LIU XINTIAN

姓名Name:Liu Xintian

学历EducationBackground:Ph.D.(USST),M. E(SJTU),B.E. (SDUT)
职称ProfessionalTitle:AssociateProfessor

职务Post:

研究方向ResearchInterests:Reliability Engineering, Fatigue Life, Uncertain-based Analysis

学术成果AcademicPublication(* Corresponding Author):

[1] HuYuxia, WangHaijie, LiuXintian*. Randomfatigue life prediction of stabilizer bar based on low loadstrengthening. Journal of Mechanical Strengh, Accepted.(InChinese)

[2]  YangGenhua, Liu Xintian*, Lai Jiafeng, Wei Yuwei. Fatiguelife prediction of gasoline storage tank considering varying currentdensity and weld stress. Advances in MechanicalEngineering, Minorrevison.

[3]Li Qiang, Liu Xintian*. A soilmechanicalmodelfor deformablegroundsunder the dynamicactionof high-mobilitytrackedvehicles. RecentPatents on Engineering, Accepted. 

[4]Zhang Yuru, Liu Xintian*, Geng Shuanglong. Reliabilityanalysisand evaluationof wheelaxlefor high-speedtrainconsideringinterferencefit. Journalof The Chinese Society of Mechanical Engineers, Accepted. 

[5] MaMuzhou, Liu Xintian*. Multiaxial fatigue life predictionfor metal materials considering loading path and additional hardeningeffect. International Journal of Structural Integrity, Minorrevison.

[6] LiuXintian*, Liu Jiazhi, Wang Haijie, Yang Xiaobing. Predictionand evaluation of fatigue life considering material parametersdistribution characteristic. International Journal of StructuralIntegrity, 2022, 13(2): 309-326.

[7] LiuXintian*, Wu Que, Su Shengchao, Wang Yansong. Evalutationand prediction of material fatigue characteristics under ImpactLoads: review and prospects. International Journal of StructuralIntegrity, 2022, 13(2): 251-277.

[8] LiuXintian*, Ma Muzhou, HeJialong.Reliability prediction method of machining precision of machine toolparts based on fuzzy coupling.Journalof Jilin University (Engineering and Technology Edition),2022, (2): 377-383.(InChinese)

[9]Jin Kai, Liu Xintian*, Liu Miao, Qian Kangfeng. Modifiedquality loss for the analysis of product quality characteristicsconsidering maintenance cost. Quality Technology &Quantitative Management, 2022, 19(3):341-361.

[10]Wang Shuci, Liu Xintian*, Huang Bixiong, LiaoHaiyu. Fatigue life prediction of composite suspensionconsidering residual stress and crack propagation.Proceedingsof the IMechE, Part D: Journal of  AutomobileEngineering, Accepted.

[11]Zhang Haipeng, Zhang Yuru, Yu Xueguang, Liu Xintian*. ImprovedLQG vibration control for multiple inputs of electricvehicle. Advances in Mechanical Engineering, 2022, 14(1):1-11.

[12]Huang Bixiong, Liao Haiyu, Wang Yiquan, Liu Xintian*, YanXiao. Prediction and evaluation of health state for powerbattery based on Ridge linear regression model. ScienceProgress, 2021, 104(4): 1-16.

[13]Li Qiang, Wu Que, Wang Shuci, Liu Xintian*. Analysisand evaluation of fatigue strength for engine bracketconsidering loadcharacteristics. Recent Patents on MechanicalEngineering, Online.

[14]Qian Kangfeng, Liu Xintian*. Hybrid optimization strategyfor lithium-ion battery's State of Charge/Health using Joint ofdual Kalman filter and Modified Sine-cosine Algorithm. Journalof Energy Storage, 2021, (44): 103319.

[15] LiuXintian*, Wang Haijie, Yang Xiaobing, Lai Jiafeng. Predictionand evaluationof fatiguestrengthvia mechanicalbehaviorof materials. Journalof The Chinese Society of Mechanical Engineers, Accepted. 

[16]Wang Haijie, Liu Xintian*, Chen Tie and XuShen. Prediction and evaluation of fatigue life via modifiedenergy method considering surface processing. InternationalJournal of Damage Mechanics, Online.

[17]Shang Wenqian, Liu Xintian*, Wang Xu and Wang Xiaolan. FatigueLife Prediction for SiC/Al materialsbased on pathplanningalgorithmconsidering residualstress. ChineseJournal of Mechanical Engineering, Accepted.

