Detail fatigue rating method based on bimodal Weibull distribution for DED Ti-6.5Al-2Zr-1Mo-1V titanium alloy 被引量：3

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摘要 Previous studies have shown that the fatigue life distribution of metal materials fabricated with Additive Manufacturing(AM) methods, such as Direct Energy Deposited(DED) Ti-6.5Al-2Zr-1Mo-1V alloys, exhibits two peaks. To promote the application of AM in aerospace and other engineering fields, developing a fatigue strength evaluation method suitable for AM materials based on their unique fatigue behaviours and fatigue life distributions is necessary. In this paper, a novel Detail Fatigue Rating(DFR) method was developed to evaluate the fatigue strength of DED Ti-6.5Al-2Zr-1Mo-1V based on a bimodal Weibull distribution and the excessive restriction on the allowable stress of potential was improved. Meanwhile, a Bimodal Weibull distribution model for fatigue life and its parameter estimation method were established based on a twoparameter Weibull distribution. The fatigue life at a specific reliability level and confidence level was calculated by using the bootstrap method. The calculation results showed that fatigue life estimated by using the bimodal Weibull distribution at the high reliability level and high confidence level is higher than that estimated by using the two-parameter Weibull distribution. Furthermore,The S-N curve at the specified confidence level and reliability level was fitted.

作者 Tianshuai WANG Xiaofan HE Jinyu WANG Yuhai LI

机构地区 School of Aeronautic Science and Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2022年第4期281-291,共11页 中国航空学报（英文版）

基金 the support from the National Key Research and Development Program of China(No.2017YFB1104003) National Natural Science Foundation of China(No.11772027) Aeronautical Science Foundation of China(No.201909051002)。

关键词 Bimodal weibull distribution Detail fatigue rating method Directed energy deposition Distribution parameter estimation Fatigue reliability

分类号 V215.5 [航空宇航科学与技术—航空宇航推进理论与工程] V252.2 [一般工业技术—材料科学与工程]

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参考文献2

1Xiawei YANG,Yanying WANG,Xiurong DONG,Chong PENG,Baijin JI,Yaxin XU,Wenya LI.Hot deformation behavior and microstructure evolution of the laser solid formed TC4 titanium alloy[J].Chinese Journal of Aeronautics,2021,34(5):163-182. 被引量：6
2YAN Chuliang,LIU Kege.Theory of Economic Life Prediction and Reliability Assessment of Aircraft Structures[J].Chinese Journal of Aeronautics,2011,24(2):164-170. 被引量：36

二级参考文献31

1Hong BIAN,Yanyu SONG,Duo LIU,Yuzhen LEI,Xiaoguo SONG,Jian CAO.Joining of SiO2 ceramic and TC4 alloy by nanoparticles modified brazing filler metal[J].Chinese Journal of Aeronautics,2020,33(1):383-390. 被引量：11
2Gao Z T, Xiong J J. Fatigue reliability. Beijing: Beihang University Press, 2000.
3Pook L. Metal fatigue. Netherlands: Springer, 2007.
4Stephens R I, Fatemi A, Stephens R R. Metal fatigue in engineering. 2nd ed. New York: Wiley Interscience, 2001.
5Tong Y C. Literature review on aircraft structural risk and reliability analysis. DSTO-TR-1110. Melbourn, Australia: Aeronautical and Maritime Research Labo- ratory Defence Science and Technology Organisation, 2001.
6Grooteman F. A stochastic approach to determine life-time and inspection schemes or aircraft components. International Journal of Fatigue 2008; 30(1): 138-149.
7Nesterenko G I, Nesterenko B G.Ensuring structural damage tolerance of Russian aircraft. International Journal of Fatigue 2009; 31(6): 1054-1061.
8Boiler C, Ihn J B, Staszewski W J, et al. Design principles and inspection techniques for long life endurance of aircraft structures. The 3rd International Workshop on Structural Health Monitoring. 2001.
9Chinese Academy of Aeronautics Science and Technology. Handbook of reliability analysis of aircraft. Xi'an: Northwestern Polytechnical University Press, 1995.
10Birolini A. Reliability engineering: theory and practice. 5th ed. Berlin: Springer, 2007.

