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辛灏辉  
研究领域(方向)

纤维增强复合材料“FRP”在结构工程中的应用;

钢结构、组合结构及其构件的承载疲劳性能评估;

3D打印钢材及FRP在结构工程中的应用。

个人及工作简历

教育经历:

2012.09-2017.10   同济大学     桥梁与隧道工程      博士

2008.09-2012.07   同济大学     土木工程            学士

工作经历:

2020.11-至今         西安交通大学                教授

2017.11-2020.11   代尔夫特理工大学(荷兰)   博士后

科研项目

1. 主持国家自然科学基金青年项目:考虑纤维弯曲缺陷拉挤GFRP桥面层合板破坏机理多尺度数值模拟, 项目经费:29万元

2. 主持西安交通大学青年拔尖人才(A类)启动经费,项目经费:200万元。

3. 主要参与国家自然科学基金面上项目:拉挤GFRP型材翼缘-腹板结合部受力机理及疲劳性能研究,项目经费:62万元

4. 主要参与交通运输部科技建设项目:FRP组合梁桥设计与快速施工关键技术研究,项目经费:200万元

学术及科研成果、专利、论文

十五篇代表性论著:

1.         Xin, Haohui, Yuqing Liu*, Ayman Mosallam, and Youyou Zhang. "Moisture diffusion and hygrothermal aging of pultruded glass fiber reinforced polymer laminates in bridge application." Composites Part B: Engineering 100 (2016): 197-207.

2.         Xin, Haohui, Ayman Mosallam, Yuqing Liu*, Congzhe Wang, and Youyou Zhang. "Analytical and experimental evaluation of flexural behavior of FRP pultruded composite profiles for bridge deck structural design." Construction and Building Materials 150 (2017): 123-149.

3.         Xin, Haohui, Yuqing Liu*, Ayman S. Mosallam, Jun He, and Ao Du. "Evaluation on material behaviors of pultruded glass fiber reinforced polymer (GFRP) laminates." Composite structures 182 (2017): 283-300.

4.         Xin, Haohui, Yuqing Liu*, Ayman Mosallam, Youyou Zhang, and Congzhe Wang. "Hygrothermal aging effects on flexural behavior of pultruded glass fiber reinforced polymer laminates in bridge applications." Construction and Building Materials 127 (2016): 237-247.

5.         Xin, Haohui, WaiChing Sun, and Jacob Fish*. "Discrete element simulations of powder-bed sintering-based additive manufacturing." International Journal of Mechanical Sciences 149 (2018): 373-392.

6.         Xin, Haohui, Yuqing Liu*, and Ao Du. "Thermal analysis on composite girder with hybrid GFRP-concrete deck." Steel and Composite Structures 19, (2015): 1221-1236.

7.         Xin, Haohui, Ayman Mosallam, Yuqing Liu*, Fei Yang, and Youyou Zhang. "Hygrothermal aging effects on shear behavior of pultruded FRP composite web-flange junctions in bridge application." Composites Part B: Engineering 110 (2017): 213-228.

8.         Xin, Haohui*, and Milan Veljkovic. "Fatigue crack initiation prediction using phantom nodes-based extended finite element method for S355 and S690 steel grades." Engineering Fracture Mechanics 214 (2019): 164-176.

9.         Xin, Haohui*, José AFO Correia, and Milan Veljkovic. "Three-dimensional fatigue crack propagation simulation using extended finite element methods for steel grades S355 and S690 considering mean stress effects." Engineering Structures 227 (2021): 111414.

10.     Xin, Haohui, Ayman Mosallam, José AFO Correia, Yuqing Liu*, Jun He, and Yun Sun. "Material-structure integrated design optimization of GFRP bridge deck on steel girder." In Structures, vol. 27, pp. 1222-1230. Elsevier, 2020.

11.     Xin, Haohui*, and Milan Veljkovic. "Residual stress effects on fatigue crack growth rate of mild steel S355 exposed to air and seawater environments." Materials & Design (2020): 108732.

12.     Xin, Haohui, Ayman Mosallam, Yuqing Liu*, Milan Veljkovic, and Jun He. "Mechanical characterization of a unidirectional pultruded composite lamina using micromechanics and numerical homogenization." Construction and Building Materials 216 (2019): 101-118.

13.     Xin, Haohui*, and Milan Veljkovic. "Evaluation of high strength steels fracture based on uniaxial stress-strain curves." Engineering Failure Analysis 120: 105025.

14.     Xin, Haohui, Yuqing Liu*, Jun He, and Youyou Zhang. "Experimental and analytical study on stiffened steel segment of hybrid structure." Journal of Constructional Steel Research 100 (2014): 237-258. (SCI, EI)

15.     Xin, Haohui, Ayman Mosallam, Yuqing Liu*, Yi Xiao, Jun He, Congzhe Wang, and Zhibo Jiang. "Experimental and numerical investigation on in-plane compression and shear performance of a pultruded GFRP composite bridge deck." Composite Structures 180 (2017): 914-932.

人才称号:

2019年西安交通大学青年拔尖人才计划(A类)

联系方式
电子邮箱:xinhaohui@xjtu.edu.cn
联系电话:133 7925 8987
联系地址:陕西省西安市中国西部创新港19号楼4102室
更新日期:2021-01-19