戴宏亮，教授、博士生导师，教育部新世纪人才，岳麓学者，国家重点研发计划首席科学家，国家精品课程负责人

E-mail:hldai520@sina.com,hldai@hnu.edu.cn

2015.12-2024.9，湖南大学机械与运载工程学院，副院长；

2005.6-至今，湖南大学机械与运载工程学院，讲师、副教授、教授；

2013.12-2014.12，加拿大Simon Fraser University，访问学者；

2012.10-至今，特种装备先进设计技术与仿真教育部重点实验室，副主任；2010.1-至今，湖南大学工程结构优化与可靠性研究所，所长；

2006.3-2008.5，湖南大学力学博士后流动站，博士后研究；

2005.6毕业于上海交通大学固体力学专业，获工学博士学位；

2002.6毕业于安徽理工大学采矿工程专业，获工学硕士学位；

1999.6毕业于淮南工业学院采矿工程专业，获工学学士学位；

[1]多场耦合下功能梯度压电对称结构的动态特性研究(20060390260)，中国博士后基金，2006.9-2008.8；

[2]多场下功能梯度压电圆筒的动态特性研究(06FJ4250)，湖南省博士后基金，2007.1-2007.12；

[3]GMT板成型的可行性分析及工艺流程与结构装置的参数设计，湖南亚太实业有限公司，2010.1-2011.12；

[4]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)，国家自然科学基金，2011.1-2013.12；

