朱家明
Professor
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Personal Information:
  • Name (Pinyin):
    zhujiaming
  • Date of Employment:
    2020-09-27
  • School/Department:
    土建与水利学院
  • Gender:
    Male
Publication
Research direction

No contents

Papers

1. Lou, Liqun. On the transport behavior of shale gas in nanochannels with fractal roughness .PHYSICS OF FLUIDS.2024,36 (2)

2. Lv, Shaojie. The microstructure evolution and influence factors of acicular ferrite in low alloy steels .Computational Materials Science.2023,218

3. Wang, Feiyang. Enhanced nanocrystalline stability of BCC iron via copper segregation .PROGRESS IN NATURAL SCIENCE-MATERIALS INTERNATIONAL.2023,33 (2):185-192

4. Lv, Shaojie. Phase field simulation of eutectoid microstructure during austenite-pearlite phase transformation .Journal of Materials Research and Technology.2023,26 :8922-8933

5. Guo, Wang. Interfacial behavior of thin film bonded to plastically graded substrate under tensile loading .European Journal of Mechanics, A/Solids.2023,97

6. Zhang, Gang. Microstructural evolution and kinetics of phase separation in binary polymer blends under electric fields .Computational Materials Science.2022,213

7. Li, Bo. Advances of machining techniques for gradient structures in multi-principal-element alloys .Rare Metals.2022,41 (12):4015-4026

8. Wang, Kaiyang. Recent research progress on the phase-field model of microstructural evolution during metal solidification .INTERNATIONAL JOURNAL OF MINERALS METALLURGY AND MATERIALS

9. Lv, Shaojie. The austenite to polygonal ferrite transformation in low-alloy steel: multi-phase-field simulation .Journal of Materials Research and Technology.2023,24 :9630

10. Han, Yekun. Mechanical behavior of single layer MoS2 sheets with aligned defects under uniaxial tension .JOURNAL OF APPLIED PHYSICS.2021,130 (12)

11. Fu, Hui. A novel atomic movement mechanism of intersection-induced bct-alpha -> bcc-alpha ' martensitic phase transformation .scripta materialia.2021,204

12. 朱家明. A novel two-stage martensitic transformation induced by nanoscale concentration modulation in a TiNb-based shape memory alloy .计算材料科学.2021,200

13. Hao, Mengyuan. Heterogeneous Microstructure Enhanced Comprehensive Mechanical Properties in Titanium Alloys .JOM.2021,73 (10):3082

14. Wu, Hong-Hui. Effects of magnetic frequency and the coupled magnetic-mechanical loading on a ferromagnetic shape memory alloy .Journal of Physics D: Applied Physics.2021,54 (15)

15. Huang, He. Rational design of black phosphorene/g-C3B heterostructures as high-performance electrodes for Li and Na-ion batteries .Applied Surface Science.2021,561

16. Wu, Bo. Severe plastic deformation-produced gradient nanostructured copper with a strengthening-softening transition .PROPERTIES MICROSTRUCTURE AND PROCESSING Journal.2021,819

17. Zhuo, Fangping. Perspective on antiferroelectrics for energy storage and conversion applications .CHINESE CHEMICAL LETTERS Journal.2021,32 (7):2097

18. Zhang, Tianlong. A new alpha plus beta Ti-alloy with refined microstructures and enhanced mechanical properties in the as-cast state .scripta materialia.2022,207

19. Wu, Yuan. Local chemical fluctuation mediated ultra-sluggish martensitic transformation in high-entropy intermetallics .MATERIALS HORIZONS.2022,9 (2):804

20. Fu, Hui. A novel atomic movement mechanism of intersection-induced bct-alpha -> bcc-alpha ' martensitic phase transformation .scripta materialia.2021,204

21. 朱家明. Direct experimental evidence for the non-linear elasticity of multi-functional alloy Ti2448 .COMPOSITES COMMUNICATIONS.2021,24

22. 朱家明. Influence of Ni4Ti3 precipitation on martensitic transformations in NiTi shape memory alloy: R phase transformation .ACTA MATERIALIA.2021,207

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