林健正-國立陽明交通大學材料科學與工程學系所

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林健正

成員介紹學術研究學術著作

職稱
教授

聯絡方式
辦公室電話：03-5712121-31827
傳真：03-5724727
辦公室：工程六館 314
e-mail：chienlin@cc.nctu.edu.tw chienlin@nycu.edu.tw
實驗室分機：03-5712121-55370
配合共指教授: 國家實驗研究院林博士 kllin@narlabs.org.tw

學歷
- 伊利諾大學厄巴納－香檳分校材料與工程學系博士
- 國立台灣中山大學材料科學研究所碩士
- 國立台灣大學機械工程學系學士
經歷
- 國立台灣交通大學新校區暨璞玉計畫推動小組召集人
- 國立台灣交通大學總務長
- 國立台灣中山大學材料與光電科學學系傑出系友
資料更新負責人：呂明慰
研究領域
- 陶瓷複合材料、高溫氧化、玻璃陶瓷、高介電係數薄膜
- 金屬與陶瓷材料之界面特性分析
- 陶瓷複合材料之研究
- 氧化及擴散行為之研究
建教合作領域
- 與中山科學研究院材料所合作探討鈦合金與陶瓷材料之界面特性分析
- 與高雄長庚醫院跨領域合作探討不同孔隙率的三維多孔二氧化鈦對於脂肪幹細胞分化為成骨細胞及脂肪細胞之影響
- Microstructural evolution and bonding mechanisms of the brazed Ti/ZrO2 joint using an Ag68.8Cu26.7Ti4.5 interlayer at 900 °C
  Shen-Hung Wei and Chien-Cheng Lin* Microstructural evolution and bonding mechanisms of the brazed Ti/ZrO2 joint using an Ag68.8Cu26.7Ti4.5 interlayer at 900 °C J. Mater. Res., 29 [5] 684-694 (2014)
- Effect of Zirconia Content on the Oxidation Behavior of Silicon Carbide/Zirconia/Mullite Composites J. Am. Ceram
  Cheng-Yuan Tsai, Chien-Cheng Lin*, Avigdor Zangvil*, and Ai-Kang Li* Effect of Zirconia Content on the Oxidation Behavior of Silicon Carbide/Zirconia/Mullite Composites J. Am. Ceram. Soc., 81 [9] 2413–20 (1998)
- Microscopic Mechanisms of Oxidation in SiC-Whisker-Reinforced Mullite/ZrO2 Matrix Composites
  Chien-Cheng Lin*, Avigdor Zangvil*, and Robert Ruh* Microscopic Mechanisms of Oxidation in SiC-Whisker-Reinforced Mullite/ZrO2 Matrix Composites J. Am. Ceram. Soc., 82 [10] 2833–40 (1999)
- Phase Evolution in Silicon Carbide–Whisker-Reinforced Mullite/Zirconia Composite during Long-Term Oxidation at 1000° to 1350°C
  Chien-Cheng Lin*, Avigdor Zangvil*, and Robert Ruh* Phase Evolution in Silicon Carbide–Whisker-Reinforced Mullite/Zirconia Composite during Long-Term Oxidation at 1000° to 1350°C J. Am. Ceram. Soc., 83 [7] 1797–803 (2000)
- Ti2ZrO Phases Formed in the Titanium and Zirconia Interface after Reaction at 1550ºC
  Kun-Lin Lin and Chien-Cheng Lin* Ti2ZrO Phases Formed in the Titanium and Zirconia Interface after Reaction at 1550ºC J. Am. Ceram. Soc., 88 [5] 1268–1272 (2005)
- Microstructural Evolution and Formation Mechanism of the Interface between Titanium and Zirconia Annealed at 1550°C
  Kun-Lin Lin and Chien-Cheng Lin* Microstructural Evolution and Formation Mechanism of the Interface between Titanium and Zirconia Annealed at 1550°C J. Am. Ceram. Soc., 89 [4] 1400–1408 (2006)
- Effect of Yittria on Interfacial Reactions Between Titanium Melt and Hot Pressed Yttria/Zirconia Composites at 1700º
  Chien-Cheng Lin,* Yao-Wen Chang, Kun-Lin Lin, and Kun-Fung Lin. Effect of Yittria on Interfacial Reactions Between Titanium Melt and Hot Pressed Yttria/Zirconia Composites at 1700º J. Am. Ceram. Soc., 91 [7] 2321–2327 (2008)
- Oxygen Diffusivities and Surface Exchange Coefficients in Porous Mullite/Zirconia Composites Measured by the Conductivity Relaxation Method
  Hong-Da Ko and Chien-Cheng Lin* Oxygen Diffusivities and Surface Exchange Coefficients in Porous Mullite/Zirconia Composites Measured by the Conductivity Relaxation Method J. Am. Ceram. Soc., 93 [1] 176-183 (2010)
- Compositional Dependence of Phase Formation Mechanisms at the Interface Between Titanium and Calcia-Stabilized Zirconia at 1550ºC
  Yao-Wen Chang and Chien-Cheng Lin* Compositional Dependence of Phase Formation Mechanisms at the Interface Between Titanium and Calcia-Stabilized Zirconia at 1550ºC J. Am. Ceram. Soc., 93 [11] 3893–3901 (2010)
- Microstructural evolution and bonding mechanisms of the brazed Ti/ZrO2 joint using an Ag68.8Cu26.7Ti4.5 interlayer at 900 °C
  Shen-Hung Wei and Chien-Cheng Lin* Microstructural evolution and bonding mechanisms of the brazed Ti/ZrO2 joint using an Ag68.8Cu26.7Ti4.5 interlayer at 900 °C J. Mater. Res., 29 [5] 684-694 (2014)
- Phase transformation and icrostructural development of zirconia/stainless steel bonded with a Ti/Ni/Ti interlayer for the potential application in solid oxide fuel cells
  Shen-Hung Wei and Chien-Cheng Lin* Phase transformation and icrostructural development of zirconia/stainless steel bonded with a Ti/Ni/Ti interlayer for the potential application in solid oxide fuel cells, J. Mater. Res., 29 [8] 923-934 (2014)