個人信息:
姓名:劉新田 職 稱:教授
專業:車輛工程 學曆層次:博士
辦公室地點:交通大樓8B503室 辦公電話:67791174
電子郵箱:xintianster@gmail.com
研究方向:汽車可靠性工程、疲勞壽命預估與評價、結構系統不确定性、智能汽車系統功能安全
主講課程:汽車設計、汽車理論、汽車可靠性工程
個人簡介:(教育背景、工作經曆)
1.教育經曆
2009/09-2016/03 上海理工大學,能源與動力工程學院,博士
2004/09-2007/03 上海交通大學,機械與動力工程學院,碩士
2000/09-2004/07 山東理工大學,交通與車輛工程學院,學士
2.工作經曆
2018/07-至今 BETVLCTOR伟德官方网站,BETVLCTOR伟德官方网站,副教授,教授
2007/03-2018/06 BETVLCTOR伟德官方网站,汽車工程學院,助教,講師,副教授
2016/02-2017/02 美國邁阿密大學,機械與航空工程系,高級研修學者
2011/01-2011/05 美國勞倫斯理工大學,機械工程系,訪問學者
主要科研成果:(代表性論文、專利、著作等)
1代表性論文(*為通訊作者)
[1] Yang Xizhou, Liu Xintian, Wang Yuhan. An improved fatigue life model for mechanical components considering load strengthening characteristics. Fatigue & Fracture of Engineering Materials & Structures, 2022, Online.
[2] Yang Genhua, Liu Xintian*, Lai Jiafeng, Wei Yuwei. An improvement prediction model of fatigue life for large crude oil storage tanks with temperature and surface roughness correction. Fatigue & Fracture of Engineering Materials & Structures, Accepted.
[3]Liu Xintian*, Liu Jiazhi, Ge Haiyan. An Improved Bootstrap Method for Predicting Fatigue Characteristic Parameters under Compound Probability Distribution. International Journal of Damage Mechanics, Major revisions.
[4]胡玉俠, 王海傑, 劉新田*. 基于低載強度退化的橫向穩定杆随機疲勞壽命預估. 機械強度, 錄用.
[5] Yang Genhua, Liu Xintian*, Lai Jiafeng, Wei Yuwei. Fatigue life prediction of gasoline storage tank considering varying current density and weld stress. Advances in Mechanical Engineering, 2022, 14(6):1-11.
[6] Zhang Yuru, Liu Xintian*, Geng Shuanglong. Reliability Analysis and Evaluation of Wheel Axle for High-Speed Train Considering Interference Fit. Journal of The Chinese Society of Mechanical Engineers, Accepted.
[7] Ma Muzhou, Liu Xintian*. Multiaxial fatigue life prediction for metal materials considering loading path and additional hardening effect. International Journal of Structural Integrity, 2022, 13(6): 534-563.
[8] Liu Xintian*, Liu Jiazhi, Wang Haijie, Yang Xiaobing. Prediction and evaluation of fatigue life considering material parameters distribution characteristic. International Journal of Structural Integrity, 2022, 13(2): 309-326.
[9] Liu Xintian*, Wu Que, Su Shengchao, Wang Yansong. Evalutation and prediction of material fatigue characteristics under Impact Loads: review and prospects. International Journal of Structural Integrity, 2022, 13(2): 251-277.
[10] 劉新田, 馬牧洲, 何佳龍. 基于模糊耦合的機床零件加工精度可靠性預測方法.吉林大學工學版, 2022, (2): 377-383.
[11] Jin Kai, Liu Xintian*, Liu Miao, Qian Kangfeng. Modified quality loss for the analysis of product quality characteristics considering maintenance cost. Quality Technology & Quantitative Management, 2022, 19(3): 341-361.
[12] Wang Shuci, Liu Xintian*, Huang Bixiong, Liao Haiyu. Fatigue life prediction of composite suspension considering residual stress and crack propagation. Proceedings of the IMechE, Part D: Journal of Automobile Engineering, 2022, Online.
