2023
DOI: 10.1016/j.ijmachtools.2023.104061
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Progressive developments, challenges and future trends in laser shock peening of metallic materials and alloys: A comprehensive review

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Cited by 117 publications
(19 citation statements)
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“…Thirdly, the integration of multi-systems including AM, IPD and online monitoring also could not be realized without the assistance of robotic automation. In addition, on the level of quality control [4,244], the development and application of process monitoring is also necessary. Initially, the utilization of charge coupled device cameras or infrared cameras in the process of AM as an in-situ detection and the adjustment of corresponding input parameters according to the detection feedback has become an important guarantee of forming quality.…”
Section: Equipment Developmentsmentioning
confidence: 99%
See 1 more Smart Citation
“…Thirdly, the integration of multi-systems including AM, IPD and online monitoring also could not be realized without the assistance of robotic automation. In addition, on the level of quality control [4,244], the development and application of process monitoring is also necessary. Initially, the utilization of charge coupled device cameras or infrared cameras in the process of AM as an in-situ detection and the adjustment of corresponding input parameters according to the detection feedback has become an important guarantee of forming quality.…”
Section: Equipment Developmentsmentioning
confidence: 99%
“…The common objective of HAM is to broaden the application range of metal AM by overcoming limitations related to inadequate mechanical performance, randomly distributed internal defects, undesired microstructures, relatively low forming precision, and rough surfaces by combining AM with other manufacturing technologies. From another perspective, hybridization concerning AM and material removal methods can be regarded as an approach that enhances flexibility and reduces material wastage in traditional subtractive manufacturing processes [4]. According to the CIRP definition, the scope of HAM encompasses four main categories: (1) HAM with multiple energy sources [5,6] for defect suppression and regulation of microstructural growth during the molten pool stage, (2) HAM with forming/deformation processes [7,8] for defect elimination and mitigation of anisotropic microstructures after solidification, (3) HAM with material removal processes [9,10] for smoothing rough surfaces and achieving dimensional precision after specific shape formation, and (4) HAM with interlayer cooling [11,12] for heat accumulation alleviation and residual stress relaxation.…”
Section: Introductionmentioning
confidence: 99%
“…To create smart materials, laser modification can be carried out in several ways. Laser shock treatment is used to form gradient nanostructures in the surface layer, which is one of the methods of surface intensive plastic deformation under extreme conditions [57,58]. Laser hardening selectively heats the material's surface to enhance its hardness and wear resistance, resulting in smart materials with improved durability and resistance to wear and tear [59][60][61].…”
Section: Laser Modification For Smart Materialsmentioning
confidence: 99%
“…Existing research has demonstrated that the uniformity of the distribution of the laser-induced residual stress field on the surface of materials is influenced by the overlapping rate [2]. When the overlapping rate is set to 29.3%, inadequate overlap occurs at the edges of the laser spots, leading to an inability to ensure a uniform shock effect.…”
Section: Lsp Experimentsmentioning
confidence: 99%
“…In recent years, laser shock peening (LSP) has attracted significant attention as a novel technique for surface modification of metallic materials and alloys [2][3][4] and is now widely used for fabricating advanced devices in aerospace [5], nuclear power [6], and biomedical applications [7,8]. LSP utilizes the impact wave effect generated by laser-induced plasma, thereby inducing a series of unique surface strengthening effects [9][10][11][12].…”
Section: Introductionmentioning
confidence: 99%