"Evolution of Microstructure from the Surface to the Interior of Cr-Mo Steel by Water Jet Peening"
written by Masataka Ijiri, Daichi Shimonishi, Daisuke Nakagawa, Toshihiko Yoshimura,
published by Materials Sciences and Applications, Vol.8 No.10, 2017
has been cited by the following article(s):
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[9] 超高温・高圧気泡生成機構の開発に向けたウォータージェットキャビテーションの基礎研究
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[11] Surface Modification of Cr-Mo Steel Using New Water Jet Cavitation Technology
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[12] Sustainability of compressive residual stress on the processing time of water jet peening using ultrasonic power
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[13] Improvement of corrosion resistance of low-alloy steels by resurfacing using multifunction cavitation in water
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[14] A study on the compressive residual stress due to waterjet cavitation peening
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[15] Thermal Stress Relaxation and High-Temperature Corrosion of Cr-Mo Steel Processed Using Multifunction Cavitation
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[16] Surface modification of Cr‒Mo steel by new technology using high speed jet in water under ultrasonic irradiation
International Conference on Metal Material Processes and Manufacturing (ICMMPM 2018), 2018
[17] Effect of water jet peening using ultrasonic waves on pure Al and Al–Cu alloy surfaces
International Journal of Lightweight Materials and Manufacture, 2018
[18] New water jet cavitation technology to increase number and size of cavitation bubbles and its effect on pure Al surface
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[19] Effect of ultrasonic irradiation conditions on metal surface during multifunction cavitation
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[20] Multifunction cavitation technology to improve the surface function of Al–Cu alloy
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[21] Surface Modification of Ni-Cr-Mo Steel by Multifunction Cavitation
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