has been cited by the following article(s):
[1]
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Hybrid thermal, mechanical and chemical surface post-treatments for improved fatigue behavior of laser powder bed fusion AlSi10Mg notched samples
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Surface and Coatings …,
2022 |
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[2]
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On the effects of laser shock peening on fatigue behavior of V-notched AlSi10Mg manufactured by laser powder bed fusion
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International Journal of …,
2022 |
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[3]
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Fatigue behaviour of notched laser powder bed fusion AlSi10Mg after thermal and mechanical surface post-processing
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Materials Science and …,
2022 |
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[4]
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Improving the corrosion and stress corrosion cracking resistance of 316 L stainless steel in high temperature water by water jet cavitation peening
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Surface and Coatings Technology,
2022 |
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[5]
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The effects of microstructural and chemical surface gradients on fatigue performance of laser powder bed fusion AlSi10Mg
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Materials Science and …,
2022 |
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[6]
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Mechanical Technologies: Ultrasound and Cavitation in Food Processing
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Nonthermal Processing in …,
2022 |
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[7]
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Surface Finishing Post-treatments for Additive Manufactured Metallic Components
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Innovations in Additive Manufacturing,
2022 |
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[8]
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Elektron Demeti Ile Ergitme Eklemeli Imalat Yöntemiyle Üretilen Farklı Geometrilerdeki Ti-6AL-4V Alaşım Malzemelerine Uygulanan Ikincil Işlemlerin Malzemenin …
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2021 |
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[9]
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Cavitation erosion resistance of the titanium alloy Ti–6Al–4V manufactured through additive manufacturing with various peening methods
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2020 |
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[10]
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Effect of Various Peening Methods on the Fatigue Properties of Titanium Alloy Ti6Al4V Manufactured by Direct Metal Laser Sintering and Electron Beam Melting
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2020 |
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[11]
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Surface post-treatments for metal additive manufacturing: progress, challenges, and opportunities
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2020 |
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[12]
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Microstructure of SLM Ti-6Al-4V parts subjected to electropulsing assisted ultrasonic impact treatment
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2020 |
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[13]
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電子ビーム積層造形したチタン合金 Ti-6Al-4V の疲労寿命における機械的特性の影響
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2019 |
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[14]
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The Role of Advanced Materials in the Development of Innovative Manufacturing Processes
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2019 |
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[15]
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直接レーザ焼結法で作製したチタン合金 Ti6Al4V の表面改質による疲労強度向上
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2019 |
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[16]
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Fatigue life and microstructure of additive manufactured Ti6Al4V after different finishing processes
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2019 |
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[17]
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Improvement of fatigue strength of additive manufactured metals by solid-liquid-gas interfacial phenomena induced by pulse laser
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2019 |
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[18]
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Use of an Abrasive Water Cavitating Jet and Peening Process to Improve the Fatigue Strength of Titanium Alloy 6Al-4V Manufactured by the Electron Beam …
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2019 |
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[19]
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Continuous Electron Beam Post-Treatment of EBF3-Fabricated Ti–6Al–4V Parts
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2019 |
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[20]
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Potential Studies of Waterjet Cavitation Peening on Surface Treatment, Fatigue and Residual Stress
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2019 |
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[21]
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Effect of Mechanical Properties on Fatigue Life Enhancement of Additive Manufactured Titanium Alloy Treated by Various Peening Methods
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2019 |
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[22]
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電子ビーム積層造形したチタン合金 Ti6Al4V の疲労強度向上におけるピーニング法の影響
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2018 |
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[23]
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The use of various peening methods to improve the fatigue strength of titanium alloy Ti6Al4V manufactured by electron beam melting
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2018 |
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[24]
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The influence of the irregular interface geometry on fracture of EB-PVD yttria-stabilized zirconia coatings
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2018 |
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[25]
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Cavitation Erosion
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2018 |
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[26]
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Key factors and applications of cavitation peening
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2017 |
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[27]
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Removal of Oral Biofilm on an Implant Fixture by a Cavitating Jet
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Implant Dentistry,
2017 |
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[28]
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Cavitation and Electrochemical Characteristics in Seawater by Water Cavitation Peening of 5083-O Al Alloy for Ships
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Surface Review and Letters,
2016 |
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[29]
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The Effects of Microstructural and Chemical Surface Gradients on Fatigue Performance of Laser Powder Bed Fusion Alsi10mg Samples
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[1]
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Nonthermal Processing in Agri-Food-Bio Sciences
Food Engineering Series,
2022
DOI:10.1007/978-3-030-92415-7_6
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[2]
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Microstructure of SLM Ti-6Al-4V parts subjected to electropulsing assisted ultrasonic impact treatment
INTERNATIONAL CONFERENCE ON SCIENCE AND APPLIED SCIENCE (ICSAS2020),
2020
DOI:10.1063/5.0026672
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[3]
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Improvement of Fatigue Strength of Additive Manufactured Metals by Solid-Liquid-Gas Interfacial Phenomena Induced by Pulse Laser
IOP Conference Series: Materials Science and Engineering,
2019
DOI:10.1088/1757-899X/611/1/012002
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[4]
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Continuous Electron Beam Post-Treatment of EBF3-Fabricated Ti–6Al–4V Parts
Metals,
2019
DOI:10.3390/met9060699
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