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Research interests:

Fatigue of advanced alloys under complex conditions;

Characterization of advanced alloys using in-situ SEM and EBSD;

Crystal plasticity simulation on mechanical behaviors of single-crystal and poly-crystal alloys;

Data-driven method to understand and model material properties.


Selected Publications:


Han, Q.-N., Rui, S.-S.,  . . . Shi, H. (2019). Crystal orientation effect on fretting fatigue induced geometrically necessary dislocation distribution in Ni-based single-crystal superalloys. Acta Materialia.


Han QN, Lei XS, . . . Shi HJ. (2021).Temperature-dependent fatigue response of a Fe44Mn36Co10Cr10 high entropy alloy: a coupled in-situ electron microscopy study and crystal plasticity simulation. International Journal of Fatigue.


Han, Q.-N., Rui, S.-S.,  . . . Shi, H. (2019). Effect of crystal orientation on the indentation behaviour of Ni-based single crystal superalloy. Materials Science & Engineering A.


Han QN, Lei XS, . . . Shi HJ. (2020). In-situ Observation and Finite Element Analysis of Fretting Fatigue Crack Propagation Behavior in 1045 Steel. Chinese Journal of Aeronautics.


Han, Q.-N., Lei XS, . . . Shi HJ.(2020). Effects of temperature and load on fretting fatigue induced geometrically necessary dislocation distribution in titanium alloy. Materials Science & Engineering A.


Patents:

Qinan Han, Xiaolin Yang, et al. SYSTEM FOR ULTRA-HIGH TEMPERATURE IN-SITU FRETTING FATIGUE EXPERIMENT. US Patent. 2021. 


详细信息:

请见个人主页 hanqn.com




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Associate Professor
Supervisor of Master's Candidates

Degree:Doctoral Degree in Engineering

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