Kaiyu LuoYongkang Zhang, Jinzhong Lu & Kaiyu Luo. 2013. Laser Shock Processing of FCC Metals. Laser Shock Processing of FCC Metals
53
84
.
J.Z. Lu, K.Y. Luo, Y.K. Zhang, G.F. Sun, Y.Y. Gu, J.Z. Zhou, X.D. Ren, X.C. Zhang, L.F. Zhang, K.M. Chen, C.Y. Cui, Y.F. Jiang, A.X. Feng & L. Zhang. (2010) Grain refinement mechanism of multiple laser shock processing impacts on ANSI 304 stainless steel. Acta Materialia 58:16, pages 5354-5362.
Crossref
Crossref
Y.K. Zhang, J.Z. Lu, X.D. Ren, H.B. Yao & H.X. Yao. (2009) Effect of laser shock processing on the mechanical properties and fatigue lives of the turbojet engine blades manufactured by LY2 aluminum alloy. Materials & Design 30:5, pages 1697-1703.
Crossref
Crossref
. 2006. Laser Shock Peening. Laser Shock Peening
151
157
.
J. Kaspar, A. Luft & W. Skrotzki. (2000) Deformation Modes and Structure Evolution in Laser-Shock-Loaded Molybdenum Single Crystals of High Purity. Crystal Research and Technology 35:4, pages 437-448.
Crossref
Crossref
T. Schmidt-Uhlig, P. Karlitschek, M. Yoda, Y. Sano & G. Marowsky. (2000) Laser shock processing with 20 MW laser pulses delivered by optical fibers. The European Physical Journal Applied Physics 9:3, pages 235-238.
Crossref
Crossref
Lianglun Zha. (1998) Effect and mechanism on mainly using traditional Chinese Medicine of Replenishing Qi and Nourishing Yin in treating graves’ disease. Chinese Journal of Integrative Medicine 4:3, pages 178-181.
Crossref
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