關於機械系-師資
鄭憲清 Jason Shian-Ching Jang
特聘教授
辦公室:E6-B128
專線電話 :03-4227151
校內分機:34910
傳真電話:03-4254501
E-mail:jscjang@ncu.edu.tw
實驗室網頁:高性能合金實驗室
實驗室分機: 34936
學經歷
Education & Experiences
學歷
國立成功大學 冶金及材料工程系 學士(1978)
國立成功大學 礦冶及材料科學研究所 碩士(1980)
North Carolina State University, Raleigh, USA, Department of Materials Science and Engineering, Ph. D.(1989)
經歷
1982-1996 工業技術研究院 工業材料研究所,副研究員、研究員兼實驗室主任
Materials Research Laboratories, ITRI, Scientist (1990-1992)
Materials Research Laboratories, ITRI, Scientist; Research Manager (1992-1996)
義守大學 材料科學及工程學系副教授,教授兼系主任
Department of Materials Science and Engineering, I-Shou University, Associate Professor(1996-2002), Professor (2002-2004), Professor and Chairman (2004-2009)
國立中央大學 機械系
Department of Mechanical Engineering, National Central University, Professor (2009-2010)
Graduate Institute of Materials Science and Engineering, National Central University, Professor (2011-2012)
Graduate Institute of Materials Science and Engineering, National Central University, Professor and Chairman (2012-now)
教授課程
Courses Taught
- 固態材料物理 (Materials Physics of Solids)
- 非晶質合金材料 (Amorphous Alloy Materials )
- 材料實驗 (Materials Experiment)
- 金屬熱處理 (Heat Treatment of Metallic Materials)
研究專長
Research Areas
高韌性塊狀金屬玻璃和複材之合金設計及開發
塊狀金屬玻璃粘性流體及其超塑性精密成形性探討
鋯基及銅基金屬玻璃鍍膜之抗菌性質研究
鈦基金屬玻璃在生醫器械及多孔植入材之應用研究
積層製造用金屬玻璃粉體合金設計及開發
低密度高熵合金設計及開發
高溫介金屬合金研發
真空精密鑄造技術
Vacuum metallurgy and rapidly solidification technology are dedicated to the research and development of novel functional alloys bearing special mechanical and biomedical properties. Our interests are focused on the following subjects:
- Alloy design of high performance alloys, bulk metallic glass and composites, intermetallics, and light-weight high entropy alloys
- Thermoplastic precision forming of bulk metallic glass
- Metallic glass coating for the application of anti-bacteria, medical tool, and fatigue resistance
- Synthesis of metallic glass powders for application on additive manufacturing
實驗室
Laboratory
高性能合金實驗室 E6B115
High Performance Alloys Lab (HPAL)
論文著作 Publications
題目 Title | 作者姓名 | 期刊名稱 | 出版年份 | 期別及起訖頁數 | 期刊種類 |
---|---|---|---|---|---|
Relationship between the Surface Roughness of Biodegradable Mg-based Bulk Metallic Glass and the Osteogenetic Ability of MG63 Osteoblast-like Cells | Pei-Chun Wong, Sin-Mao Song, Pei-Hua Tsai, Yi-Yuan Nien, Jason Shian-Ching Jang*, Cheng-Kung Cheng, Chih-Hwa Chen | Materials | 2020 | vol. 13, P. 1188 | SCI |
Synthesis and characterization of an open-pore toxic-element-free Ti-based bulk metallic glass foam for bio-implant application | Y. C. Liao, T. H. Li, J. B. Li, P. H. Tsai, J. S. C. Jang*, C. H. Huang, J. C. Huang*, Y. S. Huang, C. H. Lin, Y. S. Lin, C. H. Chen | Journal of Materials Research and Technology | 2020 | vol. 9(3), P.4518–4526 | SCI |
Microstructure and mechanical properties of Tix(AlCrVNb)100-x light weight multi-principal element alloys | X. K. Zhang, J. C. Huang, P. H. Lin, T. Y. Liu, Y. C. Wu, W. P. Li, Y. N. Wang, Y. C. Liao, Jason S. C. Jang | Journal of Alloy and Compound | 2020 | 831 (2020) 154742 | SCI |
A bi-phase core–shell structure of Mg-based bulk metallic glass for application in orthopedic fixation implants | Sin-Mao Song, Pei-Chun Wong, Chih-Wei Chiang, Pei-Hua Tsai, J.S.C. Jang*, Chih-Hwa Chen | Materials Science & Engineering C | 2020 | 111 (2020) 110783 | SCI |
Development of Novel Lightweight Dual‐Phase Al‐Ti‐Cr‐Mn‐V Medium‐Entropy Alloys with High Strength and Ductility | Yu‐Chin Liao, Po‐Sung Chen, Chao‐Hsiu Li, Pei‐Hua Tsai, Jason S. C. Jang*, Ker‐Chang Hsieh, Chih‐Yen Chen, Ping‐Hung Lin, Jacob C. Huang, Hsin‐Jay Wu, Yu‐Chieh Lo 5, Chang‐Wei Huang 6,7 and I‐Yu Tsao | Entropy | 2020 | 22 (2020) 74 | SCI |
Effect of orientation and loading rate on the incipient behavior of Ti60(AlCrVNb)40 medium entropy alloy | X.K. Zhang, J.C. Huang, P.H. Lin, W.S. Chuang, T.Y. Liu, Y.C. Wu, Y.C. Liao, Jason S. C. Jang | Materials Science and Engineering A | 2020 | 775 (2020) 138969 | SCI |
Designing novel lightweight, high-strength and high-plasticity Tix(AlCrNb)100-x medium-entropy alloys | Y.C. Liao, T.H. Li, P.H. Tsai, J.S.C. Jang*, K.C. Hsieh, C.Y. Chen, J.C. Huang, H. J. Wu , Y.C. Lo, C.W. Huang, I.Y. Tsao | Intermetallics | 2020 | 117 (2020) 106673 | SCI |
Nano-Scaled Creep Response of TiAlV Low Density Medium Entropy Alloy at Elevated Temperatures | Xiangkai Zhang, Hanting Ye, Jacob C. Huang, Taiyou Liu, Pinhung Lin, Yaocheng Wu, Mintsang Tsai, Yuchin Liao, Jason S. C. Jang | Materials | 2020 | 36 (2020) 1-13 | SCI |
Heat-treatment effects on mechanical properties and microstructure evolution of Ti-6Al-4V fabricated by selective laser melting | Min-Tsang Tsai, Yi-Wen Chen, Chil-Yeh Chao, Chil-Ching Tsai, Yu-Lun Su, Jason S. C. Jang, and Che-Nan Kuo | Journal of Alloy and Compound | 2020 | 816 (2020) 152615 | SCI |