[5]冲击荷载下高强度低合金钢板的破坏机理研究(51075003)，汽车车身先进设计与制造国家重点实验室，2011.1-2013.12

[6]水声与艇内振源相关性研究，海军工程大学，2011.3-2011.12；

[7]高效高精度汽车零部件模具设计及制造工艺研究与应用(2012CG0114)，湖南省科技厅，2012.1-2013.12；

[8]车用GMT片材生产工艺流程的设计及优化(K1203012-11)，长沙市科技局，2012.4-2014.3；

[9]近场水声传播理论研究，海军工程大学，2012.7-2013.1；

[10]汽车高强度钢板模具精密冲压成形理论及实验研究(2012KLMT01)，汽车零部件制造及检测技术教育部重点实验室，2013.1-2013.12；

[11]热塑性聚合梯度材料及其结构的热黏弹性行为(11372105)，国家自然科学基金，2014.1-2017.12；

[12]建筑垃圾造路用再生混凝土关键技术研究(URRT2013001)，城市资源循环利用工程技术研究中心，2013.10-2015.10；

[13]模具冲压下先进高强度钢板的力学性能分析与疲劳寿命研究(NCET-13-0184)， 新世纪优秀人才支持计划，2014.1-2016.12；

[14]含缺陷玻纤增强复合粘接结构的无损检测方法研究(71475004)，汽车车身先进设计与制造国家重点实验室，2014.12-2017.10；

[15]巫山大宁河特大桥和明月峡长江桥导风栏杆抗风数值模拟计算分析，成都亚佳工程新技术开发有限公司，2016.11-2017.2；

[16]含界面缺陷CFRR-金属胶接结构湿热老化失效的宏微观机理研究(2017JJ2044)，湖南省自然科学基金，2017.1-2019.12。

[17]耐严寒防沙尘球型钢支座防风沙性能试验研究，成都亚佳工程新技术开发有限公司，2017.6-2017.12。

[18]陶瓷基复合材料界面与表面微结构设计与调控，装备预研重点实验室项目，2017.7-2019.6。

[19]透明材料大潜深结构安全性评估方法研究(702SKL201705)，深海载人装备国家重点实验项目，2017.7-2019.6。

[20]碳纳米管增强电致聚合材料设计及实验研制，长沙市科技计划，2017.1-2019.12。

[21]半热冲压材料本构模型及其成形机理研究，宝山钢铁股份有限公司，2017.9-2019.12。

[22]热成型三维五轴激光切割机动态精度提升研发，大族激光智能装备集团，2017.12-2018.5

[23]耐候缓蚀一体化防护材料关键技术研究(长财企指[2018]23号)，湖南省军民融合产业发展专项，2018.1-2019.12

[24]高效智能环保散料储运成套系统关键技术研发及产业化，湖南省创新创业技术投资项目，2018.1-2019.10，首席专家；

[25]气悬浮板激光切割极片高效除尘技术开发，深圳吉阳智能科技有限公司，2018.4-2018.7；

[26]YH1604裸态贮存加速模型研究，湖南云箭集团有限公司，2008.1-2018.8

[27]箱梁桥及钢桁梁桥导风栏杆参数系列化抗风数值模拟计算分析，成都亚佳工程新技术开发有限公司，2018.4-2018.9；

[28]减速机项目投资可行性研究，广州市金柏利发展有限公司，2018.6-2018.10；

[29]2018年度长沙市工业科技特派员项目，长沙市科技局，2018.7-2019.6；

[30]军机服役周期内CFRP高速冲击性能随湿热循环周期演化研究，“十三五”装备预研共用技术和领域基金，2018.11-2020.10；

[31]汽车车身粘弹性材料的振动声学性能研究(71865009)，汽车车身先进设计与制造国家重点实验室，2018.12-2021.10；

[32]2019年度重大研究项目培育计划，湖南大学，2019.1-2021.12；

[33]振动能量在车身典型结构件中的传播规律研究(NVHSKL-201903)，汽车噪声振动和安全技术国家重点实验室开放基金，2019.1-2019.12；

[34]整车驾驶室NVH改善提升研究，湖南行必达网联科技有限公司（三一重卡），2019.3-2019.8；

[35]高校对福特领界SUV汽车性能测评，湖南甲方乙方数字技术营销股份有限公司，2019.4-2019.7；

[36]高性能仿真计算平台支持及加热不燃烧卷烟制品流场分析，湖南中烟工业有限责任公司，2019.6-2020.12；

[37]加热不燃烧卷烟配套烟支及电子烟流场分布实验验证，湖南中烟工业有限责任公司，2019.7-2020.12；

[38]铝模板体系创新研发项目，晟通科技集团有限公司，2019.8-2020.3

[39]高温紧固密封可靠性研究(SKLER-201910)，内燃机可靠性国家重点实验室，2019.9-2021.8；

[40]梯级智能成型工艺研发，湖南晓光智能成型制造有限公司，2020.5-2021.5；

[41]智能检测设备的研发，湖南中大检测技术集团有限公司，2020.6-2022.5；

[42]电子烟雾化机理研究及应用--电子烟雾化芯附近温度场及流场分布测量，湖南中烟工业有限责任公司，2020.9-2021.8；

[43]某款新型减速机研发，万鑫精工(湖南)股份有限公司，2020.10-2020.11；

[44]单向轴承温度场分布仿真分析及优化，索恩格汽车部件(中国)有限公司，2020.10-2021.2；

[45]单向轴承强度寿命仿真分析及优化，索恩格汽车部件(中国)有限公司，2020.10-2021.2；

[46]某款RV减速机研发，万鑫精工(湖南)股份有限公司，2020.11-2020.12；

[47]一种检测桥梁支座防风沙性能的实验装置，湖南中大检测技术集团有限公司，2020.11-2025.11；

[48]基于人工智能的新能源汽车事故数据特征识别及预警方法研究，中国汽车工程研究院股份有限公司，2021.1-2021.12；

[49]车载泵动力舱热管理和降噪技术研究，三一汽车制造有限公司，2021.5-2022.5；

[50]轨道轮压、龙门架应力应变测试，泰富重工制造有限公司，2021.8-2021.9；

[51]加热器具温度场设计对烟气释放稳定性影响研究，湖南中烟工业有限责任公司，2021.9-2023.6；

[52]湿热循环后CFRP动态损伤本构关系及抗高速冲击性能的实验研究，湖南省自然科学基金，2022.1-2023.12；

