Citations (37)
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Hitoshi Soyama & Alexander M. Korsunsky. (2022) A critical comparative review of cavitation peening and other surface peening methods. Journal of Materials Processing Technology 305, pages 117586.
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Hitoshi SOYAMA. (2022) Improvement of Fatigue Characteristics of Welded Parts by Cavitation Peeningキャビテーションピーニングによる溶接部の疲労特性向上. JOURNAL OF THE JAPAN WELDING SOCIETY 91:3, pages 195-199.
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Claudia Esposito, Johan Steelant & Maria Rosaria Vetrano. (2021) Impact of Cryogenics on Cavitation through an Orifice: A Review. Energies 14:24, pages 8319.
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Y. F. Yang, W. D. Shi, W. Li, S. P. Chen, W. Q. Zhang & B. Pan. (2021) Experimental Study on the Surface Property Changes of Aluminum Alloy and Stainless Steel after Impingement with Submerged Cavitation Jet. Strength of Materials 53:2, pages 353-363.
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Hitoshi Soyama, Christopher R. Chighizola & Michael R. Hill. (2021) Effect of compressive residual stress introduced by cavitation peening and shot peening on the improvement of fatigue strength of stainless steel. Journal of Materials Processing Technology 288, pages 116877.
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C. Esposito, M.A. Mendez, J. Steelant & M.R. Vetrano. (2021) Spectral and modal analysis of a cavitating flow through an orifice. Experimental Thermal and Fluid Science 121, pages 110251.
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Hitoshi Soyama. (2020) Cavitating Jet: A Review. Applied Sciences 10:20, pages 7280.
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Hitoshi Soyama. (2020) Cavitation Peening: A Review. Metals 10:2, pages 270.
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Hitoshi Soyama. 2020. Advanced Surface Enhancement. Advanced Surface Enhancement
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Hitoshi Soyama. (2019) Comparison between the improvements made to the fatigue strength of stainless steel by cavitation peening, water jet peening, shot peening and laser peening. Journal of Materials Processing Technology 269, pages 65-78.
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Zhongrui Tan, Yun Wang, Fuzhu Li, Ruitao Li, Chao Yu, Haiyang Fan & Jianjie Wang. (2018) Numerical simulation of cavitation behavior and peening experiments in cavitation peening processing. Journal of Physics: Conference Series 1064, pages 012043.
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Can Kang, Wisdom Opare, Mengyao Liu & Haixia Liu. (2018) Cavitation strengthening of curved blades with submerged waterjet: A preliminary experimental investigation. IOP Conference Series: Materials Science and Engineering 322, pages 022033.
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Can Kang, Haixia Liu & Hitoshi Soyama. (2018) Estimation of aggressive intensity of a cavitating jet with multiple experimental methods. Wear 394-395, pages 176-186.
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Styková Janka, Müller Miloš & Hujer Jan. (2017) The improvement of the surface hardness of stainless steel and aluminium alloy by ultrasonic cavitation peening. EPJ Web of Conferences 143, pages 02119.
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O. Takakuwa, F. Takeo, M. Sato & H. Soyama. (2016) Using cavitation peening to enhance the fatigue strength of duralumin plate containing a hole with rounded edges. Surface and Coatings Technology 307, pages 200-205.
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Osamu Takakuwa, Masaaki Nakai, Kengo Narita, Mitsuo Niinomi, Kazuhiro Hasegawa & Hitoshi Soyama. (2016) Enhancing the durability of spinal implant fixture applications made of Ti-6Al-4V ELI by means of cavitation peening. International Journal of Fatigue 92, pages 360-367.
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Mitsuru Sato, Osamu Takakuwa, Masaaki Nakai, Mitsuo Niinomi, Fumio Takeo & Hitoshi Soyama. (2016) Using Cavitation Peening to Improve the Fatigue Life of Titanium Alloy Ti-6Al-4V Manufactured by Electron Beam Melting. Materials Sciences and Applications 07:04, pages 181-191.
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H Soyama, H Sasaki, S Endo & Y Iga. (2015) Mechanical Surface Treatment of Duralumin Plate by Bubble Induced by Pulse Laser. Journal of Physics: Conference Series 656, pages 012108.
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Hitoshi Soyama, Naoki Kumagai, Osamu Takakuwa & Fumio Takeo. (2015) Suppression of Fatigue Crack Propagation of Duralumin by Cavitation Peening. The Journal of Engineering 2015:13, pages 126-128.