Enhanced toughness and skin grafting durability of a dermatome made of Fe-based bulk metallic glass composites | Y.C. Liao, S.M. Song, T. H. Li, P. H. Tsai, Chih-Yu Chen, J. S. C. Jang*, J. P. Chu, T. M. Tseng | Materials Chemistry and Physics | 2020 | 241 (2020) 122281 | SCI |
Spinodal decomposition and mechanical response of TiZrNbTa high entropy alloy | 11. T. Y. Liu, J. C. Huang, W. S. Chuang, H. S. Chou, J. Y. Wei, Chih-Yeh Chao, Y. C. Liao, J. S. C. Jang | Materials | 2019 | 12 (2019) 3508 | SCI |
Coating Cutting Blades with Thin-Film Metallic Glass to Enhance Sharpness | 12. Jinn P. Chu, Wahyu Diyatmika, Yong-Jhe Tseng, Yu-Kang Liu, Wen-Che Liao, Shih-Hsin Chang, Ming-Jen Chen, Jyh-Wei Lee, Jason S. C. Jang | Scientific Report | 2019 | 9 (2019) 15558 | SCI |
Effects of TiO2 and SDC addition on the properties of YSZ electrolyte | 13. Chin-Tien Shen, Kan-Rong Lee, Yu-Pin Hsieh, Sheng-Wei Lee, Jeng-Kuei Chang, Shian-Ching Jang, Chung-Jen Tseng | International Journal of Hydrogen Energy | 2019 | 44 (2019 ) 29426-294312 | SCI |
Elevated-temperature creep of high entropy alloys via nanoindentation | P.H. Lin, H.S. Chou, J.C. Huang, W.S. Chuang, J.S.C. Jang, T.G. Nieh | MRS Bulletin | 2019 | 44 (2019) 1-7 | SCI |
Synthesis of biocompatible TiZr-based bulk metallic glass foams for bio-implant application | V. T. Nguyen, T. H. Li, S.M.Song, Y. C. Liao, P. H. Tsai, P. C. Wong, V. C. Nguyen, J. S. C. Jang | Materials letter | 2019 | 256 (2019) 126650 | SCI |
Production of La0.6Sr0.4Co0.2Fe0.8O3- cathode with graded porosity for improving proton-conducting solid oxide fuel cells | Yi-Wei Lai, Kan-Rong Lee, Seng-Yu Yang, Chung-Jen Tseng, Shian-Ching Jang, I-You Tsao, Szu-yuan Chen, Sheng-Wei Lee | Ceramics International | 2019 | 45 (2019) 22479–22485 | SCI |
Fabrication of anode-supported thin BCZY electrolyte protonic fuel cells using NiO sintering aid | Kan-Rong Lee, Chung-Jen Tseng, Shian-Ching Jang, Jing-Chie Lin, Kuan-Wen Wang, Jeng-Kuei Chang, Ting-Chia Chen, Sheng-Wei Lee | International Journal of Hydrogen Energy | 2019 | 44 (2019 ) 23784-23792 | SCI |
Hardness and strength enhancements of CoCrFeMnNi high-entropy alloy with Nd doping | Cheng Wang, Tsung-Hsiung Li, Yi-Chia Liao, Chia-Lin Li, Jason Shian-Ching Jang, Chun-Hway Hsueh | Materials Science and Engineering A | 2019 | 764 (2019) 138192 | |
Microstructures and electrical properties of zirconium doped barium cerate perovskite proton conductors | Jhe-Wei Jhuang, Kan-Rong Lee, Sheng-Wei Lee, Jeng-Kuei Chang, Shian-Ching Jang, Chung-Jen Tseng | International Journal of Hydrogen Energy | 2019 | 44(2019) 21174-21180 | |
Biocompatibility and Osteogenic Capacity of Mg-Zn-Ca Bulk Metallic Glass for Rabbit Tendon-Bone Interference Fixation | Chin-Chean Wang, Pei-Chun Wong, Pei-Hua Tsai, Jason Shian-Ching Jang*, Cheng-Kung Cheng, Hsiang-Ho Chen, and Chih-Hwa Chen | International Journal of Molecular Science | 2019 | 20 (2019) 2191 | SCI |
Effect of the reactive surface area of proton-conducting Ni-Ba0.8Sr0.2Ce0.6Zr0.2Y0.2O3-δ anodes on cell performance | Kai-Ti Hsu, Sin-Mao Song, Pei-Hua Tsai, Jason Shian-Ching Jang*, Jing-Chie Lin, Sheng-Wei Lee, Chung-Jen Tseng, I-Ming Hung, Chi-Shiung Hsi | Ceramics International | 2019 | 45 (2019) 14524–14532 | |
Coating thickness effect of metallic glass thin film on the fatigue-properties improvement of 7075 aluminum alloy | P.H. Tsai, T.H. Li, K.T. Hsu, J.H. Ke, J.S.C. Jang*, J.P. Chu | Thin Solid Films | 2019 | 677 (2019) 68–72 | |
Thermoplastic deformation behavior of a Fe-based bulk metallic glass within the supercooled liquid region | S.M. Song, Y.C. Liao, T.H. Li, C.K. Lee, P.H. Tsai, J.S.C. Jang*, J.C. Huang | Journal of Materials Research and Technology | 2019 | 8 (2019) 1907–1914 | |
New method for determination of hidden supercooled liquid region of TiZr-based amorphous alloys | T.H. Li, Y.C. Liao, S.M. Song, V.T. Nguyen, P.H. Tsai, J.S.C. Jang*, J.C. Huang | Journal of Non-crystalline Solids | 2019 | 510 (2019) 1-5 | |
Microstructural evolution and properties of laser spot-welded Zr-Al-Co-Ta bulk metallic glass under various initial welding temperatures | Huei-Sen Wang, Jia-Hong Pan, Tsai-Hsiu Li, Hou-Guang Chen, Jason Shian-Ching Jang | Intermetallics | 2019 | 108 (2019) 29-44 | |
Significant TRIP-effect improvement by manipulating ZrCu-B2 distribution in ZrCuAlCo-based bulk metallic glass composites via inoculating Ta particles | Y. C. Liao, S. M. Song, T. H. Li, Y. L. Chiang, P. H. Tsai, V. T. Nguyen, S.Y. Li, J. S. C. Jang*, J. C. Huang | Journal of Alloys and Compounds | 2019 | 774 (2019) 547-555 | |
Creep of face-centered-cubic {111} and {100} grains in FeCoNiCrMn and FeCoNiCrMneAl alloys: Orientation and solid solution effects | M. T. Tsai, J. C. Huang, P. H. Lin, T. Y. Liu, Y. C. Liao, Jason S. C. Jang, S. X. Song, T. G. Nieh | Intermetallics | 2018 | 103 (2018) 88-96 | |
Room and elevated temperature nano scaled mechanical properties of low density Ti based medium entropy alloy | P. H. Lin, J. C. Huang, X. K. Zhang, H. S. Chou, W. S. Chuang, T. Y. Liu, Y. C. Liao , J. S. C. Jang | Materials Science and Engineering A, | 2020 | vol. 798, P.140140 | SCI |