[18]Liu Jiazhi, Liu Xintian*, Zhang Minghui, Wang Shuci. Animproved fatigue life model for mechanical components consideringload strengthening characteristics. Fatigue & Fracture ofEngineering Materials & Structures, 2022, 45: 174-185.

[19] QianKangfeng, Liu Xintian*, Wang Yiquan, Yu Xueguang, Huang Bixiong.Modified extendedkalmanfiltering for the SOC estimation of lithium-ionbatteryvia PSO-based greywolfoptimizer. Proceedings of the IMechE, Part D: Journal of Automobile Engineering, Online.

[20]Liu Wei, Liu Xintian*, Qi Hongzhong, WangYansong. Research on rule-based energy management strategy forrange-extended electric vehicle. Australian Journalof Electrical & Electronics Engineering, MinorRevision.

[21]Wang Haijie, Xuan Fuzhen, Liu Xintian. Prediction and evaluationof fatigue life under random load based on low load strengtheningcharacteristic. International Journal of Fatigue, 2021,151: 106346. 

[22]Zhu Mengyu, Liu Xintian*, Lai Jiafeng, Luo Jiao. Fatiguelife analysis of pressure vessel based on residual strength and cracksize. Transactions of the Canadian Society for MechanicalEngineering, Online. 

[23] LuoJiao, Liu Jiazhi, You Ziyun, Liu Xintian*. Fatigue lifeprediction of brake discs for high-speed train via thermalstress. Science Progress, Minorrevison.

[24]Zhang Yuru, Liu Xintian*, Lai Jiafeng, Wei Yuwei, LuoJiao. Corrosion fatigue life prediction of crude oil storagetank via improved equivalent initial flaw size. Theoretical andApplied Fracture Mechanics, 2021, 114: 103023. 

[25]Huang Bixiong, Wang Shuci, Geng Shuanglong, Liu Xintian*.Improved Numerical Model for Fatigue Cumulative Damage of MechanicalStructure Considering Load Sequence and Interaction. Advances inMechanical Engineering, 2021, 13 (2): 1687814021995309. 

[26] WangYuhan, Liu Xintian*, Wang Haijie, Wang Xu, WangXiaolan. Improved fatigue failure model for reliability analysisof mechanical parts inducing stress spectrum. Proceedings of theIMechE, Part O: Journal of Risk and Reliability, 235(6):973-981. 

[27]Yu Xueguang, Liu Xintian*, Wang Xu, Wang Xiaolan. Vibrationcontrol of improved LQG for wheel drive electric vehicle based onuncertain parameters. Proceedings of the IMechE, Part D: Journalof  Automobile Engineering, 2021, 235 (2): 2253-2264.

[28]Zhang Minghui, Hu Guiqing, Liu Xintian*, Yang Xiaobing. Animprovement strength degradation model for fatigue life predictionconsidering materials characteristics. Journal of the BrazilianSociety of Mechanical Sciences and Engineering, 2021, 43(5):275.

[29]Luo Jiao, Wang Shuci, Liu Xintian*, Geng Shuanglong. Fatiguelife prediction of train wheel shaft based on load spectrumcharacteristics. Advances in Mechanical Engineering, 2021, 13 (2):1687814021992153.

[30] LiuXintian*, Yu Xueguang, Tong Jiachi, Wang Xu, Wang Xiaolan. Mixeduncertainty analysis for dynamic reliability of mechanical structuresconsidering residual strength. Reliability Engineering and SystemSafety, 2021, 209: 107472.

[31]Ge Haiyan, Liu Xintian*, Wang Xu, Wang Xiaolan, Wang Haijie.Effect of fisheye failure on material performance inducing errorcircle under high cycles. International Journal of Damage Mechanics,2021, 30(10): 1524-1541.

[32] YuXueguang, Liu Xintian*, Wang Xu, WangXiaolan. Based-restraining interval extension improvedtruncation algorithm for response analysis of uncertain mechanicalsystem. Engineering Computations, 2021,38(6): 2833-2849.

[33]Qu Yang, Liu Xintian*, Zhang Minghui, Wang Yansong, LiuChanghong. Analysisand evaluation of drop point for water jet based on wavemodel. Journal of Engineering Research, 2021, 9(1): 229-246.