[13] Qian Kangfeng, Liu Xintian*. Hybrid optimization strategy for lithium-ion battery's State of Charge/Health using Joint of dual Kalman filter and Modified Sine-cosine Algorithm. Journal of Energy Storage, 2021, (44): 103319.
[14] Liu Xintian*, Wang Haijie, Yang Xiaobing, Lai Jiafeng. Prediction and Evaluation of Fatigue Strength via Mechanical Behavior of Materials. Journal of The Chinese Society of Mechanical Engineers, Accepted.
[15] Wang Haijie, Liu Xintian*, Chen Tie and Xu Shen. Prediction and evaluation of fatigue life via modified energy method considering surface processing. International Journal of Damage Mechanics, 2022, 31(3): 426-443.
[16] Wenqian Shang, Xintian Liu*, Xu Wang and Xiaolan Wang. Path planning algorithm for fatigue life prediction of SiC/AL MMCs considering residual stress. Chinese Journal of Mechanical Engineering, Accepted.
[17] Liu Jiazhi, Liu Xintian*, Zhang Minghui, Wang Shuci. An improved fatigue life model for mechanical components considering load strengthening characteristics. Fatigue & Fracture of Engineering Materials & Structures, 2022, 45: 174-185.
[18] Qian Kangfeng, Liu Xintian*, Wang Yiquan, Yu Xueguang, Huang Bixiong. Modified Extended Kalman filtering for the SOC estimation of Lithium-Ion Battery via PSO-based Grey Wolf optimizer. Proceedings of the IMechE, Part D: Journal of Automobile Engineering, 2022, 236(8): 1761-1774.
[19] Wang Haijie, Xuan Fuzhen, Liu Xintian. Prediction and evaluation of fatigue life under random load based on low load strengthening characteristic. International Journal of Fatigue, 2021, 151: 106346.
[20] Zhu Mengyu, Liu Xintian*, Lai Jiafeng, Luo Jiao. Fatigue life analysis of pressure vessel based on residual strength and crack size. Transactions of the Canadian Society for Mechanical Engineering, 2022, 46(2): 189-197.
[21] Zhang Yuru, Liu Xintian*, Lai Jiafeng, Wei Yuwei, Luo Jiao. Corrosion fatigue life prediction of crude oil storage tank via improved equivalent initial flaw size. Theoretical and Applied Fracture Mechanics, 2021, 114: 103023.
[22] Wang Yuhan, Liu Xintian*, Wang Haijie, Wang Xu, Wang Xiaolan. Improved fatigue failure model for reliability analysis of mechanical parts inducing stress spectrum. Proceedings of the IMechE, Part O: Journal of Risk and Reliability, 235(6): 973-981.
[23] Yu Xueguang, Liu Xintian*, Wang Xu, Wang Xiaolan. Vibration control of improved LQG for wheel drive electric vehicle based on uncertain parameters. Proceedings of the IMechE, Part D: Journal of Automobile Engineering, 2021, 235 (2): 2253-2264.
[24] Zhang Minghui, Hu Guiqing, Liu Xintian*, Yang Xiaobing. An improvement strength degradation model for fatigue life prediction considering materials characteristics. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2021, 43(5): 275.
[25] Liu Xintian*, Yu Xueguang, Tong Jiachi, Wang Xu, Wang Xiaolan. Mixed uncertainty analysis for dynamic reliability of mechanical structures considering residual strength. Reliability Engineering and System Safety, 2021, 209: 107472.
[26] Ge Haiyan, Liu Xintian*, Wang Xu, Wang Xiaolan, Wang Haijie. Effect of fisheye failure on material performance inducing error circle under high cycles. International Journal of Damage Mechanics, 2021, 30(10): 1524-1541.
[27] Yu Xueguang, Liu Xintian*, Wang Xu, Wang Xiaolan. Based-restraining interval extension improved truncation algorithm for response analysis of uncertain mechanical system. Engineering Computations, 2021, 38(6): 2833-2849.