From Nano structure to Laves phase: Reduced Thermal Conductivity from Medium-Entropy AlNbV to High-Entropy AlNbVCrTi Alloys | Meng-Jie Jhong, I-Lun Jen, Kuang-Kuo Wang, Wan-Ting Yen, Jacob C. Huang, Jason S.-C. Jang, Ker-Chang Hsieh, Hsin-Jay Wu | Materialia | 2020 | vol.14, P.100889 | SCI |
Improved Mechanical Properties and Corrosion Resistance of Mg-Based Bulk Metallic Glass Composite by Coating with Zr-based Metallic Glass Thin Film | Pei-Hua Tsai, Chung-I Lee, Sin-Mao Song, Yu-Chin Liao, Tsung-Hsiung Li, Jason Shian-Ching Jang, Jinn P. Chu | Coating | 2020 | vol. 10, P.1212 | SCI |
Three-Dimensional Amorphous Ni−Cr Alloy Printing by Electrochemical Additive Manufacturing | Yao-Tien Tseng, Jing-Chie Lin, Jason Shian-Ching Jang, Pei-Hua Tsai, Yong-Jie Ciou, Yean-Ren Hwang | Applied Electronics Materials | 2020 | vol. 2, P. 3538−3548 | EI |
Design of Customize Interbody Fusion Cages of Ti64ELI with Gradient Porosity by Selective Laser Melting Process | Cheng-Tang Pan, Che-Hsin Lin, Ya-Kang Huang, Jason S. C. Jang, Hsuan-Kai Lin, Che-Nan Kuo, De-Yao Lin, Jacob C. Huang | Micromachine | 2021 | vol. 12, P. 307 | SCI |
Large-pore platelet-rich fibrin with a Mg ring to allow MC3T3-E1 preosteoblast migration and to improve osteogenic ability for bone defect repair | Pei-Chen Wong, Chen-Yun Wang, Shian-Ching Jang, Chian-Her Lee, Jia-Lin Wu, | International Journal of Molecular Science | 2021 | vol.22, P. 4022. | SCI |
Effect of Al concentration on the microstructural and mechanical properties of lightweight Ti60Alx(VCrNb)40-x medium-entropy alloys | Y.C. Liao, W.T. Ye, P.S. Chen, P.H. Tsai, J.S.C. Jang*, K.C. Hsieh, C.Y. Chen, J. C. Huang, H.J. Wu, Y.C. Lo, C.W. Huang, I.Y. Tsao | Intermetallics | 2021 | vol. 135, P.107213 | SCI |
Mechanical properties enhanced by the dispersion of porous Mo particles in the biodegradable solid and bi-phase core–shell structure of Mg-based bulk metallic glass composites for applications in orthopedic implants | Pei-Chun Wong, Sin-Mao Song, Yi-Yuan Nien, Wei-Ru Wang, Pei-Hua Tsai, Jia-Lin Wu, J.S.C. Jang | Journal of Alloys and Compounds | 2021 | vol. 877, P. 160233 | SCI |
Micromechanical study of strengthening mechanisms for Ti65(AlCrNb)35 medium-entropy alloy | Chi-Hua Yu, Guan-Hua Huang, Wei-Tang Huang, Chang-Wei Huang, Yu-Chieh Lo, Zih-Jie Hung, Yu-Chin Liao, Jason Shian-Ching Jang, Hsuan-Teh Hu | Intermetallics | 2021 | vol. 137, P. 107275 | SCI |
Development of Novel Lightweight Al-Rich Quinary Medium-Entropy Alloys with High Strength and Ductility | Po-Sung Chen, Yu-Chin Liao, Yen-Ting Lin, Pei-Hua Tsai, Jason S. C. Jang*, Ker-Chang Hsieh, Chih-Yen Chen, Jacob C. Huang, Hsin-Jay Wu, I-Yu Tsao | Materials | 2021 | vol. 14, P. 4223 | SCI |
Design and Development of Magnesium-Based Suture Anchor for Rotator Cuff Repair Using Finite Element Analysis and In Vitro Testing | Ting-Yu Su, Hao-Yuan Tang, Jason Shian-Ching Jang*, Chih-Hwa Chen, Hsiang-Ho Chen | Applied Science | 2021 | vol. 11, P. 9602 | SCI |
Open Cell TiZr-Based Bulk Metallic Glass Scaffolds with Excellent Biocompatibility and Suitable Mechanical Properties for Biomedical Application | Van Tai Nguyen, Xavier Pei Chun Wong, Sin Mao Song, Pei Hua Tsai, Jason Shian Ching Jang*, I Yu Tsao, Che Hsin Lin, Van Cuong Nguyen | Journal of Functional Biomaterials, 11 (2020) 28 | 2020 | vol. 11, P. 28 | SCI |
Room and elevated temperature nano scaled mechanical properties of low density Ti based medium entropy alloy | P. H. Lin, J. C. Huang, X. K. Zhang, H. S. Chou, W. S. Chuang, T. Y. Liu, Y. C. Liao , J. S. C. Jang | Materials Science and Engineering A | 2020 | vol. 798, P. 140140 | SCI |
From Nano structure to Laves phase: Reduced Thermal Conductivity from Medium-Entropy AlNbV to High-Entropy AlNbVCrTi Alloys | 10. Meng-Jie Jhong, I-Lun Jen, Kuang-Kuo Wang, Wan-Ting Yen, Jacob C. Huang, Jason S.-C. Jang, Ker-Chang Hsieh, Hsin-Jay Wu | Materialia | 2020 | vol. 14, P. 100889 | SCI |
Improved Mechanical Properties and Corrosion Resistance of Mg-Based Bulk Metallic Glass Composite by Coating with Zr-based Metallic Glass Thin Film | Pei-Hua Tsai, Chung-I Lee, Sin-Mao Song, Yu-Chin Liao, Tsung-Hsiung Li, Jason Shian-Ching Jang*, Jinn P. Chu | Coating | 2020 | vol. 10, P. 1212 | SCI |
Three-Dimensional Amorphous Ni−Cr Alloy Printing by Electrochemical Additive Manufacturing | Yao-Tien Tseng, Jing-Chie Lin, Jason Shian-Ching Jang, Pei-Hua Tsai, Yong-Jie Ciou, Yean-Ren Hwang | Applied Electronics Materials | 2020 | vol. 2, P. 3538-P. 3548 | EI |
The Effect of Discharge Current and Pulse On Time on Biocompatible Zr based BMG Sinking EDM | Yanuar Rohmat Aji Pradana, Aldi Ferara, Aminnudin Aminnudin, Wahono Wahono, and Jason Shian-Ching Jang | Open Engineering | 2020 | vol. 10, P. 401-P. 407 | EI |