[34]Zhang Yuru, Liu Xintian*, Yu Xueguang, Wang Xu,Wang Xiaolan. Reliability analysis of excavator boomconsidering mixed uncertain variables. Quality and ReliabilityEngineering International, 2021, 37(4): 1468-1483.

[35]  LiuXintian*, Wang Haijie, Wu Que, Wang Yansong. Uncertainty-basedanalysis of random load signal and fatigue life for mechanicalstructures. Archives of Computational Methods in Engineering, 2022,29(3):375-395.

[36]  LiuXintian*, Qu Yang, Yang Xiaobing, Shen Yongfeng. Loadspectrum compiling and fatigue life estimation of the automobilewheel hub. Recent Patents on Mechanical Engineering, 2021,14(3): 366-379.

[38]Jiang Changjie, Liu Xintian*, Wang Xiaolan, Wang Xu, SuShengchao. Interval dynamic reliability analysis of mechanicalcomponents under multi-stage load based on strengthdegradation. Quality and Reliability Engineering International,2021, 37(2): 567-582.

[39] LiuXintian*, Mao Kui, Wang Xiaolan, Wang Xu, Wang Yansong. A modifiedquality loss model of service life prediction for products via wearregularity. Reliability Engineering and System Safety, 2020, 204:107187.

[40]Ma Xipei, Liu Xintian*, Wang Haijie, Tong Jiachi, Yang Xiaobing.Fatigue life prediction of half shaft using the strain-life method.Advances in Materials Science and Engineering, 2020, 2020: 5129893.

[41]Wang Haijie, Liu Xintian*, Wu Que, Wang Xiaolan, Wang Yansong.An improvement prediction model of fatigue life for shock absorbercylinder with surface roughness correction. Engineering Computations,2021, 38(6): 2713-2732.

[42]Qian Kangfeng, Liu Xintian*, Mao Kui, Wang Xiaolan, Wang Xu.Quality loss prediction of mechanical system life considering lineardegeneration and random error. Quality and Reliability EngineeringInternational, 2021, 37(3): 935-949.

[43]Mengyu Zhu, Xintian Liu*, Fuchao Kan, Ziyun You. Life cycleprediction and evaluation of clutch friction plate consideringwear models and thermal stress.  Journal ofTribology-Transactions of The ASME, 2021, 143: 041701. 

[44] LiuXintian*, Geng Shuanglong, Yu Xueguang, Tong jiachi, WangYansong. Improved uncertainmethodfor safetyanalysisof aircraft landinggear. Proceedingsof the IMechE, Part G: Journal of Aerospace Engineering, 2021,235(16): 2547-2560. 

[45]Wu Que, Liu Xintian*, Liang Zhiqiang, Wang Yansong, WangXiaolan. Fatigue life prediction model of metallic materialsconsidering crack propagation and closure effect. Journal of theBrazilian Society of Mechanical Sciences and Engineering,2020, 42(9): 424. 

[46]Wang Shuci, Liu Xintian*, Jiang Changjie, Wang Xu, Wang Xiaolan.Prediction and evaluation of fatigue life for mechanical componentsconsidering anelasticity-based load spectrum. Fatigue &Fracture of Engineering Materials & Structures, 2021, 44(1):129-140. 

[47]Lai Jiafeng, You Ziyun, Luo Jiao, Wei Yuwei, LiuXintian*. Numerical methodfor fatiguelifepredictionof liquid-storagetankvia cracklengthand depth.Advances in Materials Science and Engineering, 2020, 2020: 2427196.

[48]Ge Haiyan, Liu Xintian*, Fang Yu, Wang Haijie, Wang Xu, ZhangMinghui. An improvement Bootstrap method introducing errorellipse for numerical analysis of fatigue lifeparameters. Engineering Computations, 2021, 38(1):289-312.    

[49] MaoKui, Liu Xintian*, Li Shuangshuang, WangXu. Reliability analysis  for mechanical partsconsidering  hidden cost via  modified quality lossmodel. Quality and Reliability Engineering International, 2021,37(4): 1373-1395.  

[50]LiuSuchao,JiangChaojie, LiuXintian*. Fatiguelife prediction of metal materials based on strength degradation.Journalof Mechanical Strengh,2021, 43(215): 742-746.(In Chinese).

