趙俊任
學歷
成功大學材料科學與工程所
職稱
助理教授
研究室
60112C
實驗室
Email信箱
jrzhao@mail.aeust.edu.tw
姓名:趙俊任
專長領域
金屬材料、3D 列印、高溫性質解析
學歷
逢甲大學材料科學與工程學系    93.9-97.7
國立雲林科技大學材料科技研究所    97.9-99.7
國立成功大學材料科學與工程所        99.9-109.7
經歷
國立成功大學材料科學與工程學系博士級研究員 109.8-113.7
證照
CNC銑床乙級證照
學位論文
博士論文:積層製造航太級Ti-6Al-4VInconel 718合金高溫拉伸性質與顆粒沖蝕磨耗特性研究
碩士論文:熱噴塗處理對鎂合金氧化與腐蝕行為之研究
學術著作
  1. J. R. Zhao, F. Y. Hung, T. S. Lui, Y. L. Wu, “The relationship of fracture mechanism between high temperature tensile mechanical properties and particle erosion resistance of selective laser melting Ti-6Al-4V alloy”, Metals, 9 (2019) 501. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 18/76=23.7 %, IF= 2.259)
  2. J. R. Zhao, F. Y. Hung, T. S. Lui, “Particle Erosion Induced Phase Transformation of Different Matrix Microstructures of Powder Bed Fusion Ti-6Al-4V Alloy Flakes”, Metals, 9 (2019) 730. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 18/76=23.7 %, IF= 2.259)
  3. J. R. Zhao, F. Y. Hung, T. S. Lui, “Microstructure and Tensile Fracture Behavior of Three-Stage Heat Treated Inconel 718 Alloy Produced via Laser Powder Bed Fusion Process”, J. Mater. Res. Technol., 9 (2020) 3357-3367. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 5/79=6.3 %, IF= 5.289)
  4. J. R. Zhao, F. Y. Hung, T. S. Lui, “Erosion Resistance and Particle Erosion-Induced Tensile Embrittlement of 3D-Selective Laser Melting Inconel 718 Superalloy”, Metals, 10 (2020) 21. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 18/79=22.8 %, IF= 2.117)
  5. J. R. Zhao, F. Y. Hung, B. J. Chen, “Effects of Heat Treatment on a Novel Continuous Casting Direct Rolling 6056 Aluminum Alloy: Cold Rolling Characteristics and Tensile Fracture Properties”, J. Mater. Res. Technol., 11 (2021) 535-547. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 9/80=11.3 %, IF= 5.039)
  6. J. R. Zhao, F. Y. Hung, C. S. Lu, I. C. Lai, “Comparison of Laser Powder Bed Fusion and Cast Inconel 713 alloy in terms of their Microstructure, Mechanical Properties, and Fatigue Life”, Adv. Eng. Mater., (2021) 2001366. (SCIE, MATERIALS SCIENCE, MULTIDISCIPLINARY, 141/334=42.2 %, IF= 3.862)
  7. K. C. Chang, J. R. Zhao, F. Y. Hung, “Microstructure, Mechanical Properties, and Fatigue Fracture Characteristics of High-Fracture-Resistance Selective Laser Melting Al-Ni-Cu Alloys”, Metals, 11(1) (2021) 87. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 24/80=30.0 %, IF= 2.351)
  8. K. C. Chang, J. R. Zhao, F. Y. Hung, Effects of Hyper-High-Temperature Solid-Solution Treatment on Microstructure Evolution and Nanoprecipitation of the Al-Ni-Cu-Fe-Zr-Sc Alloy Manufactured by Selective Laser Melting”, J. Alloys Compd., 883 (2021) 160781. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 6/80=7.5 %, IF= 5.316)
  9. J. R. Zhao, L. Y. Lee, K. C. Chang, F. Y. Hung, “A Novel Two-Stage Heat Treatment with Medium-Temperature Aging Influence on Microstructure, Al3(Sc, Zr) Nanoprecipitation, and Application Properties, Enhancing Selective Laser Melting of Al–Mg–Sc–Zr Alloy”, Nanomaterials, 12(12) (2022) 2078. (SCIE, PHYSICS, APPLIED, 37/161=23.0 %, IF= 5.719)
  10. J. R. Zhao, Y. C. Lin, F. Y. Hung, “Microstructure, Tensile Mechanical Properties and Electrical Fatigue Mechanism of a Microalloyed Copper Wire”, J. Electron. Mater., 51(10) (2022) 5857-5868. (SCIE, ENGINEERING, ELECTRICAL & ELECTRONIC, 172/276=62.3 %, IF= 2.047)
  11. J. R. Zhao, F. Y. Hung, S. C. Wu, “Interface characteristics, erosion behavior, and thermal shock resistance of Al-Ta alloy coatings produced by arc spraying”, IEEE Trans. Semicond. Manuf., 35(4) (2022) 698-705. (SCIE, ENGINEERING, ELECTRICAL & ELECTRONIC, 130/276=47.1 %, IF= 2.796)
  12. J. R. Zhao, F. Y. Hung, S. W. Hsu, “Metallographic Mechanism of Embrittlement of 15 μm Ultrafine Quaternary Silver Alloy Bonding Wire in Chloride Ions Environment”, Materials, 16(3) (2023) 1066. (SCIE, PHYSICS, CONDENSED MATTER, 29/67=43.3 %, IF= 3.4)