Design of Customize Interbody Fusion Cages of Ti64ELI with Gradient Porosity by Selective Laser Melting Process | Cheng-Tang Pan, Che-Hsin Lin, Ya-Kang Huang, Jason S. C. Jang, Hsuan-Kai Lin, Che-Nan Kuo, De-Yao Lin, Jacob C. Huang | Micromachine | 2021 | vol. 12, P. 307 | SCI |
Large-pore platelet-rich fibrin with a Mg ring to allow MC3T3-E1 preosteoblast migration and to improve osteogenic ability for bone defect repair | Pei-Chen Wong, Chen-Yun Wang, Shian-Ching Jang*, Chian-Her Lee, Jia-Lin Wu | International Journal of Molecular Science | 2021 | vol. 22, P. 4022. | SCI |
Effect of Al concentration on the microstructural and mechanical properties of lightweight Ti60Alx(VCrNb)40-x medium-entropy alloys | Y.C. Liao, W.T. Ye, P.S. Chen, P.H. Tsai, J.S.C. Jang*, K.C. Hsieh, C.Y. Chen, J. C. Huang, H.J. Wu, Y.C. Lo, C.W. Huang, I.Y. Tsao | Intermetallics | 2021 | vol. 135, P. 107213 | SCI |
Mechanical properties enhanced by the dispersion of porous Mo particles in the biodegradable solid and bi-phase core–shell structure of Mg-based bulk metallic glass composites for applications in orthopedic implants | Pei-Chun Wong, Sin-Mao Song, Yi-Yuan Nien, Wei-Ru Wang, Pei-Hua Tsai, Jia-Lin Wu, J.S.C. Jang* | Journal of Alloys and Compounds | 2021 | vol. 877, P. 160233. | SCI |
Micromechanical study of strengthening mechanisms for Ti65(AlCrNb)35 medium-entropy alloy | Chi-Hua Yu, Guan-Hua Huang, Wei-Tang Huang, Chang-Wei Huang, Yu-Chieh Lo, Zih-Jie Hung, Yu-Chin Liao, Jason Shian-Ching Jang, Hsuan-Teh Hu | Intermetallics | 2021 | vol. 137, P. 107275 | SCI |
Development of Novel Lightweight Al-Rich Quinary Medium-Entropy Alloys with High Strength and Ductility | Po-Sung Chen, Yu-Chin Liao, Yen-Ting Lin, Pei-Hua Tsai, Jason S. C. Jang*, Ker-Chang Hsieh, Chih-Yen Chen, Jacob C. Huang, Hsin-Jay Wu, I-Yu Tsao | Materials | 2021 | vol. 14, P. 4223 | SCI |
Design and Development of Magnesium-Based Suture Anchor for Rotator Cuff Repair Using Finite Element Analysis and In Vitro Testing | Ting-Yu Su, Hao-Yuan Tang, Jason Shian-Ching Jang*, Chih-Hwa Chen, Hsiang-Ho Chen | Applied Science | 2021 | vol. 11, P. 9602 | SCI |
Two-Step Approach Using Degradable Magnesium to Inhibit Surface Biofilm and Subsequently Kill Planktonic Bacteria | Pei-Chun Wong, Ren-Yi Wang, Long-Sheng Lu, Wei-Ru Wang, Jason Shian-Ching Jang* , Jia-Lin Wu, Tai-Yuan Su, Ling-Hua Chang | Biomedicines | 2021 | vol. 9, P. 1677 | SCI |
Room and elevated temperature nano scaled mechanical properties of low density Ti based medium entropy alloy | P. H. Lin, J. C. Huang, X. K. Zhang, H. S. Chou, W. S. Chuang, T. Y. Liu, Y. C. Liao , J. S. C. Jang, | Materials Science and Engineering A | 2020 | vol. 798, P. 140140 | SCI |
From Nano structure to Laves phase: Reduced Thermal Conductivity from Medium-Entropy AlNbV to High-Entropy AlNbVCrTi Alloys | Meng-Jie Jhong, I-Lun Jen, Kuang-Kuo Wang, Wan-Ting Yen, Jacob C. Huang, Jason S.-C. Jang, Ker-Chang Hsieh, Hsin-Jay Wu | Materialia, 14 (2020) 100889. | 2020 | Vol. 14, P. 100889 | SCI |
Improved Mechanical Properties and Corrosion Resistance of Mg-Based Bulk Metallic Glass Composite by Coating with Zr-based Metallic Glass Thin Film | Pei-Hua Tsai, Chung-I Lee, Sin-Mao Song, Yu-Chin Liao, Tsung-Hsiung Li, Jason Shian-Ching Jang, Jinn P. Chu | Coating | 2020 | Vol. 10, P. 1212 | SCI |
Three-Dimensional Amorphous Ni−Cr Alloy Printing by Electrochemical Additive Manufacturing | Yao-Tien Tseng, Jing-Chie Lin, Jason Shian-Ching Jang, Pei-Hua Tsai, Yong-Jie Ciou, Yean-Ren Hwang | Applied Electronics Materials | 2020 | Vol. 2, P. 3538−P. 3548 | SCI |
Design of Customize Interbody Fusion Cages of Ti64ELI with Gradient Porosity by Selective Laser Melting Process | Cheng-Tang Pan, Che-Hsin Lin, Ya-Kang Huang, Jason S. C. Jang, Hsuan-Kai Lin, Che-Nan Kuo, De-Yao Lin, Jacob C. Huang | Micromachine | 2021 | Vol. 12, P. 307 | SCI |
Large-pore platelet-rich fibrin with a Mg ring to allow MC3T3-E1 preosteoblast migration and to improve osteogenic ability for bone defect repair | Pei-Chen Wong, Chen-Yun Wang, Shian-Ching Jang*, Chian-Her Lee, Jia-Lin Wu | International Journal of Molecular Science | 2021 | Vol. 22, P. 4022 | SCI |
Effect of Al concentration on the microstructural and mechanical properties of lightweight Ti60Alx(VCrNb)40-x medium-entropy alloys | Y. C. Liao, W. T. Ye, P. S. Chen, P. H. Tsai, J. S. C. Jang*, K. C. Hsieh, C. Y. Chen, J. C. Huang, H. J. Wu, Y. C. Lo, C. W. Huang, I. Y. Tsao | Intermetallics, 135 (2021) 107213 | 2021 | Vol. 135, P. 107213 | SCI |
Mechanical properties enhanced by the dispersion of porous Mo particles in the biodegradable solid and bi-phase core–shell structure of Mg-based bulk metallic glass composites for applications in orthopedic implants | Pei-Chun Wong, Sin-Mao Song, Yi-Yuan Nien, Wei-Ru Wang, Pei-Hua Tsai, Jia-Lin Wu, J.S.C. Jang* | Journal of Alloys and Compounds | 2021 | Vol. 877, P. 160233 | SCI |