[53]超高强钢的梯级成型关键技术及产业化，湖南省科技创新计划项目，2022.1-2024.12；

[54]超高强度钢梯级热冲压下的力学行为研究，汽车车身先进设计与制造国家重点实验室自由探索课题，2022.1-2024.12；

[55]水质监测传感器的研发，中大检测(湖南)股份有限公司，2022.1-2022.10；

[56]柔性化自动生产线智能制造系统研发，湖南晓光科技有限公司，2022.3-2023.3；

[57]动强度建模与试验测试研究，湖南云箭集团，2022.2-2023.7；

[58]气流场和温度场设计对加热卷烟气溶胶释放的影响研究，湖南中烟工业有限责任公司，2022.5-2023.12；

[59]多功能立杆机二代机的安全性、稳定性分析，长沙亨特科技有限公司，2022.11-2023.10；

[60]低成本XXX轻量化设计技术，“十四五”GF基础科研计划项目，2023.1-2025.12；

[61]多行星耦合体系无级液压传动效率提升装备研制应用，湖南省智能农机装备创新研发项目，2023.7-2024.12；

[62]超高速离心机(2023YFF0714500)，国家重点研发计划，2023.11-2026.10；

[63]加热卷烟可视化辅助研发系统开发，湖南中烟工业有限责任公司，2024.1-2026.12；

[64]2023年度重大研究项目培育计划，湖南大学，2024.1-2026.12；

[65]光学镜头湿热应力量化设计技术研究，华为技术有限公司，2024.5-2025.1；

[66]履带自走式旋耕机的优化设计及可靠性研究，湖南省农友机械集团有限公司，2024.8-2025.7；

科研著作：

[1]叶南海,戴宏亮编.《计算机辅助设计基础与应用》，国防工业出版社，2012.8

[2]韩旭,戴宏亮,陈伟球编.《Proceedings of the 2013 Symposium on Piezoelectricity, Acoustic Waves and Device Applications》，IEEE，2013.12.

[3]戴宏亮,胡绚,夏平.《材料力学》,湖南大学出版社, 2014.3

[4]戴宏亮编著.《弹塑性动力学》,湖南大学出版社, 2014.8

[5]戴宏亮编.《材料力学习题解答》,湖南大学出版社, 2015.8

[6]戴宏亮编著.《弹塑性力学》,湖南大学出版社, 2016.4

[7]叶南海,戴宏亮编.《机械可靠性设计与MATLAB算法》，机械工业出版社，2018.8

[8]戴宏亮，周加喜编.《工程有限元及数值计算》，华中科技大学出版社，2019.6

[9]戴宏亮.《结构的弹塑性稳定理论》，科学出版社，2022.6

发表论文：

[1]蒋豪杰,戴宏亮*,李树志. Refined plate theory for bending analysis of a HSLA steel plate under 3D temperature field, Applied Mathematics and Computation, 2015, 250, 497-513.

[2]戴宏亮*,蒋豪杰. Magnetothermoelastic bending analysis of a functionally graded material cylindrical shell, Mechanics of Advanced Materials and Structures, 2015, 22(4), 281-289.

[3]蒋豪杰,戴宏亮*. Effect of laser processing on three dimensional thermodynamic analysis for HSLA rectangular steel plates, International Journal of Heat and Mass Transfer, 2015, 82, 98-108.

[4]戴宏亮*,戴婷,齐丽丽. Thermoviscoelastic response for a thin narrow composite strip with transverse matrix cracking, Journal of Thermal Stresses, 2015, 38(2), 188-209.

[5]戴宏亮*,齐丽丽,刘海波. Thermoviscoelastic dynamic response for a composite material thin narrow strip, Journal of Mechanical Science and Technology, 2015, 29(2), 625-636.

[6]蒋豪杰,戴宏亮*,朱凯,傅衣铭. Thermoelastoplastic behavior of a HSLA steel plate subjected to low-velocity impact, International Journal of Structural Stability and Dynamics, 2015, 15(3), 1450056.

[7]戴宏亮*,颜湘,戴婷. Dynamic response analysis of a HSLA steel circular plate subjected to mechanical load in thermal environments, International Journal of Mechanics and Materials in Design, 2015, 11(2), 221-230.

[8]戴宏亮*,罗伟峰,刘海波. Thermoviscoelastic dynamic behavior of a double-layered hollow cylinder under thermal shocking, Journal of Thermal Stresses, 2015, 38(8), 934-958.

[9]蒋豪杰,戴宏亮*. Analytical solutions for three-dimensional steady and transient heat conduction problems of a double-layer plate with a local heat source, International Journal of Heat and Mass Transfer, 2015, 89, 652-666.

