教科研成果
1、研究项目
科研项目:
(1) 科技部/国际科技合作交流项目,汽车动力电池反复冲击下失效机理及预测研究,2021.04至2023.12,在研,排名:1/7
(2) 科技部/国际科技合作交流项目,汽车动力电池组失效机理及防爆关键技术研究,2020.01至2022.12,在研,排名:1/7
(3) 国家自然科学基金,51305215,基于简单缺口件等效的发动机关键零件疲劳极限预测方法研究,2014.01至2016.12, 已结题,排名:1/6
(4) 浙江省自然科学基金,LY20A020004,堆积状态下锂离子电池碰撞多场耦合模拟及失效机理研究,2020.01至2022.12,在研,排名:1/6
(5) 浙江省科技计划项目,2003R40026,基于机器视觉技术的汽车油封件质量控制智能检测系统研究及应用,2014-01至2015-12,已结题,排名:1/7
(6) 浙江省公益性技术应用研究计划项目,2014C31004,自密封安全轮胎制造工艺及其关键设备研究,2014.01至2015.12,已结题,排名:1/6
(7) 浙江省自然科学基金,LQ15E080004,城市动态路网交通流累积能耗机理及管控方法研究,2015.01至2017.12,已结题,排名:2/4
(8) 浙江省自然科学基金,Q14E050006,高温复杂加载条件下应变强化用奥氏体不锈钢疲劳行为和寿命预测,2015.01至2017.12,5万元,已结题,排名:2/4
(9) 宁波市自然科学基金,2018A610044,发动机排气歧管疲劳特性及疲劳寿命预测研究,2018.01至2019.12, 已结题,排名:1/6
(10) 宁波市自然科学基金,2011A610133,发动机关键零部件疲劳极限载荷预测方法研究,2011.01至2013.06,已结题,排名:1/6
(11) 吉利汽车研究院,电池包碰撞安全评价标准研究试验项目,2020.10至2021.08,已结题,1/6
教研项目:
(1)教育部实验教学和教学实验室建设研究项目:数字化视域下现代产业学院“双元制”实验教学体系研究,2024.01-2024.12,在研,排名:1/7
(2)宁波市“一带一路”国家职业教育合作发展重点项目:“一带一路”汽车产业校企双主体人才培养项目,2020.01-2022.12,在研,排名:1/5
(3)浙江省高等教育教学改革项目:区域汽车产业人才培养教育联盟组建的研究与实践(jg2013188),2013.09-2015.12,已结题,排名:1/5
(4)全国教育信息技术研究“十二五”规划专项课题:基于MBO与PDCA的高校学生实习过程动态信息管理系统的研究(136231144),2013.01-2014.12, 已结题,排名:1/5
(5)浙江省教育科学规划课题:汽车服务工程专业定位及人才培养模式的探讨与实践(SCG414),2010.05-2011.05, 已结题,排名:1/5
(6)浙江省高教学会教研项目,基于“大工程观”教育理念的车辆工程专业理论与实践教学体系改革,KT2014078,2014.06-2017.06, 已结题,排名:2/5
(7)浙江省教科规划(重点)项目,“大工程观”背景下基于上海大众车型的实践教学体系改革,2015SB092,2015.01-2017.04, 已结题, 排名:2/5
2、研究成果
第一作者或通讯作者论文:
(1)Investigation of the mechanical response and modeling of prismatic lithium-ion batteries upon abusive loading. Journal of Energy Storage 2024, 104.
(2)A new data-driven diagnostic technique for in-situ capacity prediction of lithium-ion batteries. Journal of Energy Storage 2024, 76.
(3)Synergistic Effect of Dual Phases to Improve Lithium Storage Properties of Nb2O5. Acs Applied Materials & Interfaces 2024, 16 (6), 7232-7242.
(4)A mechanism computational model of internal short circuit behaviors for lithium-ion batteries upon mechanical abusive loading. Journal of Energy Storage 2024, 82.
(5)Comprehensive study of high-temperature calendar aging on cylinder Li-ion battery. Chemical Engineering Science 2024, 298.
(6)In Situ Atomic Force Microscopy and X-ray Computed Tomography Characterization of All-Solid-State Lithium Batteries: Both Local and Overall. Energy Technology 2023, 11 (4).
(7)Understanding the effect of different rehydration water temperatures on a novel vacuum sublimation-rehydration thawing method. Lwt-Food Science and Technology 2023, 174.