Micromechanical study of strengthening mechanisms for Ti65(AlCrNb)35 medium-entropy alloy | Chi-Hua Yu, Guan-Hua Huang, Wei-Tang Huang, Chang-Wei Huang, Yu-Chieh Lo, Zih-Jie Hung, Yu-Chin Liao, Jason Shian-Ching Jang, Hsuan-Teh Hu | Intermetallics | 2021 | Vol. 137, P.107275. | SCI |
Development of Novel Lightweight Al-Rich Quinary Medium-Entropy Alloys with High Strength and Ductility | Po-Sung Chen, Yu-Chin Liao, Yen-Ting Lin, Pei-Hua Tsai, Jason S. C. Jang*, Ker-Chang Hsieh, Chih-Yen Chen, Jacob C. Huang, Hsin-Jay Wu, I-Yu Tsao | Materials, 14 (2021) 4223 | 2021 | Vol. 14, P. 4223 | SCI |
Design and Development of Magnesium-Based Suture Anchor for Rotator Cuff Repair Using Finite Element Analysis and In Vitro Testing | Ting-Yu Su, Hao-Yuan Tang, Jason Shian-Ching Jang*, Chih-Hwa Chen, Hsiang-Ho Chen | Applied Science, 11 (2021) 9602 | 2021 | Vol. 11, P. 9602 | SCI |
Two-Step Approach Using Degradable Magnesium to Inhibit Surface Biofilm and Subsequently Kill Planktonic Bacteria | Pei-Chun Wong, Ren-Yi Wang, Long-Sheng Lu, Wei-Ru Wang, Jason Shian-Ching Jang*, Jia-Lin Wu, Tai-Yuan Su, Ling-Hua Chang | Biomedicines | 2021 | Vol. 9, P. 1677 | SCI |
Using Cu as a Spacer to Fabricate and Control the Porosity of Titanium Zirconium Based Bulk Metallic Glass Foams for Orthopedic Implant Applications | Pei-Chun Wong, Sin-Mao Song, Pei-Hua Tsai, Muhammad Jauharul Maqnun, Wei-Ru Wang, Jia-Lin Wu, and Shian-Ching (Jason) Jang* | Materials | 2022 | Vol. 15, P. 1887 | SCI |
Effect of thermomechanical treatment on the microstructure evolution and mechanical properties of lightweight Ti65(AlCrNb)35 medium-entropy alloy | Y.C. Liao, P.S. Chen, P.H. Tsai, J.S.C. Jang*, K.C. Hsieh, H.W. Chang, C.Y. Chen, J. C. Huang, H.J. Wu, Y.C. Lo, C.W. Huang, I.Y. Tsao | Intermetallics | 2022 | Vol. 143, P. 107470 | SCI |
Combining Mg–Zn–Ca Bulk Metallic Glass with a Mesoporous Silica Nanocomposite for Bone Tissue Engineering | Yun Shin Chu, Pei-Chun Wong, Jason Shian-Ching Jang, Chih-Hwa Chen, Si-Han Wu | Pharmaceutics | 2022 | Vol. 14, P. 1078 | SCI |
Remarkable Enhanced Mechanical Properties of TiAlCrNbV Medium-Entropy Alloy with Zr Additions | Po-Sung Chen, Sheng-Jia Shiu, Pei-Hua Tsai, Yu-Chin Liao, Jason Shian-Ching Jang*, Hsin-Jay Wu, Shou-Yi Chang, Chih-Yen Chen, I-Yu Tsao | Materials | 2022 | Vol. 15, P. 6324 | SCI |
Tailored rapid annealing to obtain heterostructured ultra-high-strength lightweight Ti-rich medium-entropy alloys | Y. C. Liao, P. S. Chen, P. H. Tsai, J. S. C. Jang*, K. C. Hsieh, C. Y. Chen, J. C. Huang, H. J. Wu, I. Y. Tsao | Results in Materials, 16 (2022) 100342 | 2022 | Vol. 16, P. 100342 | SCI |
Recent Developments in Additive‑Manufactured Intermetallic Compounds for Bio‑Implant Applications | Po‑Yuan Yeh, Jacob C. Huang, Jason S. C. Jang, Cheng‑Tang Pan, Chung‑Hwan Chen, Che‑Hsin Lin | Journal of Medical and Biological Engineering | 2022 | Vol. 42, P. 800-P. 815 | SCI |
Room and elevated temperature nano scaled mechanical properties of low density Ti based medium entropy alloy | P. H. Lin, J. C. Huang, X. K. Zhang, H. S. Chou, W. S. Chuang, T. Y. Liu, Y. C. Liao , J. S. C. Jang, | Materials Science and Engineering A, | 2020 | vol. 798, P. 140140 | SCI |
From Nano structure to Laves phase: Reduced Thermal Conductivity from Medium-Entropy AlNbV to High-Entropy AlNbVCrTi Alloys | Meng-Jie Jhong, I-Lun Jen, Kuang-Kuo Wang, Wan-Ting Yen, Jacob C. Huang, Jason S.-C. Jang, Ker-Chang Hsieh, Hsin-Jay Wu | Materialia | 2020 | vol. 14, P. 100889. | SCI |
Improved Mechanical Properties and Corrosion Resistance of Mg-Based Bulk Metallic Glass Composite by Coating with Zr-based Metallic Glass Thin Film | Pei-Hua Tsai, Chung-I Lee, Sin-Mao Song, Yu-Chin Liao, Tsung-Hsiung Li, Jason Shian-Ching Jang*, Jinn P. Chu | Coating | 2020 | vol. 10, P. 1212 | SCI |
Three-Dimensional Amorphous Ni−Cr Alloy Printing by Electrochemical Additive Manufacturing | Yao-Tien Tseng, Jing-Chie Lin, Jason Shian-Ching Jang, Pei-Hua Tsai, Yong-Jie Ciou, Yean-Ren Hwang | Applied Electronics Materials | 2020 | vol. 2, P. 3538−3548 | SCI |
Design of Customize Interbody Fusion Cages of Ti64ELI with Gradient Porosity by Selective Laser Melting Process | Cheng-Tang Pan, Che-Hsin Lin, Ya-Kang Huang, Jason S. C. Jang, Hsuan-Kai Lin, Che-Nan Kuo, De-Yao Lin, Jacob C. Huang | Micromachine | 2021 | vol. 12, P. 307. | SCI |
Large-pore platelet-rich fibrin with a Mg ring to allow MC3T3-E1 preosteoblast migration and to improve osteogenic ability for bone defect repair | Pei-Chen Wong, Chen-Yun Wang, Shian-Ching Jang*, Chian-Her Lee, Jia-Lin Wu | International Journal of Molecular Science | 2021 | vol. 22P. 4022. | SCI |
Effect of Al concentration on the microstructural and mechanical properties of lightweight Ti60Alx(VCrNb)40-x medium-entropy alloys | Y. C. Liao, W. T. Ye, P. S. Chen, P. H. Tsai, J. S. C. Jang*, K. C. Hsieh, C. Y. Chen, J. C. Huang, H. J. Wu, Y. C. Lo, C. W. Huang, I. Y. Tsao | Intermetallics | 2021 | vol. 135, P. 107213. | SCI |