[10]戴宏亮*,戴婷,严湘. Thermoelastic analysis for rotating circular HSLA steel plates with variable thickness, Applied Mathematics and Computation, 2015, 268, 1095-1109.

[11]戴宏亮*,戴婷,程思凯. Transient response analysis for a circular sandwich plate with an FGM central disk, Journal of Mechanics, 2015, 31(4), 417-426.

[12]胡绚,张强,戴宏亮.周向非均匀流动引起的转子动力学载荷分析.航空发动机, 2015, 41(3), 24-29.

[13]戴宏亮*,饶燕妮. A novel method for producing light GMT sheets by a pneumatic technique, Mechanics of Composite Materials, 2015, 51(4), 539-542.

[14]蒋豪杰,戴宏亮*. A novel model to predict U-bending springback and time-dependent springback for a HSLA steel plate, International Journal of Advanced Manufacturing Technology, 2015, 81(5-8), 1055-1066.

[15]戴婷,戴宏亮*. Investigation of mechanical behavior for a rotating FGM circular disk with a variable angular speed, Journal of Mechanical Science and Technology, 2015, 29(9), 3779-3787.

[16]蒋豪杰,戴宏亮*,高宁华. High-energy laser shock processing for a rectangular HSLA steel plate considering solid-liquid-vapor phase change. Applied Thermal Engineering, 2016, 93, 384-396.

[17]戴宏亮*,戚一男,罗伟峰. Investigation on electrothermoelastic behavior of FGPM cylindrical shells. International Journal of Nonlinear Sciences and Numerical Simulation, 2016, 17(1), 55-64.

[18]陶昶,傅衣铭,戴宏亮. Nonlinear dynamic analysis of fiber metal laminated beams subjected to moving loads in thermal environment. Composite Structures, 2016, 140, 410-416.

[19]戴宏亮*,饶燕妮,戴婷. A review of recent researches on FGM cylindrical structures under coupled physical interactions, 2000-2015. Composite Structures, 2016, 152, 199-225.

[20]戴宏亮*,罗伟峰,戴婷. Multi-field coupling static bending of a finite length inhomogeneous double-layered structure with inner hollow cylinder and outer shell. Applied Mathematical Modelling, 2016, 40 (11-12), 6006-6025.

[21]戴宏亮*,梅超,饶燕妮. 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), 43708 (1-8).

[22]戴宏亮*,刘海波,郑振球. Investigation on thermomechanical behavior of a HSLA-stiffened rectangular plate under low-velocity impact, Journal of Thermal Stresses, 2016, 39(7), 795-819.

[23]蒋豪杰,王效贵*,梁利华,戴宏亮. Three-dimensional steady thermodynamic analysis for a double-layer plate with a local heat source and harmonic load. Applied Thermal Engineering, 2016, 106, 161-173.

[24]戴婷,戴宏亮*. Hygrothermal behavior of a CFRR-metal adhesively bonded joint with coupled transfer of heat and mositure through the thickness. Composite Structures, 2016, 152, 947-958.

[25]戴婷,戴宏亮*. Thermo-elastic analysis of a functionally graded rotating hollow circular disk with variable thickness and angular speed. Applied Mathematical Modelling, 2016, 40 (17-18), 7689-7707.

[26]戴宏亮*,蒋豪杰. Nonlinear dynamic analysis for a rectangular HSLA steel plate subjected to low velocity impact, Journal of Vibration and Control, 2016, 22(19), 4062-4073.

[27]戴宏亮*,郑振球,刘海波,徐伟力,罗爱辉. Thermoviscoelastic dynamic response for a rectangular steel plate under laser processing, International Journal of Heat and Mass Transfer, 2017, 105, 24-33.

[28]蒋豪杰,梁利华*, Li Ma, Jing Guo,戴宏亮,王效贵*.An analytical solution of three-dimensional steady thermodynamic analysis for a piezoelectric laminated plate using refined plate theory. Composite Structures, 2017, 162, 194-209.

[29]戴宏亮*,罗伟峰,戴婷. Exact solution of thermoelectroelastic behaviour of a fluid-filled FGPM cylindrical thin-shell. Composite Structures, 2017, 162, 411-423.

