个人简介
[教育背景]
[1] 2013年-2017年,博士,湖南大学,机械与运载工程学院,固体力学,复合材料力学
[2] 2009年-2012年,硕士,湖南大学,机械与运载工程学院,固体力学,智能材料与结构力学
[3] 2004年-2008年,本科,北京建筑大学,土木与交通工程学院,土木工程
[工作经历]
[1] 2018年-至今,中南大学,交通与运载工程学院,讲师
[2] 2012年-2013年,三一重工,发动机研究院,仿真工程师
[科研项目]
[1] 2020年-2022年,国家自然科学基金青年基金项目,多尺度FFRP的界面应力传递机制及热粘弹性能预测研究(11902366),主持
[2] 2019年-2021年,湖南省自然科学基金青年基金项目,具纳米梯度界面FFRP阻尼机制的多尺度研究(2019JJ50810),主持
[3] 2014年-2016年,湖南省研究生科研创新项目,纤维增强聚合梯度材料及其结构的热粘弹性行为研究(CX2014B156),主持
[4] 2014年-2017年,国家自然科学基金,热塑性聚合梯度材料及其结构的热粘弹性行为(11372105),参与
[5] 2011年-2013年,国家自然科学基金,功能梯度压电材料结构的非线性电热弹性响应及其可靠性研究(11072077),参与
研究领域
[1] 复合材料力学
[2] 智能材料与结构优化
[3] 运载工具运用工程
近期论文
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[1] Y.N. Rao, H.L. Dai, T. Dai, Y. Yang. Linkages among fiber content, porosity and local aggregation in fiber-reinforced composites, and their effect on effective properties. Journal of Material Science, 2017, 52:12486-12505.
[2] Y.N. Rao, H.L. Dai. Micromechanics-based thermo-viscoelastic properties prediction of fiber reinforced polymers with graded interphases and slightly weakened interfaces. Composite Structures, 2017, 168: 440-455.
[3] H.L. Dai, Y.N. Rao, T. Dai. A review of recent researches on FGM cylindrical structures under coupled physical interactions, 2000–2015. Composite Structures, 2016, 152: 199-225.
[4] H.L. Dai, Y.N. Rao. A novel method for producing light GMT sheets by a pneumatic technique. Mechanics of Composite Materials, 51 (2015) 539-542.
[5] H.L. Dai, Y.N. Rao. Vibration and transient response of a FGM hollow cylinder. Mechanics of Advanced Materials and Structures, 21(2014), 468-476.
[6] H.L. Dai, Y.N. Rao. Dynamic thermoelastic behavior of a double-layered hollow cylinder with an FGM layer. Journal of Thermal Stresses, 36(2013) 962-984.
[7] H.L. Dai, Y.N. Rao, H.J. Jiang. Thermoelastic dynamic response for a long FGM hollow cylinder. Journal of Composite Materials, 47(2012) 315-325.
[8] H.L. Dai, Y.N. Rao, Investigation on electromagnetothermoelastic interaction of functionally graded piezoelectric hollow spheres. Structural Engineering and Mechanics, 40, (2011) 49-64.
[9] H.L. Dai, Y.N. Rao, An analytical method for magnetothermoelastic analysis of functionally graded hollow cylinders. Applied Mathematics and Computation, 218 (2011) 1467–1477.
[10] H.L. Dai, C. Mei, Y.N. Rao. A novel method for prediction of tensile strength of spherical particle‐filled polymer composites with strong adhesion. Polymer Engineering & Science, 2017, 57(2): 137-143.
[11] H.L. Dai, C. Mei, Y.N. Rao. Anisotropy of the elastic modulus for hybrid composites reinforced by short fibers and particles with respect to material porosity. Journal of Applied Polymer Science, 2016, 133(31).
[12] H. Xie, H.L. Dai, Y.N. Rao. Thermoelastic dynamic behaviors of a FGM hollow cylinder under non-axisymmetric thermo-mechanical loads. Journal of Mechanics, 29(2013) 109-120.