Mechanical properties enhanced by the dispersion of porous Mo particles in the biodegradable solid and bi-phase core–shell structure of Mg-based bulk metallic glass composites for applications in orthopedic implants | Pei-Chun Wong, Sin-Mao Song, Yi-Yuan Nien, Wei-Ru Wang, Pei-Hua Tsai, Jia-Lin Wu, J.S.C. Jang* | Journal of Alloys and Compounds | 2021 | vol. 877P. 160233. | SCI |
Micromechanical study of strengthening mechanisms for Ti65(AlCrNb)35 medium-entropy alloy | Chi-Hua Yu, Guan-Hua Huang, Wei-Tang Huang, Chang-Wei Huang, Yu-Chieh Lo, Zih-Jie Hung, Yu-Chin Liao, Jason Shian-Ching Jang, Hsuan-Teh Hu | Intermetallics | 2021 | vol. 137, P. 107275. | SCI |
Development of Novel Lightweight Al-Rich Quinary Medium-Entropy Alloys with High Strength and Ductility | Po-Sung Chen, Yu-Chin Liao, Yen-Ting Lin, Pei-Hua Tsai, Jason S. C. Jang*, Ker-Chang Hsieh, Chih-Yen Chen, Jacob C. Huang, Hsin-Jay Wu, I-Yu Tsao | Materials | 2021 | vol. 14, P. 4223 | SCI |
Design and Development of Magnesium-Based Suture Anchor for Rotator Cuff Repair Using Finite Element Analysis and In Vitro Testing | Ting-Yu Su, Hao-Yuan Tang, Jason Shian-Ching Jang, Chih-Hwa Chen, Hsiang-Ho Chen | Applied Science | 2021 | vol. 11, P. 9602 | SCI |
Two-Step Approach Using Degradable Magnesium to Inhibit Surface Biofilm and Subsequently Kill Planktonic Bacteria | Pei-Chun Wong, Ren-Yi Wang, Long-Sheng Lu, Wei-Ru Wang, Jason Shian-Ching Jang*, Jia-Lin Wu, Tai-Yuan Su, Ling-Hua Chang | Biomedicines | 2021 | vol. 9, P. 1677. | SCI |
Using Cu as a Spacer to Fabricate and Control the Porosity of Titanium Zirconium Based Bulk Metallic Glass Foams for Orthopedic Implant Applications | Pei-Chun Wong, Sin-Mao Song, Pei-Hua Tsai, Muhammad Jauharul Maqnun, Wei-Ru Wang, Jia-Lin Wu, and Shian-Ching (Jason) Jang* | Materials | 2022 | vol. 15, P. 1887 | SCI |
Effect of thermomechanical treatment on the microstructure evolution and mechanical properties of lightweight Ti65(AlCrNb)35 medium-entropy alloy | Y.C. Liao, P.S. Chen, P.H. Tsai, J.S.C. Jang*, K.C. Hsieh, H.W. Chang, C.Y. Chen, J. C. Huang, H.J. Wu, Y.C. Lo, C.W. Huang, I.Y. Tsao | Intermetallics | 2022 | vol. 143, P. 107470 | SCI |
Combining Mg–Zn–Ca Bulk Metallic Glass with a Mesoporous Silica Nanocomposite for Bone Tissue Engineering | Yun Shin Chu, Pei-Chun Wong, Jason Shian-Ching Jang, Chih-Hwa Chen, Si-Han Wu | Pharmaceutics | 2022 | vol. 14P. 1078 | SCI |
Remarkable Enhanced Mechanical Properties of TiAlCrNbV Medium-Entropy Alloy with Zr Additions | Po-Sung Chen, Sheng-Jia Shiu, Pei-Hua Tsai, Yu-Chin Liao, Jason Shian-Ching Jang*, Hsin-Jay Wu, Shou-Yi Chang, Chih-Yen Chen, I-Yu Tsao | Materials | 2022 | vol. 15, P. 6324 | SCI |
Tailored rapid annealing to obtain heterostructured ultra-high-strength lightweight Ti-rich medium-entropy alloys | Y. C. Liao, P. S. Chen, P. H. Tsai, J. S. C. Jang*, K. C. Hsieh, C. Y. Chen, J. C. Huang, H. J. Wu, I. Y. Tsao | Results in Materials | 2022 | vol. 16, P. 100342 | SCI |
Recent Developments in Additive‑Manufactured Intermetallic Compounds for Bio‑Implant Applications | Po‑Yuan Yeh, Jacob C. Huang, Jason S. C. Jang, Cheng‑Tang Pan, Chung‑Hwan Chen, Che‑Hsin Lin | Journal of Medical and Biological Engineering | 2022 | vol. 42, P. 800–815 | SCI |
Cutting ability and durability of surgical blade fabricated from biocompatible Zr-based bulk metallic glass | Yanuar Rohmat Aji Pradana, Arizal Maulana, Aminnudin Aminnudin, Wahono Wahono, Heru Suryanto, Jason Shian Ching Jang | Advances in Materials and Processing Technologies | 2023 | https://doi.org/10.1080/2374068X.2023.2215601 | SCI |
Enhancing Mechanical and Corrosion Properties of AISI 420 with Titanium-Nitride Reinforcement through High-Power-Density Selective Laser Melting Using Two-Stage Mixed TiN/AISI 420 Powder | Duc Tran, Chih-Kuang Lin, Pi-Cheng Tung, Jeng-Rong Ho, Jason Shian-Ching Jang, Jing-Chie Lin, I-Yu Tsao, Thanh-Long Le | Materials | 2023 | vol. 16, P. 4198 | SCI |
Fabrication of TiZr-based bulk metallic glass foams with different gradient porosities for biomedical application | Pei-Chun Wong, Pei-Hua Tsai, Muhammad Jauharul Maqnun, Ying-Chun Chen, Jason Shian-Ching Jang* | Materials Letter | 2023 | vol. 347, P. 134651 | SCI |
A micromechanical study on the effect of precipitation on the mechanical properties of CoCrFeMnNi high entropy alloys with various annealing temperatures | Chang-Wei Huang, Pei-Ying Su, Chi-Hua Yu, Chia-Ling Wang, Yu-Chieh Lo, Jason Shian-Ching Jang | Scientific Reports | 2023 | vol. 13, P. 3379 | SCI |
Development and Fabrication of Biocompatible Ti-Based Bulk Metallic Glass Matrix Composites for Additive Manufacturing | Po-Sung Chen, Pei-Hua Tsai, Tsung-Hsiung Li, Jason Shian-Ching Jang*, Jacob Chih-Ching Huang, Che-Hsin Lin, Cheng-Tang Pan, Hsuan-Kai Lin | Materials | 2023 | vol. 16, P. 5935 | SCI |
