Shinjo Junji

シンジョウジュンジ | Shinjo Junji

Affiliation and department：
Job title： Professor
Homepage URL (1)： https://www.ipc.shimane-u.ac.jp/jshinjo/

Research field (1)： Fluid engineering

Research keywords (4)： multiphase flow , combustion , thermo-fluid dynamics , Metal processing

Papers (61)：

Abdul Azeez Abdu Aliyu, Chedtha Puncreobutr, Junji Shinjo, Surasak Kuimalee, Thanawat Phetrattanarangsi, Thanachai Boonchuduang, Pariwat Taweekitikul, Chinnapat Panwisawas, Wanming LI, Kitti Poungsiri, et al. Lack of fusion-induced cracking effect on tensile and fatigue behaviours of laser powder-bed fusion-processed Ti-6Al-4V implant. Engineering Failure Analysis. 2025. 168. 109095
Tuhin Mukherjee, Junji Shinjo, Tarasankar DebRoy, Chinnapat Panwisawas. Integrated modeling to control vaporization-induced composition change during additive manufacturing of nickel-based superalloys. npj Computational Materials. 2024. 10. 230
Abdul Azeez Abdu Aliyu, Chedtha Puncreobutr, Surasak Kuimalee, Thanawat Phetrattanarangsi, Thanachai Boonchuduang, Pariwat Taweekitikul, Chinnapat Panwisawas, Junji Shinjo, Boonrat Lohwongwatana. Laser-inherent porosity defects in additively manufactured Ti-6Al-4V implant: Formation, distribution, and effect on fatigue performance. Journal of Materials Research and Technology. 2024. 30. 5121-5132
Kai Zhang, Yunhui Chen, Sebastian Marussi, Xianqiang Fan, Maureen Fitzpatrick, Shishira Bhagavath, Marta Majkut, Bratislav Lukic, Kudakwashe Jakata, Alexander Rack, et al. Pore evolution mechanisms during directed energy deposition additive manufacturing. Nature Communications. 2024. 15. 1715
Junji Shinjo, Asuka Kutsukake, Hideki Wakabayashi, Kazuto Arakawa, Akira Ogawara, Hiroyuki Uchida, Chinnapat Panwisawas, Roger C. Reed. In-process monitoring and direct simulation of Argon shielding gas and vapour dynamics to control laser-matter interaction in laser powder bed fusion additive manufacturing. Additive Manufacturing. 2024. 80. 103953

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MISC (22)：

新城淳史. 噴霧燃焼の物理過程の解明と展望. 日本燃焼学会誌. 2023. 65. 212. 95-102
新城淳史. 微粒化物理に則った乱流微粒化モデルによる燃料噴霧形成および着火の数値解析. ながれ. 2019. 38. 3. 195-201
Detailed Prediction of Liquid Fuel Spray and Mixture Formation by Large Scale Computation. 2013. 48. 5. 643-648
SHINJO Junji, UMEMURA Akira. Detailed numerical simulation of fuel vapor mixing and group combustion processes in a dense liquid spray. 2012. 21. 61-64
SHINJO Junji. OS-2 Study on fuel spray formation and early combustion by detailed numerical simulation. 2012. 40. 7-9

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Professional career (1)：

Dr. Eng. (University of Tokyo)

Awards (6)：

2022/02 - 日本機械学会中国四国支部技術創造賞エクセルのVBAプログラムを用いた登録データ検索による鋳造欠陥探索システムの開発
2019/11 - Combustion Society of Japan Paper Award Fluid dynamic and autoignition characteristics of early fuel sprays using hybrid atomization LES
2017/06 - JSASS/JAXA Best Presentation Award, 49th Fluid Dynamics Conference/35th Aerospace Numerical Simulation Symposium Development of a novel hybrid LES spray code free of empirical parameter tuning
2009/12 - ILASS Japan Excellent Presentation Award, 18th Japanese Symposium on Liquid Atomization and Spray Systems Numerical simulation of liquid fuel primary atomization
2009/12 - Combustion Society of Japan Best Presentation Award, 47th Symposium (Japanese) on Combustion Detailed numerical simulation of liquid fuel primary atomization

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