[30]戴婷,戴宏亮*. Analysis of a rotating FGMEE circular disk with variable thickness under thermal environment. Applied Mathematical Modelling, 2017, 45, 900-924.

[31]戴宏亮*郑振球,戴婷. Investigation on a rotating FGPM circular disk under a coupled hygrothermal field. Applied Mathematical Modelling, 2017, 46, 28-47.

[32]戴宏亮*梅超,饶燕妮. 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.

[33]饶燕妮,戴宏亮*. Micromechanics-based thermo-viscoelastic properties prediction of fiber reinforced polymers with graded interphases and slightly weakened interfaces. Composite Structures, 2017, 168, 440-455.

[34]戴宏亮*,蒋豪杰,戴婷,徐伟力,罗爱辉. Investigation on the influence of damage to springback of U-shape HSLA steel plates, Journal of Alloys and Compounds, 2017, 708, 575-586.

[35]饶燕妮,戴宏亮*,戴婷,杨阳. Linkages among fiber content, porosity and local aggregation in fiber-reinforced composites, and their effect on effective properties, Journal of Materials Science, 2017, 52(20), 12486-12505.

[36]戴宏亮*,戴婷,罗伟峰. Thermoviscoelastic behavior of a short fiber-reinforced polymer hollow cylinder accounting for porosity, Journal of Composite Materials, 2017, 51(19), 2779-2791.

[37]戴宏亮*,黄郑维,梅超,林中燕. Prediction of the tensile strength of hybird polymer composites filled with spherical particles and short fibers. Composite Structures, 2018, 187, 509-517.

[38]戴婷,杨阳,戴宏亮* ,胡震. Interfacial stress analysis of a CFRR-metal adhesively bonded joint with/without defect under hygrothermal environment. Applied Mathematical Modelling, 2019, 67, 357-377.

[39]戴婷,戴宏亮*,林中燕. Multi-field mechanical behavior of a rotating porous FGMEE circular disk with variable thickness under hygrothermal enviroment. Composite Structures, 2019, 210, 641-656.

[40]戴婷,杨阳,戴宏亮*,唐洪,林中燕. Hygrothermal mechanical behaviors of a porous FG-GRC annular plate with variable thickness considering aggregation of CNTs. Composite Structures, 2019, 215, 198-213.

[41]彭凡,谢双双,戴宏亮*.黏弹性接触界面端附近的奇异应力场.力学学报, 2019, 51(2), 494-502.

[42]戴婷,戴宏亮*,李军剑,贺其.含孔隙变厚度FG圆板的湿热力学响应.力学学报, 2019, 51(2), 512-523.

[43]杨阳,庞剑,戴宏亮,徐晓敏,李兴泉,梅超.Prediction of the tensile strength of polymer composites filled with aligned short fibers. Journal of Reinforced Plastics and Composites, 2019, 38(14), 658-668.

[44]杨阳,戴宏亮,叶超.Investigation of the one-dimensional transient heat conduction problem of a coated high strength steel plate. Mathematics and Mechanics of Solids, 2019, 24(11), 3472-3484.

[45]贺其,庞剑,戴宏亮,徐晓敏,李兴泉.Thermo-electro-elastic behaviour of a carbon nanotubes bundles-reinforced electro-active polymer hollow cylinder considering hierarchical structure of the bundles. Journal of Reinforced Plastics and Composites, 2019, 38(23-24), 1089-1107.

[46]唐洪,杜奕,戴宏亮. Rolling element bearing diagnosis based on probability box theory. Applied Mathematical Modelling, 2020, 80, 944-960.

[47]唐洪,戴宏亮,杜奕. Tapered roller bearing failure diagnosis based on improved probability box model, IEEE Access, 2020, 8, 151452-151464.

[48]唐洪,袁振兴,戴宏亮,杜奕. Fault diagnosis of rolling bearing based on probability box theory and GA-SVM, IEEE Access, 2020, 8, 170872-170882.

[49]贺其,戴宏亮,程冲冲,张章. Investigation on dynamic hygro-thermo-elastic response of cylindrical shells with a porous microcapsule coating. Composite Structures, 2020, 243,112146.

