People/本所成員
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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
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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)
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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)
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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)
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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)
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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)
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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)
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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)
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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)
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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)
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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)
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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)
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Microstructural evolution and bonding mechanisms of the brazed Ti/ZrO2 joint using an Ag68.8Cu26.7Ti4.5 interlayer at 900 °C