Open Cell TiZr-Based Bulk Metallic Glass Scaffolds with Excellent Biocompatibility and Suitable Mechanical Properties for Biomedical Application | Van Tai Nguyen, Xavier Pei Chun Wong, Sin Mao Song, Pei Hua Tsai, Jason Shian Ching Jang*, I Yu Tsao, Che Hsin Lin | Journal of Functional Biomaterials | 2020 | vol. 11, P. 28 | SCI |
研究計畫 Research Projects
工作類別 | 姓名 | 計畫名稱 | 執行期限 | 補助單位 | 金額 |
---|---|---|---|---|---|
主持人 | 鄭憲清 | 中低密度高熵合金之合金設計與其微奈米尺度潛變機制研究(2/3) | 2018/8/1~2019/7/31 | 科技部 | 6392000 |
共同主持人 | 可降解鎂基金屬玻璃做為運動醫學修復手術縫合錨釘之研究開發 (重點主題:A1)(3/3) | ||||
主持人 | 國立中央大學貴重儀器使用中心服務計畫(總計畫) | ||||
共同主持人 | 高效率可逆質子傳導型陶瓷電化學儲能電池 | ||||
共同主持人 | 孔洞漸層之客製化海綿骨置換體開發--孔洞漸層之客製化海綿骨置換體開發(3/3) | ||||
共同主持人 | 開發結合光伏電池之低成本高效能電化學電氫輸出混合系統 | ||||
共同主持人 | 雷射積層製造金屬射出成型(MIM)異形水路模具及其鐵基金屬玻璃粉體開發--雷射積層製造金屬射出成型(MIM)異形水路模具及其鐵基金屬玻璃粉體開發(3/3) | ||||
主持人 | 雷射積層製造用鐵基金屬玻璃合金材料開發及其在光學模具應用之研究 | ||||
主持人 | 國立中央大學貴重儀器使用中心服務計畫國立中央大學貴重儀器使用中心服務計畫 | ||||
主持人 | 鄭憲清 | 中低密度高熵合金之合金設計與其微奈米尺度潛變機制研究(3/3) | 2020/08/01~2021/07/31 | 科技部 | 6,000,000 |
主持人 | 鄭憲清 | 開放性漸層孔洞鈦基金屬玻璃植入材之開發 | 2020/08/01~2021/07/31 | 科技部 | 1,604,000 |
主持人 | 鄭憲清 | 超高比強度輕量異構組織富鈦中熵合金之韌化設計-超高比強度輕量異 構組織富鈦中熵合金之韌化設計(2/3) | 2022/08/01~2023/07/31 | 科技部 | 4,700,000 |
主持人 | 鄭憲清 | 輕量中熵合金之合金改質開發、微結構及常溫機械性質研究 | 110/08/01~111/07/31 | 科技部 | 1,450,000 |
主持人 | 鄭憲清 | 超高比強度輕量異構組織富鈦中熵合金之韌化設計-超高比強度輕量異構組織富鈦中熵合金之韌化設計(1/3) | 2021/08/01~2022/07/31 | 科技部 | 4,700,000元 |
主持人 | 鄭憲清 | 超高比強度輕量異構組織富鈦中熵合金之韌化設計-超高比強度輕量異構組織富鈦中熵合金之韌化設計(3/3) | 2023/08/01~2024/07/31 | 4,500,000元 | |
主持人 | 以微量合金法改質輕量中熵合金並進階提升其機械性質影響之研究(1/2) | 2023/08/01~2024/07/31 | 國科會 | 1,506,667 | |
主持人 | 鄭憲清 | 接觸端子之耐候耐磨導電鍍膜開發 | 2023/11/01~2024/10/31 | 國科會 | 650,000 |
主持人 | 新型高容量鋰離子電池負極材料開發 | 2022/01/01~2022/12/31 | 工業技術研究院 | 510,000 | |
主持人 | 陶瓷金屬製程開發 | 2022/04/01~2022/12/31 | 工業技術研究院 | 350,000 | |
主持人 | 鄭憲清 | 陶瓷金屬製程開發 | 2023/04/01~2023/12/31 | 工業技術研究院 | 350000 |
主持人 | 鄭憲清 | 新型高容量鋰離子電池負極材料開發 | 2023/05/01~2023/12/31 | 工業技術研究院 | 300,000 |
榮譽事蹟 Honors and Awards
名稱 | 年度及說明 |
---|---|
指導研究生參加中國材料科學學會2019年材料創新獎獲頒第三名 | 2019 |
獲頒中國材料科學學會2019年材料科學海報論文優等獎 | 2019 |
獲頒中國材料科學學會2019年材料科技教育紮根微電影創作比賽佳作 | 2019 |
獲頒國立中央大學學術研究傑出獎 (107/1/1-107/12/31) | 2018 |
獲頒國立中央大學績優專利獎(107學年) | 2018 |
獲頒國立中央大學績優專利獎(106學年) | 2017 |
獲頒國立中央大學績優專利獎(105學年) | 2016 |
指導研究生參加中國材料科學學會2016年材料創新獎獲頒第二名 | 2016 |
獲頒中國材料科學學會2016年材料科學學生論文獎特優獎 | 2016 |
獲頒2016年光寶創新獎佳作 | 2016 |
指導專題生參加2016年經濟部工業局輕金屬創新應用競賽獲頒第一名兩項 | 2016 |
獲頒國立中央大學特聘教授 (2016-2018) | |
獲頒國立中央大學教學優良教師(104學年) | 2015 |
指導研究生參加2015 年科技部/經濟部/國家實驗研究院3D列印創新應用競賽專上組 銀牌 | 2015 |
獲頒2015海峽兩岸生物醫用材料研討會暨青年論壇海報論文競賽 優等獎 | 2015 |
指導專題生參加2015年經濟部工業局輕金屬創新應用競賽獲頒佳作 | 2015 |
獲頒2014年侯金堆傑出獎(金屬冶煉類) | 2014 |
獲頒2014年中國材料科學學會傑出服務獎 | 2014 |
指導研究生參加2014 BMG10國際論文發表會獲頒Student Poster Award 2nd Prize. | 2014 |
獲頒2014年經濟部工業局輕金屬創新應用競賽菁英指導獎 | 2014 |
指導專題生參加2014年經濟部工業局輕金屬創新應用競賽獲頒第二名 | 2014 |
指導專題生參加2013年經濟部工業局輕金屬創新應用競賽獲頒第一名 | 2013 |
獲頒中國材料科學學會2013年海報論文競賽優等獎一項 | 2013 |
獲頒國立中央大學特聘教授 (2013-2015) | |
獲頒中國材料科學學會2012年海報論文競賽優等獎一項 | 2012 |
獲頒台灣銲接學會2011年最佳論文獎一項 | 2011 |
獲頒國立中央大學教學優良教師(100學年) | 2011 |
獲頒IUMRS-ICA 2011 Excellent Poster. | 2011 |
獲頒中國材料科學學會2010年海報論文競賽優等獎两項 | 2010 |
獲頒中國材料科學學會2009年海報論文競賽優等獎两項 | 2009 |
獲頒中國材料科學學會2008年海報論文競賽優等獎及佳作獎等四項 | 2008 |
獲頒中國材料科學學會2007年海報論文競賽優等獎及佳作獎等三項 | 2007 |
獲頒中國材料科學學會2006年海報論文競賽優等獎 | 2006 |
指導專題生參加2011年經濟部工業局輕金屬創新應用設計競賽獲頒第一名 | 2011 |
指導專題生參加2010年經濟部工業局輕金屬創新應用設計競賽獲頒第二名 | 2010 |
指導專題生參加2009年經濟部工業局輕金屬創新應用設計競賽獲頒佳作 | 2009 |
指導研究生參加2020年材料科技教育紮根微電影創作比賽獲頒第三名 | 2020 |
指導研究生參加2021年科學學會材料微結構美學比賽獲頒佳作兩件 | 2021 |
指導研究生投稿中華民國粉體暨粉末冶金學會會刊獲選2021年45卷2期研究論文獎. | 2021 |
獲頒科技部2021年未來科技獎 | 2021 |
指導研究生參加2020年材料科技教育紮根微電影創作比賽獲頒第三名 | 2022年中國材料學會舉辦 |
2021年粉體及粉末冶金協會會刊研究論文獎 | 2021年 |
指導研究生參加材料科學微結構影像美學競賽獲頒佳作兩項 | 2021年中國材料科學學會舉辦 |
指導研究生參加2021年度防蝕工程論文競賽獲頒第一名兩項 | 2021年防蝕工程舉辦 |
被登錄於2021全球前2%頂尖科學家榜單 | Stanford University 評選 |
被登錄於全球前2%頂尖科學家榜單 | Stanford University 評選2022 |
獲頒國立中央大學特聘教授 | 2021-2023 |
獲頒科技部2021未來科技獎 | 2021年 |
專利 Patents
類別 | 專利申請案件名稱 | 國別 | 發明人 | 提申案號/證書號/權利期間 | 專利簡介 |
---|---|---|---|---|---|
Process for making catalyst and gas diffusion hybrid electrode | USA | Kuan-Wei Chen, Shian-Ching Jang, Kuan-Yu Chen | 2019/12/10-2038/12/9 | ||
發明 | 富鈦中熵合金 | 中華民國 | 鄭憲清、蔡佩樺、廖俞欽 | 發明 I693290號, 202085/11~ 2039/11/26 | |
用於固態氧化物燃料電池之電解質製備方法 | 中華民國 | 李勝偉、李侃融、黃俞碩、 林景崎、 李泉、曾重仁、 張仍奎、鄭憲清、洪逸明、許志維、李勝隆、江衍均、蔡麗端、邱國創、周子琪 | |||
APPLICATION OF METALLIC GLASS COATING FOR IMPROVING FATIGUE RESISTANCE OF ALUMINUM ALLOYS | USA | 鄭憲清、蔡佩樺、李嘉彬、張益綜、符志強、朱瑾 | 2018/12/4-2038/12/3 | ||
漸層多孔骨支架之製備方法 | 中華民國 | 林哲信、潘正堂、黃志青、林鉉凱、鄭憲清、陳崇桓、楊宗霖 | 2017/7/1~2035/3/2 | ||
積層製造用具生物相容性之鈦基金屬玻璃合金 | 中華民國 | 鄭憲清、黃志青、蔡佩樺、李宗雄 | 2017/9/11-2037/3/22 | ||
燃料電池複合系統 | 中華民國 | 曾重仁、林景崎、鄭憲清、李勝偉、張仍奎、林焜松、黃子垣、鄭天鈞 | 2016/11/11-2035/11/02 | ||
多孔非晶質合金人工關節及其製備方法 | 中華民國 | 鄭憲清、黃志青、李嘉彬、林泓成 | 2016/6/11-2033/7/21 | ||
可替換式微型手術器械 | 中國大陸 | 鄭憲清、蔡佩樺、李嘉彬、翁培鈞、黃志青 | 2012/06/05-2032/06/04 | ||
可替換式微型手術器械 | 中華民國 | 鄭憲清、蔡佩樺、李嘉彬、翁培鈞、黃志青 | 2016/12/1~2032/5/29 | ||
陶瓷金屬膜、其製造方法及其應用 | 中國大陸 | 鄭憲清、許凱迪、林景崎、李泉、曾重仁、張仍奎、李勝偉、洪逸明、許志雄 | 016/05/11-2036/05/10 | ||
陶瓷金屬膜、其製造方法及其應用 | 中華民國 | 鄭憲清、許凱迪、林景崎、李泉、曾重仁、張仍奎、李勝偉、洪逸明、許志雄 | 2015/4/11-2032/10/24 | ||
多層陶瓷膜及其製作方法 | 中華民國 | 鄭憲清、許凱迪、許志雄、洪逸明、林景崎 | 2014/11/1-2033/6/19 | ||