[50]贺其,戴宏亮,桂秦峰,李军剑. Analysis of vibration characteristics of joined cylindrical-spherical shells. Engineering Structures, 2020, 218, 110767,1-14.

[51]余海军,戴宏亮,田广东,谢英豪,吴奔奔,祝莹,李红浪,吴寒. Big-data-based power battery recycling for new energy vehicles: information sharing platform and intelligent transportation optimization, IEEE Access, 2020, 8, 99605-99623.

[52]唐洪,戴宏亮,廖夏. Geometrically nonlinear analysis of CFRP laminates subjected uniform load in hygrothermal effect. Composite Structures, 2020, 251, 112644.

[53]黄郑维,桂秦峰,戴宏亮. Investigation on microscale hygrothermal behavior of carbon nanotube-reinforced polymer composite, Polymer Composites, 2020, 41, 3421-3433.

[54]戚一男,戴宏亮,邓绍廷. Thermoelastic analysis of stiffened sandwich doubly curved plate with FGM core under low velocity impact. Composite Structures, 2020, 253, 112826.

[55]余海军,戴宏亮,田广东,吴奔奔,谢英豪,祝莹,张铜柱, Amir Mohammad Fathollahi-Fard,贺其,唐洪. Key technology and application analysis of quick coding for recovery of retired energy vehicle battery, Renewable and Sustainable Energy Reviews, 2021, 135, 110129.

[56]唐洪,戴宏亮,吴寒. An effect of hygrothermal effects on high velocity impact event for polymer matrix composites. Applied Mathematical Modelling, 2021, 91, 653-669.

[57]余海军,戴宏亮,祝莹,户华文,赵瑞瑞,吴奔奔,张铜柱. Mechanistic insights into the lattice reconfiguration of the anode graphite recycled from spent high-power lithium-ion batteries. Journal of Power Sources, 2021, 481, 229159.

[58]饶燕妮,贺其,戴宏亮. A micromechanical model for effective hygro-thermo-elastic properties of fiber reinforced composites with functionally graded interphases. Applied Mathematical Modelling, 2021, 92, 78-98.

[59]邓劭廷,庞剑,张章,杨亮,李兴泉,戴宏亮. Investigation on characteristics of energy transfer of flexural vibration in a Y-shaped bifurcated beam imposed lumped mass. Applied Mathematical Modelling, 2021, 92, 486-504.

[60]黄国龙,邓劭廷,滕帅,赵振龙,邓勤,戴宏亮Investigation on compression-springback behavior of metal semi-cylindrical shell in thermal environment. Thin-Walled Structures, 2021, 160, 107399.

[61]唐洪,戴宏亮. Nonlinear vibration behavior of CNTRC plate with different distribution of CNTs under hygrothermal effects. Aerospace Science and Technology, 2021, 115, 106767.

[62]唐洪,戴宏亮. Dynamic instability zone analysis of laminated piezoelectric cylindrical shell with delamination under hygrothermal effects. Applied Mathematical Modelling, 2021, 99, 27-40.

[63]唐洪,戴宏亮. Nonlinear vibration analysis of CFRP spherical shell panel under hygrothermal effects. Composite Structures, 2021, 274, 114343.

[64]唐洪,戴宏亮,李子豪，杜奕. A rolling bearing signal model based on a correlation probability box. Measurement, 2021, 182, 109652.

[65]贺其,戴宏亮,张章,唐洪. Hygro-thermo-elastic behaviour for stiffened metal doubly-curved shallow shells with porous microcapsule coating under low-velocity impact considering in-plane initial load. Composite Structures, 2022, 284, 115213.

[66]黄郑维,戴宏亮,韦雨成,孙志伟. Unsteady heat transfer in a multilayer composite cylinder containing porous media. Applied Thermal Engineering, 2022, 211, 118425.

[67]抄佩佩,张芮源,王袆嵽,唐洪,戴宏亮. Warning model of new energy vehicle under improving time-to-rollover with neural network. Measurement and Control, 2022, 55(9-10), 1004-1015.

[68]张芮源,戴宏亮,王袆嵽. Vibratory compaction response based on the contact model of roller-subgrade system. Construction and Building Materials, 2022, 351, 128798.

