个人简介
曾获荣誉:
1. 湖南省“百人计划”入选 2. 中南大学创新驱动团队负责人 3. Outstanding Academic Performance Award by City University of Hong Kong. 香港城市大学优秀研究表现奖 4. Technical Paper Award to Professional Institutions, Academic and Learned Societies 2015, AECOM Company Limited, Hong Kong.
向平,湖南省引进海外高层次人才“百人计划”入选专家,2012年博士毕业于香港城市大学,2012-2017年在香港城市大学历任博士后研究员,副研究员。2017年入职中南大学土木工程学院,主持国家自然科学基金面上项目,发表论文70余篇SCI50篇,包括ESI高被引,以及多篇顶级top一区SCI论文,获得专利授权3项,软件著作权3项。曾作为中南大学优秀教师代表得到全国政协副主席的亲切接见。受多所国际高校访问邀请,如英国斯旺西大学,格拉斯哥斯特拉斯克莱德大学,韩国群山大学,达特茅斯学院等。
★招收高速铁路车桥耦合动力学,结构工程,计算板壳力学,光纤传感,结构健康监测等方向硕博研究生,欢迎联系入站博士后。
★长期招聘(1)在校大学生做兼职助研,以及(2)大学或硕士毕业生希望考研或考博的做全职助理研究员,课题组根据学生能力给予全职兼职助理研究员以及研究生相应劳务费,欢迎报名加入项目组研究团队。
研究领域
高速铁路车轨桥耦合系统动力学,地震作用下高铁桥梁行车安全,计算力学有限元法,计算力学无网格法,钢骨混凝土组合结构,计算纳米力学及生物力学。
近期论文
查看导师新发文章
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1. Wang HP, Xiang Ping*(corresponding author通讯作者), Jiang LZ. (2018) Optical fiber sensor based in-field structural performance monitoring of multi-layered asphalt pavement, Journal of Lightwave Technology, 36 (17): 3624-3632.
DOI 10.1109/JLT.2018.2838122.
(SCI rank: Q1,一区,影响因子3.652).
2. Wang HP, Jiang LZ, Xiang Ping*(corresponding author通讯作者). (2018) Improving the durability of the optical fiber sensor based on strain transfer analysis, Optical Fiber Technology, 42: 97 - 104.
(SCI rank: Q2)
3. Xiang Ping, Wang HP, Jiang LZ. Sensitivity of microtubule-based biomechanical mass detector, Journal of Nanoscience and Nanotechnology, accepted for publication on Dec 16, 2017.
(SCI)
4. Deng ZH, Xu CC, Hu Q, Zeng J, Xiang Ping*(corresponding author通讯作者). (2018). Investigation on the Structural Behavior of Shear Walls with Steel Truss Coupling Beams under Seismic Loading, Advances in Materials Science and Engineering, 5602348. DOI: 10.1155/2018/5602348
(SCI)
5. Wang HP, Jiang LZ, Xiang Ping*(corresponding author通讯作者). (2018) Priority design parameters of industrialized optical fiber sensors in civil engineering, Optics and Laser Technology, 100: 119 - 128.
(SCI rank: Q2)
6. Yan JW, Tong LH, Xiang Ping*(corresponding author通讯作者), (2017). Free vibration analysis of single-walled boron nitride nanotubes based on a computational mechanics framework. Superlattices and Microstructures, 112: 230 - 248.
https://doi.org/10.1016/j.spmi.2017.09.028
(SCI rank: Q2)
7. Deng Z, Hu Q, Zeng J, Xiang Ping*(corresponding author通讯作者), Xu, C. C. (2018). Structural performance of steel-truss-reinforced composite joints under cyclic loading. Proceedings of the Institution of Civil Engineers: Structures and Buildings. 171(2): 130-148. https://doi.org/10.1680/jstbu.16.00188; Published Online: June 14, 2017
(SCI)
8. Xiang Ping, Zhang LW and Liew KM, (2017). A third-order Cauchy-Born rule for modeling of microtubules based on the element-free framework. Composite Structures. 161: 215–226. doi: http://doi.org/10.1016/j.compstruct.2016.10.110
(SCI rank: Q1 in JCR Category,Impact factor 3.853,Ranks 2 in total 25 journals)
9. Xiang Ping, Zhang LW and Liew KM, (2016). A mesh-free computational framework for predicting vibration behaviors of microtubules in an elastic medium, Composite Structures, 149: 41-53. doi:10.1016/j.compstruct.2016.03.063.
(SCI rank: Q1 in JCR Category,Impact factor 3.853,Ranks 2 in total 25 journals)
10. Xiang Ping, Zhang LW and Liew KM, (2016). Meshfree simulation of temperature effects on the mechanical properties of microtubules. Engineering Analysis with Boundary Elements, 69: 104–118. doi:10.1016/j.enganabound.2016.05.006.
(SCI rank: Q1 in JCR Category,Impact factor 1.862,Ranks 20 in total 85 journals)
11. Xiang Ping, Zhang LW and Liew KM, (2015). Analysis of macromolecular microtubules using the potential-based matrix displacement method, Composite Structures, 127: 224-230. doi:10.1016/j.compstruct.2015.03.004.
(SCI rank: Q1 in JCR Category,Impact factor 3.853,Ranks 2 in total 25 journals)
12. Xiang Ping and Liew KM, (2013). A computational framework for transverse compression of microtubules based on a higher-order Cauchy–Born rule. Computer Methods in Applied Mechanics and Engineering, 245: 14-30.
doi:10.1016/j.cma.2012.10.013
(SCI rank: Q1 in JCR Category,Impact factor 3.467,Ranks 6 in total 135 journals)
——A top 5% SCI journal, ranks No. 1 in Computational Mechanics
13. Xiang Ping and Liew KM, (2012). Free vibration analysis of microtubules based on an atomistic-continuum model. Journal of Sound and Vibration, 2012, 331(1): 213-230. doi:10.1016/ j.jsv.2011.08.024
(SCI rank: Q1 in JCR Category,Impact factor 2.107,Ranks 7 in total 32 journals)
14. Xiang Ping and Liew KM, (2012). Dynamic behaviors of long and curved microtubules based on an atomistic-continuum model. Computer Methods in Applied Mechanics and Engineering, 2012, 223-224: 123-132. doi:10.1016/j.cma.2012.02.023
(SCI rank: Q1 in JCR Category,Impact factor 3.467,Ranks 6 in total 135 journals)
——A top 5% SCI journal, ranks No. 1 in Computational Mechanics
15. Xiang Ping and Liew KM, (2011). Predicting buckling behavior of microtubules based on an atomistic-continuum model. International Journal of Solids and Structures, 2011, 48(11-12): 1730-1737. doi:10.1016/j.ijsolstr.2011.02.022
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