2019: PhD, Department of Materials, Imperial College London
2013: MSc, Department of Materials Science & Engineering, National Taiwan University
2011: BSc, Department of Materials Science & Engineering, National Taiwan University
工程合金在製造過程中常須加溫至液態以便成形,其再凝固冷卻的過程中牽涉到能量釋放、體積改變、微結構發展、以及溶質的重新分配等現象,而這些現象又極易受到外部變因(如排熱系統、液態金屬流場、電磁作用力、壓力以及重力等)影響。了解凝固相變態學理與各類外部變因的交互作用,對於增進成型鑄造、合金鑄錠、焊接、定向凝固、快速凝固等凝固製程品質極為重要。
本實驗室-凝固製程與流變實驗室-利用凝固冶金學理、顯微組織與機械性質分析以最佳化合金設計和凝固製程參數,並跨領域結合半固態合金變形實驗、固液二相耦合流變模型及黏塑性本構行為等分析方法以研究並預測金屬凝固流變過程中產生的各類微結構不均勻與缺陷,以協助增進結構材料的可靠性和附加價值。
結合固液二相耦合流變模型與臨場實驗觀察探索半固態合金變形機制
2020/08 - present 國立臺灣大學材料科學與工程學系暨研究所助理教授
2019/02 - 2020/01 倫敦帝國學院博士後研究
2020 臺灣大學 獎勵新聘特殊優秀人才
2020 美國金屬學會2020年最佳論文獎TMS Light Metals Division JOM Best Paper Award
[1] T.C. Su*, C. O'Sullivan, H. Yasuda, C.M. Gourlay, 2020, June, Rheological transitions in semi-solid alloys: In-situ imaging and LBM-DEM simulations, Acta Materialia (SCI Journal), 191, pp. 24-42
[2] T.C. Su*, C. O’Sullivan, T. Nagira, H. Yasuda, C.M. Gourlay, 2019, January, Semi-solid deformation of Al-Cu alloys: a quantitative comparison between real-time imaging and coupled LBM-DEM simulations, Acta Materialia (SCI Journal), 163, pp. 208-225
[3] L. Peng*, G. Zeng, T.C. Su, H. Yasuda, K. Nogita, C.M. Gourlay*, 2019, April, Al8Mn5 particle settling and interactions with oxide films in liquid AZ91 magnesium, JOM (SCI Journal), 71, pp. 2235-2244
[4] J.W. Xian*, M.A.A. Mohd Salleh, S.A. Belyakov, T.C. Su, G. Zeng*, K. Nogita, H. Yasuda, C.M. Gourlay, 2018, August, Influence of Ni on the refinement and twinning of primary Cu6Sn5 in Sn-0.7Cu-0.05Ni, Intermetallics (SCI Journal), 102, pp. 34-45
[5] S.P. Tsai, T.C. Su, J.R. Yang*, C.Y. Chen, Y.T. Wang, C.Y. Huang, 2017, January, Effect of Cr and Al additions on the development of interphase-precipitated carbides strengthened dual-phase Ti-bearing steels, Materials & Design (SCI Journal), 119, pp. 319-325