Laser Shock Processing and Related Phenomena

Laser shock processing (LSP) is a continuously developing effective technology used to improve surface and mechanical properties for metallic alloys. LSP is in direct competition with other established technologies, such as shot peening, both in preventive manufacturing treatments and maintenance/re...

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Other Authors: Ocaña, José L. (Editor), Grum, Janez (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
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520 |a Laser shock processing (LSP) is a continuously developing effective technology used to improve surface and mechanical properties for metallic alloys. LSP is in direct competition with other established technologies, such as shot peening, both in preventive manufacturing treatments and maintenance/repair operations. The level of LSP maturity has increased in recent years and several thematic international conferences have been organized (i.e., the 7th ICLPRP held in Singapore, June 17-22, 2018) to discuss different developments of a number of key aspects. These aspects include: fundamental laser interaction phenomena; material behavior at high deformation rates/under intense shock waves; laser sources and experimental process implementation; induced microstructural/surface/stress effects; mechanical and surface properties with experimental characterization and testing; numerical process simulation; development and validation of applications; comparison of LSP to competing technologies; and novel related processes. All of these aspects have been recursively treated by well-renowned specialists, providing a firm basis for the further development of the technology in its path to industrial penetration. However, the application of LSP (and related technologies) on different types of materials with different applications (such as the always demanding aeronautical/aerospatial field or the energy generation, automotive, and biomedical fields) still requires extensive effort to elucidate and master different critical aspects. Thus, LSP deserves a great research effort as a necessary step prior to its industrial readiness level. The present Special Issue of Metals in the field of "Laser Shock Processing and Related Phenomena" aims, from its initial launching date, to collect (especially for the use of LSP application developers in different target sectors) a number of high-quality and relevant papers representing state-of-the-art technology that is useful to newcomers in realizing its wide and relevant prospects as a key manufacturing technology. Consequently, in an additional and complementary way, papers were presented at the thematic ICLPRP conferences, and a call was made to authors willing to prepare high-quality and relevant papers to the journal, with the confidence that their work would become part of a fundamental reference collection regarding the present state-of-the-art LSP technology. The Special Issue includes two reviews and nine research papers. Each contribution adds to the reference knowledge of LSP technology and covers the practical totality of open issues, which will lead to present-day research at worldwide universities, research centers, and industrial companies. 
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650 7 |a History of engineering & technology  |2 bicssc 
653 |a laser peening 
653 |a fatigue 
653 |a residual stress 
653 |a laser shock waves 
653 |a laser peening history 
653 |a laser shock peening 
653 |a residual stresses 
653 |a shot pattern 
653 |a energy density 
653 |a overlap 
653 |a hole drilling 
653 |a AA 2024 
653 |a cladded aluminum 
653 |a notch 
653 |a aluminium alloys 
653 |a finite element method 
653 |a polymers 
653 |a solid confinement 
653 |a VISAR measurement 
653 |a laser shock processing 
653 |a plasma diagnosis 
653 |a electron density 
653 |a dry laser peening 
653 |a femtosecond laser 
653 |a shock wave 
653 |a laser welding 
653 |a 2024 aluminum alloy 
653 |a high-velocity impact welding 
653 |a laser impact welding 
653 |a finite element simulation 
653 |a experimental analysis 
653 |a microhardness 
653 |a resonant fatigue resistance 
653 |a roughness 
653 |a aluminum alloys 
653 |a handheld laser 
653 |a nuclear power reactor 
653 |a stress corrosion cracking 
653 |a anisotropy 
653 |a FEM analysis 
653 |a Mg AZ31B alloy 
653 |a n/a 
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