[28] Qu Yang, Liu Xintian*, Zhang Minghui, Wang Yansong, Liu Changhong. Analysis and evaluation of drop point for water jet based on wave model. Journal of Engineering Research, 2021, 9(1): 229-246.
[29] Zhang Yuru, Liu Xintian*, Yu Xueguang, Wang Xu, Wang Xiaolan. Reliability analysis of excavator boom considering mixed uncertain variables. Quality and Reliability Engineering International, 2021, 37(4): 1468-1483.
[30] Liu Xintian*, Wang Haijie, Wu Que, Wang Yansong. Uncertainty-based analysis of random load signal and fatigue life for mechanical structures. Archives of Computational Methods in Engineering, 2022, 29(3): 375-395.
[31] Liu Xintian*, Qu Yang, Yang Xiaobing, Shen Yongfeng. Load spectrum compiling and fatigue life estimation of the automobile wheel hub. Recent Patents on Mechanical Engineering, 2021, 14(3): 366-379.
[32] Jiang Changjie, Liu Xintian*, Wang Xiaolan, Wang Xu, Su Shengchao. Interval dynamic reliability analysis of mechanical components under multi-stage load based on strength degradation. Quality and Reliability Engineering International, 2021, 37(2): 567-582.
[33] Liu Xintian*, Mao Kui, Wang Xiaolan, Wang Xu, Wang Yansong. A modified quality loss model of service life prediction for products via wear regularity. Reliability Engineering and System Safety, 2020, 204: 107187.
[34] Wang Haijie, Liu Xintian*, Wu Que, Wang Xiaolan, Wang Yansong. An improvement prediction model of fatigue life for shock absorber cylinder with surface roughness correction. Engineering Computations, 2021, 38(6): 2713-2732.
[35] Qian Kangfeng, Liu Xintian*, Mao Kui, Wang Xiaolan, Wang Xu. Quality loss prediction of mechanical system life considering linear degeneration and random error. Quality and Reliability Engineering International, 2021, 37(3): 935-949.
[36] Mengyu Zhu, Xintian Liu*, Fuchao Kan, Ziyun You. Life cycle prediction and evaluation of clutch friction plate considering wear models and thermal stress. Journal of Tribology-Transactions of The ASME, 2021, 143: 041701.
[37] Liu Xintian*, Geng Shuanglong, Yu Xueguang, Tong jiachi, Wang Yansong. Improved Uncertain Method for Safety Analysis of Aircraft Landing Gear. Proceedings of the IMechE, Part G: Journal of Aerospace Engineering, 2021, 235(16): 2547-2560.
[38] Wu Que, Liu Xintian*, Liang Zhiqiang, Wang Yansong, Wang Xiaolan. Fatigue life prediction model of metallic materials considering crack propagation and closure effect. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2020, 42(9): 424.
[39] Wang Shuci, Liu Xintian*, Jiang Changjie, Wang Xu, Wang Xiaolan. Prediction and evaluation of fatigue life for mechanical components considering anelasticity-based load spectrum. Fatigue & Fracture of Engineering Materials & Structures, 2021, 44(1): 129-140.
[40] Ge Haiyan, Liu Xintian*, Fang Yu, Wang Haijie, Wang Xu, Zhang Minghui. An improvement Bootstrap method introducing error ellipse for numerical analysis of fatigue life parameters. Engineering Computations, 2021, 38(1): 289-312.
[41] Mao Kui, Liu Xintian*, Li Shuangshuang, Wang Xu. Reliability analysis for mechanical parts considering hidden cost via modified quality loss model. Quality and Reliability Engineering International, 2021, 37(4): 1373-1395.
[42] 劉蘇超, 姜長傑, 劉新田*. 基于強度退化的金屬材料疲勞壽命預估. 機械強度, 2021, 43(215): 742-746.
