个人简介
授課領域
核能結構材料
學歷一覽
1.美國 伊利諾大學厄巴納香檳分校,核子、電漿與放射工程系博士
2.國立清華大學工程與系統科學系碩士、學士
經歷一覽
1.原子能委員會核能研究所-副研究員2019/02-2019/07
2.美國內華達大學拉斯維加斯分校-博士後研究員, 2017/07-2018/08
研究领域
鋯合金與高溫材料機械性質、金屬腐蝕、材料結構與性質分析、表面改質技術、細胞自動機模擬
近期论文
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1.K.-C. Lan*, W. Zhong, P. A. Mouche, H.-M. Tung, H. Lee, B. J. Heuser, J. F. Stubbins, “The challenge to acquire a satisfactory EBSD results of CWSR Zircaloy-4 cladding tube”, Journal of Microscopy, 272(1), 25-34 (2018) , DOI: 10.1111/jmi.12729
2.K.-C. Lan*, H.-M. Tung, K. Mo, Y. Miao, J. F. Stubbins, “Biaxial creep performance of CWSR Zircaloy-4 cladding at emulated off-normal conditions of interim dry storage facility”, Materials Science and Engineering: A, 736(24) 400-403, (2018)
3. H. Wei, Y.T. Chen, K.-C. Lan, and J. Cheng, "Parametric study of thermal molten salt reactor neutronics criticality behavior." Progress in Nuclear Energy 108, (2018): 409-418.
4. K. Mo, W. Lv, H.-M. Tung, D. Yun, Y. Miao, K.-C. Lan, J. F. Stubbins, J. F. “Biaxial Thermal Creep of Alloy 617 and Alloy 230 for VHTR Applications,” Journal of Engineering Materials and Technology, 138(3), 031015. (2016)
5. X. Liu, K. Mo, Y. Miao, K.-C. Lan, G. Zhang, W.-Y. Chen, C. Tomchik, R. Seibert, J. Terry, J. F. Stubbins, “Investigation of thermal aging effects on the tensile properties of Alloy 617 by in-situ synchrotron wide-angle X-ray scattering,” Materials Science and Engineering A, 651, 55 (2016).
6. Y. Miao, K. Mo, Z. Zhou, X. Liu, K.-C. Lan, G. Zhang, M. K. Miller, K. A. Powers, Z-G Mei, J.-S. Park, J. Almer, J. F. Stubbins, "On the microstructure and strengthening mechanism in oxide dispersion-strengthened 316 steel: A coordinated electron microscopy, atom probe tomography and in situ synchrotron tensile investigation," Materials Science and Engineering: A, Materials Science & Engineering A 639, 585 (2015)
7. Y. Miao, K. Mo, Z. Zhou, X. Liu, K.-C. Lan, G. Zhang, M. K. Miller, K. A. Powers, Z-G Mei, J.-S. Park, J. Almer, J. F. Stubbins, "In-situ Synchrotron Tensile Investigations on the Phase Responses within an Oxide Dispersion-strengthened (ODS) 304 Steel," Materials Science & Engineering A 625, 146 (2015)
8.K.-C. Lan, Y.T. Chen, T.-C. Hung, H.-M. Tung, G.-P. Yu, "Simulation of the growth of oxide layer of stainless steels with chromium using cellular automaton model: Verification and parameter study," Computational Materials Science 77, 139 (2013)
9.K.-C. Lan, Y.T. Chen, T.-K. Yeh, T.-C. Hung, M.-L. Liu, G.-P. Yu, “Scale removal oxidation behavior of metal in supercritical water modeled by cellular automaton,” Progress in Nuclear Energy 53(7), 1034 (2011)
10.K.-C. Lan, J.-H. Huang, C.-F. Ai, G.-P. Yu, “Structure and properties of nanocrystalline ZrNxOy thin films: effect of the oxygen content and film thickness,” J. Vac. Sci. Technol. A 29, 031506 (2011)