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卞立春老师的个人信息

姓   名 卞立春 职   务 教师
出生年月 民   族
学   位 博士(博士后) 学   历 研究生
导师身份 博士生导师 教 师 I D 134651
单位电话
毕业院校 挪威科技大学
通信地址 河北省秦皇岛市海港区河北大街西段438号
电子信箱 lc_bian@126.com
教学信息
材料力学(本科生)
科技英语(本科生)
英语科技论文写作(研究生)
损伤与断裂力学(博士研究生)
复合材料细观力学(博士研究生)
科研方向及科研信息
科研方向:
疲劳损伤和断裂力学,材料细观结构和本构理论,纳米/颗粒强化复合材料、混凝土和建筑结构破
坏分析和工程应用。

科研项目:
加拿大国家自然科学基金项目(NSERC),美国-加拿大21世纪汽车工业高新技术研究基金项目
(Auto 21 Excellent),国家/河北省自然科学基金项目。

发表SCI论文:
1. Bian, L., Wei Liu and Jing Pan. Probability of debonding and effctive elastic
properties of particle-reinforced composites. International Journal of Mechanics,
2017. (SCI, EI)
2. Jing Pan and Bian, L. Influence of agglomeration parameters on carbon nanotube
composites. International Journal of Acta Mechanica, 2017. (SCI, EI)
3. Jing Pan, Bian, L., Huichuan Zhao and Yang Zhao.A new micromechanics model and
effective elastic modulus of nanotube reinforced composites. Computational Materials
Science, 2016. (SCI, EI)
4. Bian, L. and Huichuan Zhao. Elastic properties of a single-walled carbon nanotube
under a thermal environment. International Journal of Composite Structures, 2015.
(SCI, EI)
5. Huichuan Zhao, Bian, L. and Jing Pan. A temperature related study on bifurcation
strain and force of carbon nanotubes. Computational Materials Science, 2015. (SCI,
EI)
6. Bian, L. A new damage model and the prediction of elasto-plastic fatigue
fracture. International Journal of Constructional Steel Research, 2014. (SCI, EI)
7. Cheng Yong, Bian, L., Wang Yanyu and Farid Taheri Influences of reinforcing
particle and interface bonding strength on material properties of Mg/Nano-particle
composites. International Journal of Solids and Structures, 2014. (SCI, EI)
8. Bian, L. Cheng Yong and Taheri, F. Elasto-plastic analysis of critical fracture
stress and fatigue fracture prediction. International Journal of Acta Mechanica,
2014. (SCI, EI)
9. Bian, L. Cheng Yong and Li Huijian A statistical study on the stress-strain
relation of progressively debonded composites. International Journal of Construction
& Building Materials, 2013. (SCI, EI)
10. Bian, L. Wang Q. Influence of the particle size and volume fraction on micro-
damage of the composites. Archive of Applied Mechanics, 2013. (SCI, EI)
11. Bian, L. Wang Qing, Meng Deliang and Li Huijian A modified micro-mechanics model
for estimating effective elastic modulus of concrete. International Journal of
Construction & Building Materials, 2012. (SCI, EI)
12. Wang, Q., Bian, L. and Li, H. Effective elastic modulus and micro-structure
damage of particle-reinforced composites. Composite Structures, An International
Journal, 2012. (SCI, EI)
13. Bian, L. and Taheri, F. A proposed maximum ratio criterion applied to mixed mode
fatigue crack propagation. International Journal of Materials in Engineering
Applications (Materials & Design), 2011. (SCI, EI)
14. Bian, L. Crack growth prediction and non-linear analysis for an elasto-
plastic solid, International Journal of Engineering Science, 2009. (SCI, EI)
15. Bian, L. and Taheri, F. Analytical modeling of fatigue crack propagation
in metals coupled with elasto-plastic deformation, International Journal of
Fracture, 2008. (SCI, EI)
16. Bian, L., Taheri, F. and Lu, Y. Analytical and experimental evaluations of
the influence of fracture surface roughness, its sliding actions and the
associated plasticity on fatigue crack propagation, International Journal of
Plasticity, 2008. (SCI, EI)
17. Bian, L. C., Fawaz, Z. and Behdinan, K. An improved model for predicting
the crack size and plasticity dependence of fatigue crack propagation,
International Journal of Fatigue, 2008. (SCI, EI)
18. Bian, L. and Taheri, F. Fatigue fracture criteria and microstructures of
magnesium alloy plates, Materials Science and Engineering: A, 2008. (SCI, EI)
19. Bian, L. and Taheri, F. Investigation of fatigue crack propagation in line
pipes containing an angled surface flaw, ASME - Journal of Pressure Vessel
Technology, 2008. (SCI, EI)
20. Bian, L. Material plasticity dependence of mixed mode fatigue crack growth
in commonly used engineering materials, International Journal of Solids and
Structures, 2007. (SCI, EI)
21. Bian, L. Effect of material plasticity on fatigue crack propagation under
complex stress state, International Journal of Fracture, 2007. (SCI, EI)
22. Bian, L. C., Fawaz, Z. and Behdinan, K. Prediction of mixed mode fracture
based on an elasto-plastic energy balance criterion, Archive of Applied
Mechanics, 2007. (SCI, EI)
23. Bian, L., Fawaz, Z. and Behdinan, K. A mixed mode crack growth model
taking account of fracture surface contact and friction, International
Journal of Fracture, 2006. (SCI, EI)
24. Bian, L. and Kim, K. S. The minimum plastic zone radius criterion for crack
initiation direction applied to surface cracks and through-cracks under mixed mode
loading, International Journal of Fatigue, 2004. (SCI, EI)
25. Bian, L. and Lim, J. K. Fatigue life prediction of the plates with an inclined
surface crack, International Journal of Fatigue, 2003. (SCI, EI)
26. Bian, L. and Lim, J. K. Fatigue Strength and Stress Concentration Factors of CHS-
to-RHS T-joints, Journal of Constructional Steel Research, 2003. (SCI, EI)
工作学习简历
分别在加拿大、挪威和瑞典等国家学习工作多年,现任燕山大学教授,博士生导师。

目前担任下列国际权威杂志论文审稿人:
International Journal of Solids and Structures
International Journal of Construction & Building Materials

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