[43] Dong Qichao, Liu Xintian*, Qi Hongzhong, Zhou Yafu. Vibroacoustic Prediction and Evaluation of Permanent Magnet Synchronous Motors. Proceedings of the IMechE, Part D: Journal of Automobile Engineering, 2020, 234(12): 2783-2793.
[44] Liu Xintian*, Zhang Minghui, Wang Haijie, Luo Jiao, Tong Jiachi, Wang Xiaolan. Fatigue Life Analysis of Automotive Key Parts Based on Improved Peak-Over-Threshold Method. Fatigue & Fracture of Engineering Materials & Structures, 2020, 43(8): 1824-1836.
[45] You Ziyun, Liu Xintian*, Jiang Zhao, Wang Xu, Wang Yansong, Wang Xiaolan. Numerical method for fatigue life of aircraft lugs under thermal stress. Journal of Aircraft, 2020, 57(4): 597-602.
[46] You Ziyun, Fang Yu, Liu Xintian*, Chen Tie, Li Wenjing, Wang Yansong. Numerical method for fatigue life of plane bolted joints under thermal load. Proceedings of the IMechE, Part G: Journal of Aerospace Engineering, 2020,234(14): 2041-2049.
[47] Shang Wenqian, Liu Xintian*, Zhang Minghui, Qu Yang, Wang Yansong. Fire water monitor trajectories based on jet expansion and dynamic breakup model. Journal of Testing and Evaluation, 2021, 49(1): 435-451.
[48] Yang Qu, Xintian Liu*, Minghui Zhang, Zhiqiang Liang. A modified strength degradation model of 45 steel under cyclic loading. Australian Journal of Mechanical Engineering, 2022, 20(1): 295-302.
[49] Jiang Changjie, Liu Xintian*, Zhang Minghui, Wang Xiaolan, Wang Yansong. An Improved Nonlinear Cumulative Damage Model for Strength Degradation Considering Loading Sequence. International Journal of Damage Mechanics, 2021, 30(3): 415-430.
[50] Zhang Minghui, Liu Xintian*, Wang Xiaolan, Wang Yansong, Liang Wei. Fire Water Monitor Trajectories Based on Turbulence Breakup Model. Journal of Testing and Evaluation, 2020, 48(6): 4454-4472.
[51] Xintian Liu*, Fuchao Kan, Xiufeng Xin, Hu Huang, Wang Zhaoqiang. Fatigue life prediction of clutch sleeve based on abrasion mathematical model in service period. Fatigue & Fracture of Engineering Materials & Structures, 2020, 43(3): 488-501.
[52] Liang Zhiqiang, Liu Xintian*, Wang Yansong, Wang Xiaolan. Reliable Estimation of the Presence for Uncertain Wiper Structural System. Assembly Automation, 2021, 41(1): 55-70.
[53] Liu Wei, Qi Hongzhong, Liu Xintian*, Wang Yansong. Evaluation of regenerative braking based on single-pedal control for electric vehicles. Frontiers of Mechanical Engineering, 2020, 15(1): 166-179.
[54] Yu Xueguang, Wang Xu, Liu Xintian*, Wang Yansong. Reliability Reallocation for Cost Uncertainty of Fuel Cell Vehicles via Improved Differential Evolution Algorithm. Quality and Reliability Engineering International, 2020, 36(1): 303-314.
[55] Geng Shuanglong, Liu Xintian*, Liang Zhiqiang, Wang Yansong, Wang Xiaolan. Tolerance Analysis and Evaluation of Uncertain Automatic Battery Replacement System. Structural and Multidisciplinary Optimization, 2020, 61(1): 239-252.
[56] Li Shuangshuang, Liu Xintian*, Wang Xiaolan, Wang Yansong. Fatigue Life Prediction for Automobile Stabilizer Bar. International Journal of Structural Integrity, 2019, 11(2): 303-323.
[57] Wang Haijie, Liu Xintian*, Wang Xiaolan, Wang Yansong. Numerical Method for Estimating Fatigue Crack Initiation Size Using Elastic-plastic Fracture Mechanics Method. Applied Mathematical Modelling, 2019, 73: 365-377.