[69]王志坚,黄郑维,陆健,李正现,戴宏亮. Investigation on hygro-thermo-mechanical behavior of a UHSS gasket under radial mechanical loads. Mechanics of Advanced Materials and Structures, 2022, 29(20), 2999-3009.

[70]唐洪,戴宏亮,杜奕. Bearing fault detection for doubly fed induction generator based on stator current. IEEE Transactions on Industrial Electronics, 2022, 69(5), 5267-5276.

[71]李志健¸戴宏亮,徐建,黄郑维. A semi-analytical approach for analysis of thermal behaviors coupling heat loss in powder bed fusion. International Journal of Heat and Mass Transfer, 2023, 201, 123621

[72]李志健¸肖知恒,章海亮,戴宏亮,罗伟峰,黄郑维. 3D numerical modeling for thermos-mechanical behavior of additively manufactured titanium alloy parts with process-induced defects. International Journal of Heat and Mass Transfer, 2023, 209, 124112

[73]李志健,戴宏亮,徐建,黄郑维. Thermo-metallurgical-mechanical modeling of FG titanium-matrix composites in powder bed fusion. International Journal of Mechanical Sciences, 2023, 258, 108586.

[74]李志健,肖鹏,戴宏亮,罗伟峰,杜冲,童志峰. Thermo-mechanical analysis of functionally graded nickel/titanium alloys under different parameters of directed energy deposition. Thin-Walled Structures, 2023, 193, 111235.

[75]李志健¸戴宏亮,姚远,刘劲麟. A semi-analytical model for rapid prediction of residual stress and deformation in laser powder bed fusion. Applied Mathematical Modelling, 2024, 125, 672-686.

[76]李志健¸戴宏亮,姚远,刘劲麟. Energy-based performance prediction for metals in powder bed fusion. International Journal of Mechanical Sciences, 2024, 265, 108887.

[77]李志健¸黄郑维,戴宏亮,姚远,李郁松. Hygrothermal coupled modeling and behavior analysis of natural fiber-reinforced tubular composites. Construction and Building Materials, 2024, 411, 134384.

[78]黄郑维,李志健¸戴宏亮,彭晟,韦雨城,孙志伟. Unsteady heat transfer in porous fiber composite cylinders with compressible fluid. International Journal of Heat and Mass Transfer, 2024, 221, 125092.

[79]徐建,李志健¸戴宏亮. Thermal behavior analysis of UHSS rectangular plates via gradient thermoforming process under coupled heat conduction and radiation. Thermal Science and Engineering Progress, 2024, 47, 102331.

[80]李志健¸戴宏亮,杜冲,肖鹏,姚远. Energy-based efficient residual stress prediction of titanium alloys with lack-of-fusion porosity in powder bed fusion. Thin-Walled Structures, 2024, 196, 111513.

[81]肖知恒,张芮源,戴宏亮. Dynamic characteristics analysis of variable cross-section beam under thermal vibration environment. Structures, 61, 105941.

[82]肖鹏,戴宏亮,李志健,余艺平,王松. Composition, microstructure, and mechanical properties evolution behavior of Ta/TahfC2laminated composite between 1873-2673K. International Journal of Refractory Metals and Hard Materials, 2024,121, 106642.

[83]李志健¸戴宏亮,姚远,罗伟峰,肖鹏.Thermo-mechanical modeling of lattice-core sandwich panels in powder bed fusion. International Journal of Mechanical Science, 2024, 273, 109243.

[84]李志健¸张婷霞,戴宏亮,姚远,谢佩亨. Thermal-based efficient modeling for mechanical properties of thermoplastic polymers in material extrusion. International Journal of Heat and Mass Transfer, 2024, 226, 125526.

[85]李志健¸戴宏亮,姚远,李郁松,肖鹏,罗伟峰. Semi-analytical modeling of thermos-metallurgical-induced wave propagation for titanium alloy parts in laser powder bed fusion. Mechanical Systems and Signal Processing, 2024, 215, 111425.

[86]李志健¸戴宏亮,贺子豪,肖鹏. Efficient mechanical modeling of sandwich panels with functionally graded lattice cores under thermal environments. Thin-Walled Structures, 2024, 200, 111935.