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1田兆锋,闫楚良.Web方式下飞机飞行实测数据可视化方法[J].振动．测试与诊断,2011,31(6):738-741. 被引量：4
2周福强,张书明,闫楚良.某型轰炸机座椅振动舒适性分析[J].振动．测试与诊断,2011,31(6):759-762. 被引量：12
3闫楚良,刘克格.飞机结构经济寿命可靠性设计与评定[J].振动．测试与诊断,2012,32(3):355-363. 被引量：15
4刘彦鹏,闫楚良,刘克格.飞机腹鳍载荷标定真空加载试验系统设计及实现[J].科学技术与工程,2012,20(24):6096-6101. 被引量：1
5ZHANG Yong,QIU Jing,LIU Guanjun,YANG Peng.A Fault Sample Simulation Approach for Virtual Testability Demonstration Test[J].Chinese Journal of Aeronautics,2012,25(4):598-604. 被引量：3
6焦鑫.飞机下降和进近中的安全管理[J].中国科技博览,2012(30):345-345.
7闫光,范舟,李钟海,程小全,刘克格,左春柽.复合材料加口盖柱壳的设计与分析[J].吉林大学学报（工学版）,2012,42(6):1437-1441. 被引量：1
8韩小进,孙慧玉,闫光,阎楚良.三维五向编织复合材料渐进损伤分析的数值方法[J].复合材料学报,2012,29(6):219-224. 被引量：7
9ZHAO Changxiao CHEN Yao WANG Hailiang XIONG Huagang.Reliability Analysis of Aircraft Condition Monitoring Network Using an Enhanced BDD Algorithm[J].Chinese Journal of Aeronautics,2012,25(6):925-930. 被引量：4
10杨德真,任羿,王自力,肖静.基于公理设计的产品可靠性要求实现方法[J].北京航空航天大学学报,2014,40(1):63-68. 被引量：2

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1杨智春,贾有.动载荷识别方法的研究进展[J].力学学报,2015,47(2):384-384. 被引量：7
2卢天健,何德坪,陈常青,赵长颖,方岱宁,王晓林.超轻多孔金属材料的多功能特性及应用[J].力学进展,2006,36(4):517-535. 被引量：247
3杜善义.先进复合材料与航空航天[J].复合材料学报,2007,24(1):1-12. 被引量：998
4Xu Guo·Geng-Dong Cheng State Key Laboratory of Structural Analysis for Industrial Equipment,Department of Engineering Mechanics,Dalian University of Technology, Dalian 116023,China.Recent development in structural design and optimization[J].Acta Mechanica Sinica,2010,26(6):807-823. 被引量：47
5吴林志,熊健,马力,王兵,泮世东,刘海涛.轻质夹层多功能结构一体化设计[J].力学与实践,2012,34(4):8-18. 被引量：12
6Geng-Dong Cheng,Yuan-Wu Cai,Liang Xu.Novel implementation of homogenization method to predict effective properties of periodic materials[J].Acta Mechanica Sinica,2013,29(4):550-556. 被引量：44
7卢秉恒,李涤尘.增材制造(3D打印)技术发展[J].机械制造与自动化,2013,42(4):1-4. 被引量：866
8黄道琼,王振,杜大华.大推力液体火箭发动机中的动力学问题[J].中国科学：物理学、力学、天文学,2019,49(2):19-30. 被引量：13
9Xiaofan HE,Tianshuai WANG,Xiaobo WANG,Weigang ZHAN,Yuhai LI.Fatigue behavior of direct laser deposited Ti-6.5Al-2Zr-1Mo-1V titanium alloy and its life distribution model[J].Chinese Journal of Aeronautics,2018,31(11):2124-2135. 被引量：6
10刘士杰,梁国柱.航天飞机主发动机高压燃料涡轮泵的故障模式[J].航空动力学报,2015,30(3):611-626. 被引量：15

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2杜大华,李斌.液体火箭发动机结构动力学设计关键技术综述[J].航空学报,2023,44(10):32-48. 被引量：4
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2谭永华,赵剑,张武昆,王珺,高玉闪.融合增材制造的液体火箭发动机创新设计方法与应用[J].火箭推进,2023,49(4):1-16. 被引量：1
3冯森,崔承云,陈璐,崔熙贵.光固化3D打印平板晶格结构的压缩性能[J].塑料工业,2023,51(8):138-146.
4於之杰,徐碧涵,王向盈,孙启星,王艳飞.航空增材制造技术中的跨尺度力学研究进展[J].航空材料学报,2023,43(5):1-9. 被引量：1
5谢仁古丽·麦提图尔荪,乌日开西·艾依提,贾儒.3D打印TPU点阵结构的力学性能分析[J].塑料,2023,52(6):147-151.
6杨旭东,周俊,焦自贤,徐鑫,谢屹.增材制造技术在空间推进领域的应用[J].中国航天,2023(11):80-87. 被引量：1
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8杜大华,李斌.液体火箭主发动机结构动力学关键问题研究综述[J].推进技术,2024,45(2):1-16.
9彭成宽,祁俊峰,邵珩.选区激光熔化三维点阵结构尺寸效应研究进展[J].中国空间科学技术（中英文）,2024,44(2):16-29.
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