[51]Dong Qichao, Liu Xintian*, Qi Hongzhong, ZhouYafu. Vibroacoustic predictionand evaluationof permanentmagnetsynchronousmotors. Proceedingsof the IMechE, Part D: Journal of  Automobile Engineering, 2020,234(12): 2783-2793. 

[52]Luo Jiao, Liu Xintian*, Yang Xiaobing. Tolerance Analysisfor automobiletransmissionshaftbasedon minimumcostand reliabilitytarget. ScienceProgress, 2020, 103(4): 1-15. 

[53] LiuXintian*, Zhang Minghui, Wang Haijie, Luo Jiao, TongJiachi, Wang Xiaolan. Fatigue lifeanalysisof automotivekeypartsbasedon improvedpeak-over-thresholdmethod. Fatigue& Fracture of Engineering Materials & Structures, 2020,43(8): 1824-1836. 

[54] You Ziyun, Liu Xintian*,Jiang Zhao, Wang Xu, Wang Yansong, Wang Xiaolan. Numericalmethod for fatigue life of aircraft lugs under thermal stress.Journal of Aircraft, 2020, 57(4): 597-602.

[55]You Ziyun, FangYu, Liu Xintian*, Chen Tie, Li Wenjing, Wang Yansong. Numericalmethod for fatigue life of plane bolted joints under thermalload. Proceedings of the IMechE, Part G: Journal ofAerospace Engineering, 2020,234(14): 2041-2049.

[56] Jun Li,Qitao Zhang, Xiaojun Yang, Qi Xiquan, Liu Xintian*.Fatigue lifeprediction of mount systems for vehicle engines in the frequencydomain. Journal of The Chinese Society of Mechanical Engineers,2020, 41(6): 807-816. 

[57]Shang Wenqian, Liu Xintian*, Zhang Minghui, Qu Yang, WangYansong. Fire water monitor trajectories based on jet expansion anddynamic breakup model. Journal of Testing and Evaluation, 2021,49(1): 435-451.

[58]Yang Qu, Xintian Liu*, Minghui Zhang, Zhiqiang Liang. A modifiedstrength degradation model of 45 steel under cyclicloading. Australian Journal of Mechanical Engineering, 2022,20(1): 295-302. 

[59]Jiang Changjie, Liu Xintian*, Zhang Minghui, Wang Xiaolan, WangYansong. An improvednonlinearcumulativedamagemodelfor strengthdegradationconsideringloadingsequence.International Journal of Damage Mechanics, 2021, 30(3): 415-430.

[60] ZhangMinghui, Liu Xintian*, Wang Xiaolan, Wang Yansong, LiangWei. Fire watermonitortrajectoriesbasedon turbulencebreakupmodel.Journal of Testing and Evaluation, 2020, 48(6): 4454-4472. 

[61] XintianLiu*, Fuchao Kan, Xiufeng Xin, Hu Huang, Wang Zhaoqiang. Fatiguelife prediction of clutch sleeve based on abrasion mathematical modelin service period. Fatigue & Fracture of EngineeringMaterials & Structures, 2020, 43(3): 488-501.

[62] LiangZhiqiang, Liu Xintian*, Wang Yansong, Wang Xiaolan. Reliableestimation ofthe presencefor uncertainwiperstructuralsystem.Assembly Automation, 2021, 41(1): 55-70.

[63]Liu Wei, Qi Hongzhong, Liu Xintian*, Wang Yansong. Evaluationof regenerative braking based on single-pedal control forelectric vehicles. Frontiers of Mechanical Engineering, 2020,15(1): 166-179. 

[64] YuXueguang, Wang Xu, Liu Xintian*, Wang Yansong. Reliabilityreallocationfor costuncertaintyof fuelcellvehiclesvia improveddifferentialevolutionalgorithm. Qualityand Reliability Engineering International, 2020, 36(1):303-314. 

[65] GengShuanglong, Liu Xintian*, Liang Zhiqiang, Wang Yansong, WangXiaolan. Tolerance analysisand evaluationof uncertainautomaticbatteryreplacementsystem.Structural and Multidisciplinary Optimization, 2020, 61(1): 239-252.

[66]Li Shuangshuang, Liu Xintian*, Wang Xiaolan, WangYansong. Fatigue lifepredictionfor automobilestabilizerbar. InternationalJournal of Structural Integrity, 2019, 11(2): 303-323.