  13. J. R. Zhao, Y. J. Chen, F.Y. Hung, “A Technology for Bonding Cu Wires with Cu Pads: Structure and Electrical Fatigue Mechanism of Fine Micro-alloyed Cu Wires”, J. Electron. Mater., 52 (2023) 4169-4178. (SCIE, ENGINEERING, ELECTRICAL & ELECTRONIC, 179/275=65.1 %, IF= 2.1)
  14. C. T. Huang, F. Y. Hung, J. R. Zhao, H. Y.  Hsieh, “Microstructure and Mechanical Properties of 631 Stainless Steel: Study of Yield Slip and Strain Rate Mechanism with Austempering and Martempering”, JALMES, 2 (2023) 100015. (Elsevier新成立期刊,目前尚無JCR資料)
  15. Y. A. Kuo, F. Y. Hung, J. R. Zhao, B. D. Wu, B. Chin. Huang, K. C. Chang, K. J. Chen, C. W. Ku, C. Y. Huang, H.Y. Hsieh, “A Study on Structural Characteristics and Metallurgical Mechanism of Carbides for 440 Martensitic Stainless Steel with Different Melt Refining Processes”, JALMES, 3 (2023) 100029. (Elsevier新成立期刊,目前尚無JCR資料)
  16. K. C. Chang, J. R. Zhao, F. Y. Hung, “Effects of the Microstructure and Texture Characteristics on Mechanical Properties of the Al-Ni-Cu-Fe Alloy manufactured by Laser Powder Bed Fusion”, J. Mater. Res. Technol., 27 (2023) 3411-3423. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 6/79=7.6 %, IF= 6.4)
  17. Y. J. Cheng, F. Y. Hung, J. R. Zhao, “Microstructural Characteristics and Material Failure Mechanism of SLM Ti-6Al-4V-Zn Alloy”, Materials, 16(23) (2023) 7341. (SCIE, PHYSICS, CONDENSED MATTER, 29/67=43.3 %, IF= 3.4)
  18. J. R. Zhao, I. H. Wang, F. Y. Hung, “A New Secondary Battery Technology: Electrode Structure and Charge–Discharge Mechanism of All-Solid-State Zinc-Graphite Batteries”, Mater. Sci. Eng. B-Adv., 299 (2024) 116975. (SCIE, PHYSICS, CONDENSED MATTER, 25/67=37.3 %, IF=3.6)
  19. K. C. Chang, F. Y. Hung, J. R. Zhao, C. F. Miu, “Advancements in Microstructure, Texture Characterization, and Mechanical Properties of Powder Metallurgy Al-Si-Mg-Fe Alloy for Engineering Applications”, J. Alloys Compd., 973 (2024) 172941. (SCIE, METALLURGY & METALLURGICAL ENGINEERING, 8/79=10.1 %, IF= 6.2)
  20. J. R. Zhao, F. Y. Hung, C. Y. Pan, “Application of New Al-Si Welding Filler with High Concentration of Copper and Magnesium: High-Temperature Strength and Anti-Corrosion Mechanism”, Materials, 17(1) (2024) 126. (SCIE, PHYSICS, CONDENSED MATTER, 29/67=43.3 %, IF= 3.4)
  21. J. R. Zhao, K. J. Chen, F. Y. Hung, Y. Y. Tsai, P, T. Wu, “A Study on Surface Modification Characteristics and Charge–Discharge Mechanism of Natural Serpentinite Ore Secondary Battery”, Inorganics, 12(1) (2024) 13. (SCIE, CHEMISTRY, INORGANIC & NUCLEAR, 15/42=35.7 %, IF= 2.9)
  22. Y. F. Hsiao, F. Y. Hung, J. R. Zhao, “Chlorination for all solid-state zinc-graphite battery: Investigate into the charge-discharge mechanism of zinc electrodes and sodium silicate electrolyte”, Sci. Eng. B-Adv., 301 (2024) 117146. (SCIE, PHYSICS, CONDENSED MATTER, 27/79=34.2 %, IF=3.9)
  23. Z. Y. Chen, F. Y. Hung, J. R. Zhao, “A new iron battery technology: Charge-discharge mechanism of ferrous chloride and ferric oxide electrolyte in all solid-state iron-graphite batteries”, Sci. Eng. B-Adv., 303 (2024) 117305. (SCIE, PHYSICS, CONDENSED MATTER, 27/79=34.2 %, IF=3.9)
  24. J. R. Zhao, F. Y. Hung, J. H. Chen, “Effects of Heat-Treatment and Cold-Rolling on Mechanical Properties and Impact Failure Resistance of New Al 6082 Aluminum Alloy by Continuous Casting Direct Rolling Process”, Materials, 17(4) (2024) 805. (SCIE, PHYSICS, CONDENSED MATTER, 32/79=40.5 %, IF= 3.1)
  25. Y. W. Yen, F. Y. Hung, J. R. Zhao, B. D. Wu, H. Y. Hsieh, “A Study on Thermal-Induced Phase Transformation Behavior and Deterioration Mechanism of 310S Stainless Steel”, JALMES, (2024) 100069. (Elsevier新成立期刊,目前尚無JCR資料)