[58] Dong Qichao, Liu Xintian*, Qi Hongzhong,Sun Chao, Wang Yansong. Analysis and evaluation for electromagnetic vibration and noise in permanent magnet synchronous motors with rotor step skewing. Science China Technological Sciences, 2019, 62(5) : 839-848.
[59] Geng Shuanglong, Liu Xintian*, Yang Xiaobing, Meng Zhengyun, Wang Xiaolan, Wang Yansong. Load Spectrum for Automotive Wheels Hub Based on Mixed Probability Distribution Model. Proceedings of the IMechE, Part D: Journal of Automobile Engineering, 2019, 233(14): 3707-3720.
[60] Wu Que, Liu Xintian*, Liang Zhiqiang, Wang Yansong, Wang Xiaolan. Research on Diameter Tolerance of Transmission Shaft Based on Interval Analysis. Journal of Failure Analysis and Prevention, 2019, 19: 154-160.
[61] Liu Xintian*, Liu Lei, Wu Que, Yuan Xinjie, Huang Hu. Reliability analysis and evaluation of automotive seat angle-adjuster. Australian Journal of Mechanical Engineering, 2020, 18(3): 481-489.
[62] Li Shuangshuang, Liu Xintian*, Wang Yansong, Wang Xiaolan. A cubic quality loss function and its application. Quality and Reliability Engineering International, 2019, 35: 1161-1179.
[63] Zhang Minghui, Liu Xintian*, Wang Yansong, Wang Xiaolan. Parameters Distribution Characteristics of Material Fatigue Life Based on Improved Bootstrap Method. International Journal of Damage Mechanics, 2019, 28(5): 772-793.
[64] Wang Haijie, Liu Xintian*, Zhang Minghui, Wang Yansong, Wang Xiaolan. Prediction of Material Fatigue Parameters for Low Alloy Forged Steels Considering Error Circle. International Journal of Fatigue, 2019, 121: 135-145.
[65] Shang ZhuangZhuang, Qi Hongzhong, Liu Xintian*, Ouyang Chenzhi, Wang Yansong. Structural optimization of lithium-ion battery for improving thermal performance based on a liquid cooling system. International Journal of Heat and Mass Transfer, 2019, 130: 33-41.
[66] Tong Jiachi, Liu Xintian*, Wang Minlong, Wang Yansong, Wang Xiaolan. Research on Random Load Characteristic Based on Mixture Distribution Model. Journal of Testing and Evaluation, 2019, 47(1): 537-555.
[67] Liang Zhiqiang, Liu Xintian*, Zuo He, Wang Yansong. Design and analysis of suspension system based on tire characteristics. Journal of The Chinese Society of Mechanical Engineers, 2018, 39(6): 599-608.
[68] Dong Qichao, Qi Hongzhong, Liu Xintian, Wang Yansong. Calibration and Optimization of an Electric Vehicle Power System. Journal of the Chinese Institute of Engineers, 2018, 41(7): 539-546.
[69] Li Shuangshuang, Liu Xintian*, Wang Yansong, Wang Xiaolan. Hidden quality cost function of a product based on the cubic approximation of the Taylor expansion. International Journal of Production Research, 2018, 56(14): 4762-4780.
[70] Wang Minlong, Liu Xintian*, Wang Xiaolan, Wang Yansong. Probabilistic modeling of unified S-N curves for mechanical parts. International Journal of Damage Mechanics, 2018, 27(7): 979-999.
[71] Wang Minlong, Liu Xintian*, Wang Xiaolan, Wang Yansong. Research on load spectrum construction of automobile key parts based on Monte Carlo Sampling. Journal of Testing and Evaluation, 2018, 46(3): 1099-1110.
[72] Kan Fuchao, Liu Xintian*, Xin Xiufeng, Xu Jiejie, Huang Hu, Wang Yansong. Analysis and evaluation of the leakage failure for clutch sleeve and shell. Engineering Failure Analysis, 2018, 88: 1-12.