[67] WangHaijie, Liu Xintian*, Wang Xiaolan, Wang Yansong. Numericalmethodfor estimatingfatiguecrackinitiationsizeusingelastic-plasticfracturemechanicsmethod.Applied Mathematical Modelling, 2019, 73: 365-377. 

[68]Dong Qichao, Liu Xintian*, Qi Hongzhong,Sun Chao, WangYansong. Analysis and evaluation for electromagneticvibration and noise in permanent magnet synchronousmotors with rotor step skewing. Science China TechnologicalSciences, 2019, 62(5) : 839-848. 

[69] GengShuanglong, Liu Xintian*, Yang Xiaobing, Meng Zhengyun,Wang Xiaolan, Wang Yansong. Load spectrumfor automotivewheelshubbasedon mixedprobabilitydistributionmodel. Proceedingsof the IMechE, Part D: Journal of  Automobile Engineering, 2019,233(14): 3707-3720.

[70]Wu Que, Liu Xintian*, Liang Zhiqiang, Wang Yansong, WangXiaolan. Research on diametertoleranceof transmissionshaftbasedon intervalanalysis. Journalof Failure Analysis and Prevention, 2019, 19: 154-160.

[71] LiuXintian*, Liu Lei, Wu Que, Yuan Xinjie, HuangHu. Reliability analysis and evaluation of automotive seatangle-adjuster. Australian Journal of MechanicalEngineering, 2020, 18(3): 481-489. 

[72] LiShuangshuang, Liu Xintian*, Wang Yansong, Wang Xiaolan. Acubic quality loss function and its application. Quality andReliability Engineering International, 2019, 35: 1161-1179.  

[73] ZhangMinghui, Liu Xintian*, Wang Yansong, Wang Xiaolan. Parametersdistributioncharacteristicsof materialfatiguelifebasedon improved bootstrapmethod.International Journal of Damage Mechanics, 2019, 28(5): 772-793. 

[74] WangHaijie, Liu Xintian*, Zhang Minghui, Wang Yansong, WangXiaolan. Prediction of materialfatigueparametersfor lowalloyforgedsteelsconsideringerrorcircle.International Journal of Fatigue, 2019, 121: 135-145.  

[75] ShangZhuangZhuang, Qi Hongzhong, Liu Xintian*, Ouyang Chenzhi, WangYansong. Structural optimization of lithium-ion battery for improvingthermal performance based on a liquid cooling system. InternationalJournal of Heat and Mass Transfer, 2019, 130: 33-41. 

[76]Tong Jiachi, Liu Xintian*, Wang Minlong, Wang Yansong, WangXiaolan. Research on Random Load Characteristic Based on MixtureDistribution Model. Journal of Testing and Evaluation, 2019, 47(1):537-555. 

[77] LiangZhiqiang, Liu Xintian*, Zuo He, Wang Yansong. Design andanalysis of suspension system based on tire characteristics. Journalof The Chinese Society of Mechanical Engineers, 2018, 39(6):599-608. 

[78] DongQichao, Qi Hongzhong, Liu Xintian, Wang Yansong. Calibration andoptimizationof an electricvehiclepowersystem.Journal of the Chinese Institute of Engineers, 2018, 41(7): 539-546. 

[79]Li Shuangshuang, Liu Xintian*, Wang Yansong, WangXiaolan. Hidden quality cost function of a product based on thecubic approximation of the taylorexpansion. International Journal of Production Research, 2018,56(14): 4762-4780.

[80]Wang Minlong, Liu Xintian*, Wang Xiaolan, WangYansong. Probabilistic modeling of unified S-N curves formechanical parts. International Journal of Damage Mechanics,2018, 27(7): 979-999. 

[81]Wang Minlong, Liu Xintian*, Wang Xiaolan, WangYansong. Research on load spectrum construction of automobilekey parts based on Monte Carlo Sampling. Journal of Testing andEvaluation, 2018, 46(3): 1099-1110.

[82] KanFuchao, Liu Xintian*, Xin Xiufeng, Xu Jiejie, Huang Hu, WangYansong. Analysis and evaluation of the leakage failure forclutch sleeve and shell. Engineering Failure Analysis, 2018, 88:1-12. 

[83] LiuXintian, Rao Singiresu S.. Vibration Analysis in thePresence of Uncertainties usinguniversalgreysystemtheory.ASME Journal of Vibration and Acoustics, 2018, 140(3):031009-031009-11.