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Hitoshi Soyama. (2015) Surface mechanics design by cavitation peening. The Journal of Engineering 2015:13, pages 110-114.
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Hitoshi SOYAMA. (2015) Surface mechanics design of metallic materials on mechanical surface treatments. Mechanical Engineering Reviews 2:1, pages 14-00192-14-00192.
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Hitoshi SOYAMA. (2014) Enhancing the aggressive intensity of a cavitating jet by introducing a cavitator and a guide pipe. Journal of Fluid Science and Technology 9:1, pages JFST0001-JFST0001.
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Satoshi Nishimura, Osamu Takakuwa & Hitoshi Soyama. 2014. Advanced Experimental and Numerical Techniques for Cavitation Erosion Prediction. Advanced Experimental and Numerical Techniques for Cavitation Erosion Prediction
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Osamu Takakuwa, Amrinder S. Gill, Gokul Ramakrishnan, Seetha R. Mannava, Vijay K. Vasudevan & Hitoshi Soyama. (2013) Introduction of Compressive Residual Stress by Means of Cavitation Peening into a Titanium Alloy Rod Used for Spinal Implants. Materials Sciences and Applications 04:07, pages 23-28.
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Osamu Takakuwa & Hitoshi Soyama. (2013) Optimizing the Conditions for Residual Stress Measurement Using a Two-Dimensional XRD Method with Specimen Oscillation. Advances in Materials Physics and Chemistry 03:01, pages 8-18.
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Hitoshi Soyama. (2013) Effect of nozzle geometry on a standard cavitation erosion test using a cavitating jet. Wear 297:1-2, pages 895-902.
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O. Takakuwa, M. Nishikawa & H. Soyama. (2012) Estimation of the depth of surface modification layer induced by cavitation peening. Journal of Materials Processing Technology 212:8, pages 1716-1722.
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O. Takakuwa & H. Soyama. (2012) The effect of scanning pitch of nozzle for a cavitating jet during overlapping peening treatment. Surface and Coatings Technology 206:23, pages 4756-4762.
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O. Takakuwa & H. Soyama. (2012) Suppression of hydrogen-assisted fatigue crack growth in austenitic stainless steel by cavitation peening. International Journal of Hydrogen Energy 37:6, pages 5268-5276.
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Hitoshi SOYAMA, Kazuya NAGASAKA, Osamu TAKAKUWA & Akima NAITO. (2012) Optimum Injection Pressure of a Cavitating Jet for Introducing Compressive Residual Stress into Stainless Steel. Journal of Power and Energy Systems 6:2, pages 63-75.
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Masanori SEKI, Naruto NISHIESeiya KOZAIMasamitsu KAKUDA, Hitoshi SOYAMA, Akima NAITO & Masahiro FUJII. (2012) Fatigue Strength of Steel Rollers and Gears Treated by Cavitation Peening with Short Processing Time (A Case of Processing Time of 1 min and 5 min). Journal of Advanced Mechanical Design, Systems, and Manufacturing 6:1, pages 33-43.
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H. Soyama. (2011) Enhancing the Aggressive Intensity of a Cavitating Jet by Means of the Nozzle Outlet Geometry. Journal of Fluids Engineering 133:10.
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Masaaki Nishikawa & Hitoshi Soyama. (2011) Two-step method to evaluate equibiaxial residual stress of metal surface based on micro-indentation tests. Materials & Design 32:6, pages 3240-3247.
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Hitoshi Soyama, Tsutomu Kikuchi, Masaaki Nishikawa & Osamu Takakuwa. (2011) Introduction of compressive residual stress into stainless steel by employing a cavitating jet in air. Surface and Coatings Technology 205:10, pages 3167-3174.
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Hitoshi SOYAMA & Osamu TAKAKUWA. (2011) Enhancing the Aggressive Strength of a Cavitating Jet and Its Practical Application. Journal of Fluid Science and Technology 6:4, pages 510-521.
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Masaaki NISHIKAWA, Yusuke KAWARAGI & Hitoshi SOYAMA. (2010) A Method to Identify the Yield Stress of Metals Using Micro-Indentation Tests with a Spherical Indenter. Transactions of the Japan Society of Mechanical Engineers Series A TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A 76:772, pages 1781-1788.
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Shinya KANOU, Masaaki NISHIKAWA & Hitoshi SOYAMA. (2010) Effect of High Strain-Rate Deformation on Surface Mechanical Properties of Stainless Steel after Peening. Transactions of the Japan Society of Mechanical Engineers Series A TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A 76:772, pages 1775-1780.
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