[73] Liu Xintian, Rao Singiresu S.. Vibration Analysis in the Presence of Uncertainties Using Universal Grey System Theory. ASME Journal of Vibration and Acoustics, 2018, 140(3): 031009-031009-11.
[74] Yang Xiaobing, Liu Xintian*, Jiachi Tong, Wang Yansong, Xiaolan Wang. Research on load spectrum construction of bench test based on automotive proving ground. Journal of Testing and Evaluation, 2018, 46(1): 244-251.
[75] Rao Singiresu S., Liu Xintian. Universal Grey Systems Theory for the Analysis of Uncertain Structural Systems. AIAA Journal, 2017, 55(11): 3966-3979.
[76] Liu Lei, Liu Xintian*, Wang Xiaolan, Wang Yansong, Li Chuanchang. Reliability analysis and evaluation of a brake system based on competing risks. Journal of Engineering Research, 2017, 5(3): 150-161. (SCI)
[77] Wang Minlong, Liu Xintian*, Wang Xiaolan, Wang Yansong. Fatigue test analysis of automotive key parts based on censored data and small sample setting. Quality and Reliability Engineering International, 2017, 33(5): 1031-1043.
[78] Liu Xintian, Zheng Songlin, Chen Tie, Feng Jinzhi. Durability Life Prediction of a Reducer System Based on Low-amplitude Load Strengthening and Damage. Journal of The Chinese Society of Mechanical Engineers, 2017, 38(1):81-91.
[79] Tong Jiachi, Liu Xintian*, Wang Xiaolan, Wang Yansong, Guo Hui. Lightweight Design of the Aluminum Wheel Hub Based on Reliability. Journal of The Chinese Society of Mechanical Engineers, 2017, 38(1): 73-79.
[80] Wang Minlong, Liu Xintian*, Wang Yansong, Wang Xiaolan, Guo Hui, Xing Yanfeng. Research on assembly tolerance allocation and quality control based on fuzzy reliability. Proceedings of the IMechE, Part C: Journal of Mechanical Engineering Science, 2016, 230(20): 3755-3766.
[81] 劉新田, 鄭松林, 陳鐵, 馮金芝. 基于低載強化的輪邊減速系統耐久性試驗研究. 上海理工大學學報, 2016, 38(1): 31-37.
[82] Liu Xintian, Qi Hongzhong, Wang Xiaolan, Wang Yansong, Li Chuanchuang, Wang Minlong. Reliability analysis and evaluation of differential system based on low load strengthening model. Quality and Reliability Engineering International, 2016, 32(2):647-662.
[83] Liu Xintian, Zheng Songlin, Chen Tie, Liang Guoqing, Feng Jinzhi, Ning Xin. Durability Testing Method of a Hub Reducer System Based on the Shanghai Standard Road Driving Cycle. Journal of Testing and Evaluation, 2016, 44(1): 665-678.
[84] Liu Xintian, Zheng Songlin, Feng Jinzhi, Chen Tie. Reliability Reallocation for Fuel Cell Vehicles Based on Genetic Algorithm. Quality and Reliability Engineering International, 2015, 31(8): 1495-1502.
[85] Wang Minlong, Liu Xintian*, Wang Yansong, Luo Jiao. Reliability analysis and evaluation of key parts for automobiles on the basis of dimensional changes during high-speed operation. Journal of Testing and Evaluation, 2015, 43(6): 1464-1471.
[86] Liu Xintian*, Wang Minlong, Wang Xiaolan, Li Chuanchang, Guo Hui, Luo Jiao. Hardpoints Correlation Analysis and Optimal Design for Front Suspension of Formula SAE Car. Australian Journal of Mechanical Engineering, 2015, 13(2): 67-76.
[87] Liu Xintian*, Zheng Songlin, Feng Jinzhi, Huang Hu, Chu Jun, Zhao Lihui. Reliability analysis and evaluation of automobile welding structure. Quality and Reliability Engineering International, 2014, 30(8): 1293-1300.