[84] YangXiaobing, Liu Xintian*, Jiachi Tong, Wang Yansong, XiaolanWang. Research on load spectrum construction of bench test basedon automotive proving ground. Journal of Testing and Evaluation,2018, 46(1): 244-251. 

[85]Rao Singiresu S., Liu Xintian. Universal greysystemstheory forthe analysisof uncertainstructuralsystems.AIAA Journal, 2017, 55(11): 3966-3979. 

[86] LiuLei, Liu Xintian*, Wang Xiaolan, Wang Yansong, LiChuanchang. Reliability analysis and evaluation of a brakesystem based on competing risks. Journal of EngineeringResearch, 2017, 5(3): 150-161.  

[87]Wang Minlong, Liu Xintian*, Wang Xiaolan, Wang Yansong. Fatiguetest analysis of automotive key parts based on censored data andsmall sample setting. Quality and Reliability EngineeringInternational, 2017, 33(5): 1031-1043. 

[88] LiuXintian, Zheng Songlin, Chen Tie, Feng Jinzhi. Durability LifePrediction of a reducersystembasedon low-amplitudeloadstrengtheningand damage. Journalof The Chinese Society of Mechanical Engineers, 2017, 38(1):81-91. 

[89]Tong Jiachi, Liu Xintian*, Wang Xiaolan, Wang Yansong, Guo Hui.Lightweight designof the aluminumwheelhubbasedon reliability.Journal of The Chinese Society of Mechanical Engineers, 2017, 38(1):73-79.

[90] WangMinlong, Liu Xintian*, Wang Yansong, Wang Xiaolan, Guo Hui, XingYanfeng. Research on assembly tolerance allocation and qualitycontrol based on fuzzy reliability. Proceedings of the IMechE, PartC: Journal of Mechanical Engineering Science, 2016, 230(20):3755-3766. 

[91] LiuXintian*, Zheng Songlin, Chen Tie, Feng Jinzhi. Research on thedurabilitytestof hubreducersystembased on lowloadstrengthening.Journalof University of Shanghai for Science and Technology,2016, 38(1): 31-37.(In Chinese）

[92] LiuXintian, Qi Hongzhong, Wang Xiaolan, Wang Yansong, Li Chuanchuang,Wang Minlong. Reliability analysis and evaluation of differentialsystem based on low load strengthening model. Quality and ReliabilityEngineering International, 2016, 32(2):647-662.

[93]Chen Tie, Zheng Songlin, Luo Hongwei, Liu Xintian, FengJinzhi. Reliability analysisof multiplecausesof failurein presenceof independentcompetingrisks.Quality and Reliability Engineering International, 2016, 32(2):363-372.

[94] LiuXintian, Zheng Songlin, Chen Tie, Liang Guoqing, Feng Jinzhi, NingXin. Durability testingmethodof a hubreducersystembasedon the shanghaistandardroaddrivingcycle. Journalof Testing and Evaluation, 2016, 44(1): 665-678.

[95] LiuXintian, Zheng Songlin, Feng Jinzhi, Chen Tie. Reliabilityreallocationfor fuelcellvehiclesbasedon geneticalgorithm.Quality and Reliability Engineering International, 2015, 31(8):1495-1502.

[96]Wang Minlong, Liu Xintian*, Wang Yansong, Luo Jiao. Reliabilityanalysis and evaluation of key parts for automobiles on the basis ofdimensional changes during high-speed operation. Journal of Testingand Evaluation, 2015, 43(6): 1464-1471.  

[97] LiuXintian*, Wang Minlong, Wang Xiaolan, Li Chuanchang, Guo Hui, LuoJiao. Hardpoints correlationanalysisand optimaldesignfor frontsuspensionof formulaSAE car. AustralianJournal of Mechanical Engineering, 2015, 13(2): 67-76.

[98] ChenTie，ZhengSonglin，LiuXintian，FengJinzhi. Statisticalcorrelationanalysison the multiplefailuremodesof a fuelcellenginebasedon competingrisks. AutomotiveEngineering,2015, 37(3): 266-270. (InChinese)

[99]ChenTie，ZhengSonglin，LiuXintian，FengJinzhi. Reliabilityallocationoptimizationfor fuelcellcarsbasedon failureratevariation. AutomotiveEngineering,2015, 37(1): 16-20. (InChinese)

[100] LiuXintian*, 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.

