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基本信息 The basic information
姓名: 邓勇

学院: 民航学院


学历: 博士研究生毕业

学位: 工学博士


职称: 副教授

职务:


学科: 力学-固体力学,航空宇航科学-飞行器设计,航空宇航科学-航空宇航推进理论与工程





工作经历 Work Experience
2020.07-至今 西北工业大学民航学院 副教授



教育经历 Education Experience
2015.09-2020.06重庆大学 博士 力学
2011.09-2015.06重庆大学 本科 工程力学







荣誉获奖 Awards Information
（1）重庆大学优秀博士论文；
（2）重庆市科协自然科学“优秀学术论文奖”；
（3）重庆大学科学技术奖自然科学一等奖；
（4）重庆市三好学生；
（5）重庆力学学会首届研究生学术节“优秀论文评选一等奖”；
（6）重庆大学科学技术创新先进个人；
（7）中国稀土科技学术交流会优秀口头报告奖.



科学研究 Scientific Research
主要研究领域：
（1）极端服役环境下陶瓷基复合材料的力学性能、强韧化理论及损伤破坏；
（2）航空发动机结构强度及健康监测；
（3）高超声速飞行器热防护材料及技术。
主持的科研项目：
（1）上海市 “科技创新行动计划”扬帆计划项目（20万元），2021-04至2024-03；
（2）陕西省自然科学基金青年基金（3万元），2021JQ-073，2021-01至2022-12；
（3）太仓市科技局面上项目（5万元），TC2020JC16，2020-08至2022-08。



学术成果 Academic Achievements
目前发表SCI论文40余篇，其中以第一作者在陶瓷领域Top期刊J. Am. Ceram. Soc.、J. Eur. Ceram. Soc.、Ceram. Int.和复合材料领域权威期刊Compos. Struct.等期刊上发表SCI论文10篇，申请国家发明专利14项（已授权6项）。
[1]YongDeng*,WeiguoLi**,et al.,Theoreticalpredictionsontemperature-dependentstrengthforMAXphases，JournaloftheAmericanCeramicSociety，accepted，2021.（陶瓷领域Top期刊）
[2]Yong Deng*, Weiguo Li**, et al., Thermal-mechanical-oxidation coupled first matrix cracking stress model for fiber reinforced ceramic-matrix composites. Journal of the European Ceramic Society,2021，41：4016–4024. （陶瓷领域Top期刊）
[3]Yong Deng, Weiguo Li*, et al., The temperature-dependent fracture models for fiber-reinforced ceramic matrix composites. Composite Structures, 2016, 140: 534-539.
[4]Yong Deng, Weiguo Li*, et al., Temperature dependent first matrix cracking stress model for the unidirectional fiber reinforced ceramic composites. Journal of the European Ceramic Society, 2017, 37:1305-1310. （陶瓷领域Top期刊）
[5]Yong Deng, Weiguo Li*, et al., A novel theoretical model to predict the temperature-dependent fracture strength of ceramic materials. Journal of the European Ceramic Society, 2017, 37:5071-5077.（陶瓷领域Top期刊）
[6]Yong Deng, Weiguo Li*, et al., Modeling the effect of temperature on first matrix cracking stressand fracture strength of cross-ply fiber reinforced ceramic-matrix composites. Journal of the European Ceramic Society, 2019, 39: 5204-5212.（陶瓷领域Top期刊）
[7]Yong Deng, Weiguo Li*, et al., Temperature-dependent tensile strength model for 2D woven fiber reinforced ceramic matrix composites. Journal of the American Ceramic Society, 2018,101:5157-5165.（陶瓷领域Top期刊）
[8]Yong Deng, Weiguo Li*, et al., Characterization model of thermal shock resistance for fiber reinforced brittle matrix composites over a wide range of cooling environment temperatures. Ceramics International, 2018, 44: 5518-5523.（陶瓷领域Top期刊）
[9]Yong Deng, Weiguo Li*, et al., Modeling on temperature-dependent first matrix cracking stress for fiber reinforced ceramics considering fiber debonding and residual thermal stress. Ceramics International, 2018,44: 21666-21674.（陶瓷领域Top期刊）
[10]Yong Deng, Weiguo Li*, et al., Modeling the temperature-dependent non-steady state first matrix cracking stress for fiber ceramic matrix composites. Journal of Alloys and Compounds, 2018, 740: 987-996.
[11]李卫国，邓勇，麻建坐，徐念东，寇海波等， 一种用于陶瓷材料升/降温热冲击试验装置及测试方法，公开号： CN A(已授权)；
[12] Xianhe Zhang, Weiguo Li*, Yong Deng, et al., Strength criterion and temperature dependent strength model of metallic glasses, International Journal of Solids and Structures,163:242-251, 2019.
[13] Jiaxing Shao, Weiguo Li*, Yong Deng, et al., Theoretical models and influencing factor analysis for the temperature-dependent tensile strength of ceramic fibers and their unidirectional composites. Composite Structures, 164, 23-31, 2017.
[14] Xuyao Zhang, Weiguo Li*, Yong Deng, et al., Theoretical analytical model of vacancy formation energy with simultaneous dependence on surface orientation, temperature and material size. Journal of Physics D: Applied Physics, 51(7): 075308, 2018.
[15] Ying Li, Weiguo Li*, Yong Deng, et al., Temperature-dependent longitudinal tensile strength model for short fiber reinforced polymer composites considering fiber orientation and fiber length distribution, Journal of Materials Science, 53, 12190-12202, 2018.
[16] Xin Zhang, Weiguo Li*, Yong Deng, et al., Theoretical prediction of temperature-dependent fracture strength for ultra-high temperature ceramic composites considering the evolution of damage and thermal residual stress. Ceramics International,44 (2018) 22656–22663.
[17] Xin Zhang, Weiguo Li*, Yong Deng, et al., Modeling the temperature dependent ultimate tensile strength for unidirectional ceramic-fiber reinforced ceramic composites considering the load carrying capacity of broken fibers. Ceramics International, accepted, 2019.
[18] Xuyao Zhang, Weiguo Li*, Yong Deng, et al., Temperature dependent Raman frequency model for monoatomic crystals. Materials Research Express, 6(1):015904, 2018.
[19] Ying Li, Weiguo Li*, Yong Deng, et al., Theoretical model for the tensile strength of polymer materials considering the effects of temperature and particle content. Materials Research Express, 6(1):015315, 2018.



社会兼职 Social Appointments
中国力学学会高级会员
中国复合材料学会会员