Application of metallic glass and metallic glass thin film coating on the sharpness enhancement of cutting tools | USA | Jason Shian Ching Jang、Pei Hua Tsai、Jia Bin Li、Yu Ze Lin、Chih Chiang Fu、Jinn P. Chu | 2016/05/10-2036/05/09 | ||
金属玻璃及金属玻璃合金镀膜切割器具锐度提升之应用 | 中國大陸 | 鄭憲清, 蔡佩樺, 李嘉彬、林雨澤、符志強、朱瑾 | 2015/10/21~2035/10/20 | ||
金屬玻璃及金屬玻璃鍍膜醫用切割器具銳度提升之應用 | 中華民國 | 鄭憲清, 蔡佩樺, 李嘉彬, 林雨澤、符志強、朱瑾 | 2017/5/21~2031/11/1 | ||
Medical Drill | USA | Jason Shian-Ching Jang, 、Pei-Hua Tsai、 Jia-Bin Li、Hung-Cheng Lin、 Chih-Chiang Fu | 2015/12/29~2035/12/28 | ||
醫療用鑽頭 | 中華民國 | 鄭憲清、蔡佩樺、李嘉彬、林泓成、符志強 | 2015/8/1~2031/4/17 | ||
複合基材及利用金屬玻璃層提升鈦合金疲勞性質的方法 | 中華民國 | 朱瑾、李政旻、鄭憲清 | 2014/9/11-2032/3/12 | ||
APPLICATION OF METALLIC GLASS COATING FOR IMPROVING FATIGUE RESISTANCE OF ALUMINUM ALLOYS | USA | 鄭憲清、蔡佩樺、李嘉彬、張益綜、符志強、朱瑾 | 2016/05/17-2036/05/16 | ||
金屬玻璃鍍膜在鋁合金耐疲勞性質提升之應用 | 中國大陸 | 憲清、蔡佩樺、李嘉彬、張益綜、符志強、朱瑾 | 2015/05/27-2035/0526 | ||
金屬玻璃鍍膜在鋁合金耐疲勞性質提升之應用 | 中華民國 | 鄭憲清、蔡佩樺、李嘉彬、張益綜、符志強、朱瑾 | 2014/8/11-2031/11/1 | ||
抗菌基板的製造方法及其製品 | 中華民國 | 鄭憲清、陳國駒、符志強、陳憲緯 | 2012/09/11~2029/4/27 | ||
精密非晶質合金元件怏速成形裝置及方法 | 中華民國 | 金屬工業研究發展中心 | 2009/9/21~2027/10/02 | ||
採血試片 | 中華民國 | 鍾卓良、鄭憲清、陳建誠 | 2012/5/11 ~ 2028/8/4 | ||
高韌性鎂基金屬玻璃複合材料 | 中華民國 | 鄭憲清、黃志青、符志強、邱家宇、張量然 | 2013/2/11~2028/3/27 | ||
Glassy metal composite material | USA | Shian-Ching Jang, Chih-Ching Huang, Chih-Chiang Fu, Jia-Yu Ciou, Liang-Jan Chang | 2011/6/7~2030/6/6 | ||
精密模具鑄造用石膏模製程及石膏模 | 中華民國 | 李秉璋,梁宗耀、鄭憲清、蘇國璋 | 1993/5/21~2008/5/21 | ||
用於固態氧化物燃料電池之電解質製備方法 | 中華民國 | 李勝偉、李侃融、黃俞碩、 林景崎、 李泉、曾重仁、 張仍奎、鄭憲清、洪逸明、許志維、李勝隆、江衍均、蔡麗端、邱國創、周子琪 | |||
富鈦中熵合金 | 中華民國 | 鄭憲清、蔡佩樺、廖俞欽 | |||
發明 | 鐵基金屬玻璃合金 | 中華民國 | 鄭憲清,何正榮, 蔡佩樺, 廖俞欽, 宋欣懋 | 發明 I 710648, 2020/11/20~ 2039/11/20 | |
發明 | 鐵基金屬玻璃合金 | 中華民國 | 鄭憲清,何正榮, 蔡佩樺, 廖俞欽, 宋欣懋 | 發明 I 710648號 | 本發明為一含鉭或鋁之鐵基金屬玻璃材料,該材料具有Fe41C10B7.5Ta3.5、Fe41Cr15Mo14C10B7.5Co7Y2Ta3.5或Fe43C8B6Al7之較佳實施例,鐵基金屬玻璃合金在商業上的高應用價值來自其具有良好的磁性質、高強度、高抗腐蝕性與相對便宜的價格,因此在商業上相當具有潛力。 |
發明 | 物性測量裝置及測量物性的方法 | 中華民國 | 鍾志昂、李亞寰、莊宗翰、江宗軒、顏芷珊、何正榮、 鄭憲清 | 發明 I 706124號 | 物性測量裝置包含加熱爐、排液容器、盛裝載具與物性計算系統。排液容器在加熱爐內,金屬熔融流體設置於排液容器。盛裝載具累積自排液容器流出的金屬熔融流體。物性計算系統包含記錄單元、轉換單元、計算單元與處理器。記錄單元記錄排液容器的容器資訊。轉換單元藉假設之物性參數與容器資訊轉換金屬熔融流體累積於盛裝載具上的重量為第一長度指標。計算單元藉物性參數與容器資訊模擬金屬熔融流體的流動以獲得第二長度指標。處理器調變物性參數最小化第一長度指標與第二長度指標的差異。當差異最小,當前的物性參數作為金屬熔融流體物性。 |
發明 | 異構組織之富鈦中熵合金之製備方法 | 中華民國 | 鄭憲清、蔡佩樺、廖俞欽、陳柏淞 | 發明 I 776731號 | 多元高熵/中熵合金為目前國際上最熱門的材料研究主題,其多元組成之特色挖掘出多元的合金系統也因此造就其合金之優異特殊的性質,但多元合金研究開發中最關鍵的機械性質仍受傳統合金延性悖論所限制,合金之高強度與高延展性不能同時共存。此研究透過快速退火製程於熱機處理之富鈦中熵合金以獲得特殊的異構組織,應用國際最創新之異構組織強化機制打破傳統合金的延性悖論侷限,此強化效果使合金同時提升合金之強度以及塑性變形能力。測試實驗結果顯示此特殊異構組織的富鈦中熵合金與商業化鈦合金以及鑄造態富鈦中熵合金相比,展現超高拉伸強度及優異延展性能力,大幅提升合金機械性質能力。此異構組織中熵合金之優異機械性質將展現其無可限量的產業應用潛能,創新科學研究及促進國家科技發展。 |
發明 | Measuring device and method of physical properties measuring | USA | 鍾志昂、李亞寰、莊宗翰、江宗軒、顏芷珊、何正榮、 鄭憲清 | US11,458,533 B2 | 物性測量裝置包含加熱爐、排液容器、盛裝載具與物性計算系統。排液容器在加熱爐內,金屬熔融流體設置於排液容器。盛裝載具累積自排液容器流出的金屬熔融流體。物性計算系統包含記錄單元、轉換單元、計算單元與處理器。記錄單元記錄排液容器的容器資訊。轉換單元藉假設之物性參數與容器資訊轉換金屬熔融流體累積於盛裝載具上的重量為第一長度指標。計算單元藉物性參數與容器資訊模擬金屬熔融流體的流動以獲得第二長度指標。處理器調變物性參數最小化第一長度指標與第二長度指標的差異。當差異最小,當前的物性參數作為金屬熔融流體物性。 |
發明 | 鎂基金屬玻璃複合物及其縫合錨釘 | 中華民國 | 陳志華、鄭憲清、 陳祥和、胡流源、 莊爾元 | 發明 I 742372號 | 利用可生物降解之鎂鋅鈣非晶質合金複材作為旋轉肌袖修復手術之縫合錨釘.1. 鎂金屬在體內過快的降解率。將傳統結晶材料以急速冷卻方式製成非晶質合金,利用其無晶界缺陷之優勢,增加抗腐蝕能力,進而降低降解速度。 鎂基非晶質合金為脆性材料,應用於骨科植入物會面臨斷裂之困難。利用添加具有韌性且不互溶於基材之金屬顆粒,藉以阻擋裂紋傳遞,增加整體材料韌性。 |
發明 | MAGNESIUM-BASED BULK METALLIC GLASS COMPOSITE AND SUTURE ANCHOR THEREOF | USA | 陳志華、鄭憲清、 陳祥和、胡流源、 莊爾元 | US11,458,533 B2 | 利用可生物降解之鎂鋅鈣非晶質合金複材作為旋轉肌袖修復手術之縫合錨釘. 鎂金屬在體內過快的降解率。將傳統結晶材料以急速冷卻方式製成非晶質合金,利用其無晶界缺陷之優勢,增加抗腐蝕能力,進而降低降解速度。 鎂基非晶質合金為脆性材料,應用於骨科植入物會面臨斷裂之困難。利用添加具有韌性且不互溶於基材之金屬顆粒,藉以阻擋裂紋傳遞,增加整體材料韌性。 |
發明 | 鐵基金屬玻璃合金 | 中華民國 | 鄭憲清,何正榮, 蔡佩樺, 廖俞欽, 宋欣懋, | 發明 I 710648號 | 一種鐵基金屬玻璃合金,由式(Fe41Cr15Mo14C12B9Co7Y2)100-(x+z)TaxAlz 之合金所形成, 其中,x 為0,z 為3 至6。該鐵基金屬玻璃合金之硬度大 於1000Hv。,該鐵基金屬玻璃合金可用於積層 製造。 |
發明 | 鐵基金屬玻璃合金 | 中華民國 | 鄭憲清,何正榮, 蔡佩樺, 廖俞欽, 宋欣懋, | 發明 I 710648號/2020/11/20~ 2039/11/20 | 一種鐵基金屬玻璃合金,由式(Fe41Cr15Mo14C12B9Co7Y2)100-(x+z)TaxAlz 之合金所形成, 其中,x 為0,z 為3 至6。該鐵基金屬玻璃合金之硬度大 於1000Hv。該鐵基金屬玻璃合金用於積層 製造。 |
發明 | 物性測量裝置及測量物性的方法 | 中華民國 | 鍾志昂、李亞寰、莊宗翰、江宗軒、顏芷珊、何正榮、 鄭憲清 | 發明 I 706124號/2020/10/01~ 2039/09/03 | 一種可快速量測熔融物體物理性質之方法 |
發明 | 異構組織之富鈦中熵合金之製備方法 | 中華民國 | 鄭憲清、蔡佩樺、廖俞欽、陳柏淞 | 發明 I 776731號/2022/09/01~ 2041/11/10 | 提供一種異構組織之富鈦中熵合金之製備方法,包括下列步驟:提供一富鈦中熵合金鑄錠,由式Tix(AlCrNbVa)100-x-yMy之合金所形成,其中,a為0或1,x為45至80, y為0至12,而M為Ni、Zr或其組合;以及退火處理該富鈦中熵合金鑄錠,以得到異構組織之富鈦中熵合金。 |
發明 | Measuring device and method of physical properties measuring | USA | 鍾志昂、李亞寰、莊宗翰、江宗軒、顏芷珊、何正榮、 鄭憲清 | 發明 US11,458,533 B2/2022/10/04~ 2042/10/03 | |
發明 | Dynamically impacting method for simultaneously peening and film-forming on substrate as bombarded by metallic glass | USA | Kuan-Wei Chen, Shian-Ching Jang Po-Jen Wei | 發明 US10,883,152 B2/2021/01/05~ 2041/01/04 | |
發明 | 鎂基金屬玻璃複合物及其縫合錨釘 | 中華民國 | 陳志華、鄭憲清、 陳祥和、胡流源、 莊爾元 | 發明 I 742372號/2021/10/11~2039/05/14 | 可降解鎂基金屬玻璃複合物及其縫合錨釘之組成及其製作方法 |
發明 | MAGNESIUM-BASED BULK METALLIC GLASS COMPOSITE AND SUTURE ANCHOR THEREOF | USA | 陳志華、鄭憲清、 陳祥和、胡流源、 莊爾元 | 發明 US11,458,533 B2/2022/01/11~ 2042/01/10 |
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