论文成果:
1. A new method for selecting and evaluating the hyperelastic model of tread rubber material under rolling contact condition [J]. 2024, INTERNATIONAL JOURNAL OF POLYMER ANALYSIS AND CHARACTERIZATION. DOI10.1080/1023666X.2023.2300904.
2.Effect of carbon black components on rolling mechanical properties of tread rubber material by using improved digital image correlation [J]. Polymer composites, 2023, DOI: 10.1002/pc.27467. (SCI, IF5.2)
3. A simplified dynamicmodel to reveal mechanical characteristic of load wheel and experimental validation [J]. Arabian Journal for Science and Engineering, 2023, https://doi.org/10.1007/s13369-023-07641-y. (SCI, IF 2.9)
4.Full-field contact dynamic mechanical properties of tread rubber material under rolling and slippery conditions based on digital image correlation [J]. 2023, MECHANICS OF ADVANCED MATERIALS AND STRUCTURES. DOI:10.1080/15376494.2023.2290225.
5. High-speed 3D digital image correlation for measuring tire rolling resistance coefficient [J]. Measurement, 2021, 171, 108830. https://doi.org/10.1016/j.measurement.2020.108830.(SCI, IF3.927)
6. Modeling and experimental study of tire deformation characteristics under high-speed rolling condition [J]. Polymer testing, 2021, 75. https: //doi.org / 10.1016 / j.polymer testing. 2021. 107052. (SCI, IF4.282)
7. High-speed 3D digital image correlation for rolling deformation of tire sidewall and measuring dynamic contact patch length [J]. Applied Optics, 2020, 59(5): 1313-1322.(SCI, IF1.980)(Editor’ Pick)
8. Digital image correlation to analyze slip state of tire tread block in the cornering condition [J]. Optik, 2019, 185: 571-584. (SCI, IF2.443)
9. Influence of tire damping to the tire-road vertical contact dynamics[C]// Rolling Contact Mechanics for Multibody System Dynamics (EUROMECH COLLOQUIUM 578), Funchal, Madeira, Portugal, April 10-13, 2017.
科研项目:
1. 基于数字图像相关的高速复合工况下滚动轮胎力学特性研究,吉林省自然科学基金(面上项目),2024,10万元;
2. 基于数字图像相关的杜仲胶负重轮滚动力学特性研究,校企联合课题,2022,23万元;
3. 乱序堆叠零件机器人视觉拾取技术的研究与开发,吉林省发改委项目,2020,30万元;
4. 一汽大众EBO波纹管总成关键技术研究,吉林省科技厅,2019,80万元;
5. 多自由度通用视觉智能检测装备的技术开发,校企联合课题,2017,25万元;
6. 轿车冲压件工业机器人视觉检测系统的研究,吉林省重点科技攻关项目,2017,60万元;
7. 锂电池薄膜同步双向拉伸自动生产技术及应用,吉林省发改委,2016,25万
8. 高铁座椅数字化设计研究,校企联合课题,2013,10万元;
9. 薄膜定型处理设备的研制,校企联合课题,2012,25万元;
10. 锂电池隔膜同步双向拉伸设备的研制,校企联合课题,2012,30万元;
获得专利:
1. 滚动轮胎胎面应变分布和动态滑移率测试装置及方法,中国,发明专利:ZL 2021 1 0724037.9;
2. 轮胎胎面橡胶材料接触印迹内全域变形在线测试装置及测试方法,中国,发明专利:201810950136.7;
3. 轮胎滚动阻力测试装置及其测量方法,中国,ZL 201810477139.3;
4. 一种液电耦合的汽车运动模拟平台装置和方法,中国,发明专利:ZL 201811324121.6;
5. 多功能轮胎道路检测装置及其测试方法,中国,发明专利:ZL 201510178345.0;
6. 轨迹方向可控的同步双向拉伸链夹机构,中国,发明专利:ZL 20150201880.3;
7. 链夹轨迹方向可控的同步双向拉伸机轨道机构,中国,发明专利:ZL 201410264999.0;
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