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Modeling of Multiple Cracking Under the Conditions of Thermomechanical Fatigue

  • Published:2016-05 Issue:6 Volume:51 Page:765-772
  • ISSN:1068-820X
  • Container-title:Materials Science
  • language:en
  • Short-container-title:Mater Sci

Author:

Sulym H. T.,Yasnii O. P.,Pasternak Ya. M.

Publisher

Springer Science and Business Media LLC

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference27 articles.

1. M. Mansoor, I. Islam, and A. Tauqir, “Restricted life of after burner manifold assemblies due to stress raisers,” Eng. Fail. Anal., 14, 1280–1285 (2007).

2. L. Rémy, M. Geuffrard, A. Alam, et al., “Effects of microstructure in high temperature fatigue: Lifetime to crack initiation of a single crystal superalloy in high temperature low cycle fatigue,” Int. J. Fatigue, Fatigue and Microstructure: A Special Issue on Recent Advances, 57, 37–49 (2013).

3. L. Rémy, A. Alam, N. Haddar, et al., “Growth of small cracks and prediction of lifetime in high-temperature alloys,” Mater. Sci. Eng., Ser. A, The McEvily Symp.: Fatigue and Fracture of Traditional and Advanced Materials (TMS 2006), 468–470, 40–50 (2007).

4. X. W. Liu and W. J. Plumbridge, “Damage produced in solder alloys during thermal cycling,” J. Electron. Mater., 36, 1111–1120 (2007).

5. R. L. J. M. Ubachs, P. J. G. Schreurs, and M. G. D. Geers, “Elasto-viscoplastic nonlocal damage modeling of thermal fatigue in anisotropic lead-free solder,” Mech. Mater., 39, 685–701 (2007).
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