[101] LiuXintian*, Zheng Songlin, Chen Tie, Feng Jinzhi. Reliabilityanalysis of key parts for differential system. Energy EducationScience and Technology Part A: Energy Science and Research. 2014,32(1): 167-172.

[102] TieChen, Songlin Zheng, Xintian Liu, Jinzhi Feng. Statisticalreliability analysis for fuel cell vehicle based on field test data.International Journal of Reliability, Quality and Safety Engineering,2014, 21(3): 1450013-1~18.

[103] LiuXintian*, Wang Yansong, Zhao Lihui, Xing Yanfeng, Luo Jiao. Theanalysis of structural strength of welded energy-saving UD clutch Hubassembly based on the experiment. Energy Education Science andTechnology Part A: Energy Science and Research. 2013, 31(2): 755-760.

[104]Wang Yansong, Ma Qihua, Zhu Qiang, Liu Xintian, Zhao Lihui. Anintelligent approach for engine fault diagnosis based onHilbert-Huang transform and support vector machine. AppliedAcoustics, 2013, 75(1): 1-9. 

[105] LiuXintian*, Cao Yun, Wang Yansong, Zhao Lihui, Xing Yanfeng. Theanalysis of weld and static torque strength on OD sun gear assembly.Energy Education Science and Technology Part A: Energy Science andResearch. 2012, 30(4): 513-520.

[106]ChuJun,ZhengSonglin,FengJinzhi,LiuXintian.Cumulative strengtheningeffectmodelbasedon the low-amplitudetrainingload. Journalof Mechanical Engineering, 2011, 47(16):30-34.(In Chinese)

[107]ChuJun,Zheng Songlin, Feng Jinzhi, Liu Xintian. A model of cumulativefatigue strengthening effect due to coaxing. Fatigue& Fracture of Engineering Materials & Structures,2011, 35: 433-440.

[108].LiuXintian,Wang Shuci,Zhang Haipeng,You Ziyun.Acalculation method of fatigue life foraluminumalloy based on fast coefficient.China National Intellectual Property Administration,ZL202010031037.6(Invention patent)

[109]LiuXintian,Wang Haijie,Wu Que. Amethod for evaluating the variability of statistical values, 2022.03,China National Intellectual Property Administration,ZL201811231417.3(Invention patent)

[110] LiuXintian,YuXueguang,WangXu,JiangChangjie.A method for predicting fatigue strength degradation of metalmaterials. 2022.02,ChinaNational Intellectual Property Administration,ZL201911095772.7(Invention patent)

[111]Liu Wei, Qi Hongzhong, LiuXintian.Energydistribution control method of incremental electric vehicle.2020.10,China National Intellectual Property Administration, ZL201710770365.6(Invention patent)

[112]Shang Zhuangzhuang, LiuXintian,Qi Hongzhong.Ashared bicycle surround self-service vehicle system.2020.09,China National Intellectual Property Administration, ZL201710526837.3(Invention patent)

[113]LiuXintian,Shang Wenqian, Li Shuangshuang. Amethod of compiling strain load spectrum considering energy.2020.08,China National Intellectual Property Administration, ZL201910341073.X(Invention patent)

[114]LiuXintian,Qu Yang, Zhang Minghui.Atranslational conveying synchronous lifting mechanism.2019.10,China National Intellectual Property Administration, ZL201810500830.9(Invention patent)

[115]LiuXintian,Geng Shuanglong, Liang Zhiqiang. Areciprocating translation lifting mechanism for battery replacement.2019.08,China National Intellectual Property Administration, ZL201810501406.6(Invention patent)

[116]DongQichao, LiuXintian,Qi Hongzhong. Anoise reduction and anti-vibrationsystem for motor cooling fan for automobile.2019.07,China National Intellectual Property Administration, ZL201710516615.3(Invention patent)

[117]ZhengSonglin, LiuXintian,Ning Xin, Chen Tie, Feng Jinzhi. Loadconversion method reference to material hysteresis effect.2018.07.06,China National Intellectual Property Administration, ZL201510494628.6(Invention patent)

[118]Zheng Songlin, Ning Xin, Liu Xintian, Feng Jinzhi, Gao Dawei, et al.Design method of strength matching for deceleration system.2017.08.01, China National Intellectual Property Administration,ZL201410698163.1 (Invention patent)

联系方式Contactdetails:xintianster@sues.edu.cn;xintianster@gmail.com

Phone:8613918658653; 021-67791430