2專利
[1] 劉新田,張曉瑩,王舒茨, 一種基于剛度退化的碳纖維縫合複合材料疲勞壽命預估方法, 202110774710.X
[2] 劉新田,馬牧洲,胡桂情,尚文謙, 基于路徑規劃算法的複合材料壽命預測方法, 202110180671.0
[3] 劉新田,朱夢雨,張海鵬,吳悫, 一種考慮滞彈性能的鎂合金疲勞壽命的确定方法, 202010030789.0
[4] 劉新田,王舒茨,張海鵬,遊紫雲.一種基于快速系統的鋁合金疲勞壽命計算方法,中國,ZL202010031037.6
[5] 劉新田,王海傑,吳悫,一種用于評估統計值變異性的方法, 2022.03,中國,ZL201811231417.3
[6] 劉新田, 喻學廣, 王旭, 姜長傑, 一種預估金屬材料的疲勞強度退化的方法, 2022.02, 中國, ZL201911095772.7
[7] 劉威,祁宏鐘,劉新田,增程式電動汽車的能量分配控制方法,2020.10,中國,ZL201710770365.6
[8] 商壯壯,劉新田,祁宏鐘,一種共享單車環繞式自助用車系統,2020.09,中國,ZL201710526837.3
[9] 劉新田,尚文謙,李爽爽,一種考慮能量的應變載荷譜編制方法,2020.08,中國,ZL201910341073.X
[10] 劉新田,瞿洋,張明輝,一種平移輸送同步升降機構,2019.10,中國,ZL201810500830.9
[11] 劉新田,耿雙龍,梁志強,一種用于電池更換的往複式平移升降機構,2019.08,中國,ZL201810501406.6
[12] 董啟超,劉新田,祁宏鐘,一種汽車用電機散熱風扇降噪抗振系統,2019.07,中國,ZL201710516615.3
[13] 鄭松林,劉新田,甯欣,陳鐵,馮金芝,比拟材料遲滞效應的載荷轉換方法,2018.07.06,中國,ZL201510494628.6
3科研獲獎
[1] 危化品儲罐安全檢測與壽命預測關鍵技術. 廣西科學技術進步獎三等獎,廣西壯族自治區人民政府,排名第5,2022.05.
[2] 多維立體交通科普展示, 上海市科學技術普及獎二等獎,上海市人民政府,排名第9,2020.04.
[3] 汽車類本科工程人才創新能力培養體系探索與實踐,上海市級教學成果一等獎,上海市教育委員會,排名第6,2018.06.
[4] 乘用車被動安全性試驗裝置的集成研制,中國機械工業科學技術獎三等獎,中國機械工程學會,排名第2,2015.10.
[5] 依托支柱産業,培養卓越人才——車輛工程高素質應用型人才培養模式,上海市級教學成果二等獎,上海市教育委員會,排名第5,2014.07.
[6] 乘用車車身結構件剛度設計與多功能試驗台的研制,中國汽車工業科學技術獎三等獎,中國汽車工程學會,排名第2,2013.11.
[7] 乘用車車身結構件剛度設計與被動安全性試驗台的研制,上海市科學技術進步獎三等獎,上海市人民政府,排名第5,2013.03.
4 科研項目
[1] E38ET1試驗場路譜采集與複現試驗,主持,進行中,2022.03-2022.12.
[2] 锂電池容量計算、診斷分析及更換裝置,主持,進行中,2021.12-2022.12.
[3] D28儲罐疲勞壽命分析與評價,主持,已完成,2020.05-2021.05.
[4] 某汽車試驗場道路載荷采集與台架複現試驗,主持,已完成,2019.03-2019.12.
[5] 東南汽車V3道路載荷特性研究,主持,已完成,2014.09-2014.12.
[6] 某汽車海南汽車試驗場道路載荷研究,主持,已完成,2014.09-2014.12.
[7] 乘用車後橋耐久性載荷特性研究,主持,已完成,2014.03-2014.10.
