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朱顺鹏
Personal information
Professor Supervisor of Doctorate Candidates
Name (Simplified Chinese):
朱顺鹏
Name (Pinyin):
zhushunpeng
E-Mail:
zspeng2007@uestc.edu.cn
Date of Employment:
2012-01-01
Education Level:
With Certificate of Graduation for Doctorate Study
Gender:
Male
Degree:
Doctor of Engineering
Status:
On the job
Honors and Titles:
入选Elsevier中国高被引学者榜单(2018年)
入选省学术和技术带头人后备人选(2018年)
意大利米兰理工大学特聘研究员(PIF Fellow)(2016年)
第二届“上银优秀机械博士论文奖”(2012年)
Discipline:
Mechanical Engineering Mechanical Design and Theory
More +
Current position:
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Paper Publications
[1] Z.Y. Yu , J. Zhou , Q. Liu , S.P. Zhu , et al , J. Zhou , Q. Liu , and S.P. Zhu , Fatigue reliability assessment of turbine discs under multi-source uncertainties,
Fatigue & Fracture of Engineering Materials & Structures
, vol. in press, Jan 2018.
[2] Q.Y. Wang , Q. Lei , Q. Liu , S.P. Zhu , et al , Q. Lei , Q. Liu , and S.P. Zhu , Probabilistic fatigue life prediction and reliability assessment of a high pressure turbine disc considering load variations,
International Journal of Damage Mechanics
, vol. in press, Jan 2018.
[3] Z.Y. Yu , Q. Liu , Y. Liu , S.P. Zhu , et al , Q. Liu , Y. Liu , and S.P. Zhu , Strain energy gradient-based LCF life prediction of turbine discs using critical distance concept,
International Journal of Fatigue
, vol. 113, pp. 33-42,
[4] F. Berto , A. De Jesus , J. Correia , Z.Y. Yu , S.P. Zhu , et al , J. Correia , Z.Y. Yu , and S.P. Zhu , Evaluation and comparison of critical plane criteria for multiaxial fatigue analysis of ductile and brittle materials,
International Journal of Fatigue
, vol. 112, pp. 279-288,
[5] Q.Y. Wang , A.D. Jesus , S. Blasón , J. Correia , P. Yue , S.P. Zhu , et al , J. Correia , P. Yue , and S.P. Zhu , Strain energy-based fatigue life prediction under variable amplitude loadings,
Structural Engineering and Mechanics
, vol. 66, no. 2, pp. 151-160, Apr 2018.
[6] R. Ding , Z.Y. Yu , S.P. Zhu , Q. Liu , et al , Z.Y. Yu , S.P. Zhu , and Q. Liu , A coupled thermal-drop impact analysis-based safety assessment of radioactive material cask,
International Journal of Structural Integrity
, vol. 9, no. 2, pp. 185-195, Jan 2018.
[7] S. Beretta , S. Foletti , S.P. Zhu , S. Beretta , S. Foletti , and S.P. Zhu , [3] S.P. Zhu, S. Foletti, S. Beretta. Probabilistic framework for multiaxial LCF assessment under material variability. International Journal of Fatigue, 2017, 103: 371-385.,
International Journal of Fatigue
, vol. 103, pp. 371-385, Oct 2017.
[8] W. Peng , Y.J. Yang , H.Z. Huang , Q. Lei , S.P. Zhu , et al , H.Z. Huang , Q. Lei , and S.P. Zhu , Mean stress effect correction in strain energy-based fatigue life prediction of metals,
International Journal of Damage Mechanics
, vol. 26, no. 8, pp. 1219-1241, Dec 2017.
[9] H.K. Wang , Z. Lv , H.Z. Huang , Y.J. Yang , S.P. Zhu , et al , H.Z. Huang , Y.J. Yang , and S.P. Zhu , A unified criterion for fatigue-creep life prediction of high temperature components,
Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering
, vol. 231, no. 4, pp. 677-688, Feb 2017.