(8)Research on Mechanical Simulation Model and Working Safety Boundary of Large-Capacity Prismatic Lithium-Ion Battery Based on Experiment. Journal of Electrochemical Energy Conversion and Storage 2022, 19 (3).
(9)Metal-polydopamine derived N-doped carbon nanorod wrapping Ni and Mo2C nanoparticles for efficient hydrogen evolution reaction. Materials Letters 2022, 307.
(10)A robust ultrasonic characterization methodology for lithium-ion batteries on frequency-domain damping analysis. Journal of Power Sources 2022, 547.
(11)Effects of Minor Mechanical Deformation on the Lifetime and Performance of Commercial 21700 lithium-Ion Battery. Journal of the Electrochemical Society 2022, 169 (6).
(12)Emcoating Architecture Construction via CO2/H2 Coupling Treatment Doubles Reversible Capacity of NbO2/C Anode. Chemsuschem 2022, 15 (8).
(13)Understanding the role of nitrogen and sulfur doping in promoting kinetics of oxygen reduction reaction and sodium ion battery performance of hollow spherical graphene. Carbon 2022, 187, 230-240.
(14)Investigation of the Mechanical Integrity of Prismatic Li-Ion Batteries Under Multi-Position Indentation. Journal of Electrochemical Energy Conversion and Storage 2021, 18 (2).
(15)Investigation of Mechanical Integrity of Prismatic Lithium-Ion Batteries With Various State of Charge. Journal of Electrochemical Energy Conversion and Storage 2021, 18 (3).
(16)Aging Mechanisms and Thermal Characteristics of Commercial 18650 Lithium-Ion Battery Induced by Minor Mechanical Deformation. Journal of Electrochemical Energy Conversion and Storage 2021, 18 (2).
(17)Coupled effects of charge-discharge cycles and rates on the mechanical behavior of electrodes in lithium-ion batteries. Journal of Energy Storage 2020, 30.
(18)Understanding the role of graphene intercalation layers on both sides of sandwich structured graphene@MoS<sub>2</sub>@porous graphene anode in promoting sodium storage performance and stability. Journal of Alloys and Compounds 2020, 845.
(19)Experimental study on the dynamic behavior of prismatic lithium-ion battery upon repeated impact. Engineering Failure Analysis 2020, 115.
(20)Dynamic behavior and modeling of prismatic lithium-ion battery. International Journal of Energy Research 2020, 44 (4)
(21)Dynamic mechanical behavior of prismatic lithium-ion battery upon impact. International Journal of Energy Research 2019, 43 (13)
(22)Statistical distribution of crankshaft fatigue: Experiment and modeling. Engineering Failure Analysis 2014, 42
(23)柴油机排气歧管热机疲劳失效仿真研究[J].内燃机工程,2020,41(03)
(24)基于临界平面法的发动机机体疲劳寿命预测研究[J].内燃机工程, 2015, 36(5)
(25)串联结构产品可靠性建模与统计分析[J].中国机械工程, 2015,26(12)
(26)应用型人才培养教育联盟合作评价体系构建研究[J]. 高等工程教育研究, 2015,5
(27)采用缺口件等效与渐进插值法预测构件疲劳极限[J]. 浙江大学学报(工学版), 2012,46(3)
(28)利用极大似然法测定曲轴弯曲疲劳性能曲线, 内燃机工程, 2010, 31(6)
发明专利:
(1)一种汽车后视镜疲劳强度可靠性测试设备, 2015-3-25, 中国, ZL201410069135.3
(2)一种汽车后视镜疲劳强度可靠性测试设备, 2015-5-11, 中国, ZL201410068753.6
(3)汽车后视镜疲劳强度可靠性测试设备, 2015-6-10, 中国, ZL201410069279.9
(4)一种汽车点烟器复位时间及拔出力测试装置, 2015-5-6, 中国, ZL201410027047.7
(5)一种汽车点烟器复位时间及拔出力测试装置, 2015-5-6, 中国, ZL201410027035.4
(6)一种膨胀水箱密封性检测设备及其检测方法, 2015-7-29, 中国, ZL201410423043.0
(7)一种膨胀水箱密封性检测设备及其检测方法, 2015-7-29, 中国, ZL201410424088.X
(8)一种膨胀水箱密封性检测设备及其检测方法, 2015-7-29, 中国, ZL201410423850.2