Case 教师

萧遥

姓名:萧遥

性别:男

职称:特聘研究员

研究方向:智能材料及其应用

导师类型:博导

电子邮箱:xiaoy10@tongji.edu.cn



教育背景:

2014.9−2019.1     博士          清华大学机械工程系
2017.11−2018.4   访问学者    美国德州大学奥斯汀分校
2014.1−2014.6     访问学者    美国哈佛大学
2010.8−2014.7     学士          清华大学工程力学系(钱学森力学班)



工作履历:

2021.7−至今         特聘研究员 同济大学
2019.3−2021.2     洪堡学者    德国波鸿鲁尔大学



学术兼职:

担任International Journal of Mechanical Sciences、Materials & Design、Journal of Aerospace Engineering等多个国际期刊评审专家。



研究领域:

智能材料的力学与材料学研究

智能结构设计

医用机器人

常年招收硕士、博士研究生。对上述研究方向感兴趣的同学,欢迎邮件联系!



学术成果与奖励:

2020年入选日本学术振兴会(JSPS)特别研究员

2018年入选德国洪堡学者


论文:期刊论文摘选部分:

1. Jiang D, Xiao Y.* (2021): Modelling on grain size dependent thermomechanical response of superelastic NiTi shape memory alloy. International Journal of Solids and Structures 210-211: 170−182.

2. Xiao, Y., Jiang D.* (2020): Rate dependence of transformation pattern in superelastic NiTi tube. Extreme Mechanics Letters 39: 100819.

3. Xiao, Y., Jiang D.* (2020): Constitutive modelling of transformation pattern in superelastic NiTi shape memory alloy under cyclic loading. International Journal of Mechanical Sciences 182: 105743.

4. Shuai, J., Xiao, Y.* (2020): In-situ study on texture-dependent martensitic transformation and cyclic irreversibility of superelastic NiTi shape memory alloy. Metallurgical and Materials Transactions A 51(2): 562−567.

5. Xiao, Y.*, Zeng, P.*, Lei, L. (2019): Micromechanical modelling on thermomechanical coupling of superelastic NiTi alloy. International Journal of Mechanical Sciences 153−154: 36−47.

6. Xiao, Y., Zeng, P.*, Lei, L. (2018): Micromechanical modeling on thermomechanical coupling of cyclically deformed superelastic NiTi shape memory alloy. International Journal of Plasticity 107: 164−188.

7. Xiao, Y., Zeng, P.*, Lei, L., Zhang, Y. (2017): In situ observation on temperature dependence of martensitic transformation and plastic deformation in superelastic NiTi shape memory alloy. Materials & Design 134: 111−120.

8. Xiao, Y., Zeng, P.*, Lei, L. (2017): Grain size effect on mechanical performance of nanostructured superelastic NiTi alloy. Materials Research Express 4(3): 035702.

9. Xiao, Y., Zeng, P.*, Lei, L. (2016): Experimental investigation on local mechanical response of superelastic NiTi shape memory alloy. Smart Materials and Structures 25(1): 017002.

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