[10] Q.Y. Wang , Q. Lei , S.P. Zhu , Q.Y. Wang , Q. Lei , and S.P. Zhu , Mean stress and ratcheting corrections in fatigue life prediction of metals,
Fatigue & Fracture of Engineering Materials & Structures
, vol. 40, no. 9, pp. 1343-1354, Sep 2017.
[11] Y. Liu , Q. Liu , S.P. Zhu , Z.Y. Yu , et al , Q. Liu , S.P. Zhu , and Z.Y. Yu , Multiaxial fatigue damage parameter and life prediction without any additional material constants,
Materials
, vol. 10, no. 8, pp. 923, Aug 2017.
[12] Y. Liu , Q. Liu , S.P. Zhu , Z.Y. Yu , et al , Q. Liu , S.P. Zhu , and Z.Y. Yu , A new energy-critical plane damage parameter for multiaxial fatigue life prediction of turbine blades,
Materials
, vol. 10, no. 5, pp. 513, May 2017.
[13] Z. Huang , Y. Liu , C. Jiang , X. Zhang , S.P. Zhu , et al , C. Jiang , X. Zhang , and S.P. Zhu , Physics-of-Failure-based reliability and life prediction for critical components,
Advances in Mechanical Engineering
, vol. 9, no. 10, pp. 1-3, Oct 2017.
[14] Q.Y. Wang , Z.Y. Yu , P. Yue , S.P. Zhu , et al , Z.Y. Yu , P. Yue , and S.P. Zhu , A combined high and low cycle fatigue model for life prediction of turbine blades,
Materials
, vol. 10, no. 7, pp. 698, Jul 2017.
[15] S. Mahadevan , H.K. Wang , W. Peng , H.Z. Huang , S.P. Zhu , et al , W. Peng , H.Z. Huang , and S.P. Zhu , Probabilistic Physics of Failure-based framework for fatigue life prediction of aircraft gas turbine discs under uncertainty,
Reliability Engineering & System Safety
, vol. 146, pp. 1-12, Feb 2016.
[16] Y. Yang , Y. Liu , Y. Li , H.Z. Huang , S.P. Zhu , et al , Y. Li , H.Z. Huang , and S.P. Zhu , Probabilistic modeling of damage accumulation for time-dependent fatigue reliability analysis of railway axle steels,
Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit
, vol. 229, no. 1, pp. 23-33, Jan 2015.
[17] M. Modarres , L.P. He , V. Ontiveros , R. Smith , H.Z. Huang , S.P. Zhu , et al , R. Smith , H.Z. Huang , and S.P. Zhu , Bayesian framework for probabilistic low cycle fatigue life prediction and uncertainty modeling of aircraft turbine disk alloys,
Probabilistic Engineering Mechanics
, vol. 34, pp. 114-122, Jan 2013.
[18] L.P. He , R. Yuan , Y. Liu , H.Z. Huang , S.P. Zhu , et al , Y. Liu , H.Z. Huang , and S.P. Zhu , An efficient life prediction methodology for low cycle fatigue-creep based on ductility exhaustion theory,
International Journal of Damage Mechanics
, vol. 22, no. 4, pp. 556-571, Apr 2013.
[19] L. He , Y. Li , H.Z. Huang , S.P. Zhu , et al , Y. Li , H.Z. Huang , and S.P. Zhu , A novel viscosity-based model for low cycle fatigue-creep life prediction of high-temperature structures,
International Journal of Damage Mechanics
, vol. 21, no. 7, pp. 1076-1099, Oct 2012.
[20] Z.L. Wang , Y. Liu , L. He , H.Z. Huang , S.P. Zhu , et al , L. He , H.Z. Huang , and S.P. Zhu , A generalized energy-based fatigue-creep damage parameter for life prediction of turbine disk alloys,
Engineering Fracture Mechanics
, vol. 90, pp. 89-100, Jan 2012.
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