13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- 29, Issues 9–11, September–November 2007, Pages 2072-2078 P.C. Paris, H. Tada, J.K. Donald.Service load fatigue damage – a historical perspective.Int. J. Fatigue, 21 (1999), pp. 35–46 [13] HE Chao, TIAN Ren-hui, WANG Qing-yuan, Study on ultra-long-life fatigue properties of welded joints under high-frequency loading, China Measurement & Test,Volume 38, Issues 3, May2012, Pages 20-26 [14] Danqing Yin, Dongpo Wang, Hongyang Jing, Lixing Huo, The effects of ultrasonic peening treatment on the ultra-long life fatigue behavior of welded joints, Materials & Design, Volume 31, Issue 7, August 2010, Pages 3299-3307 [15] Xue Hongqian. The design of specimen forfatigue test at ultrasonic frequency [J]. acta aeronautica ET Sstronautica Sinica, Volume 25, Issue 4, August 2004, Pages 425-428 [16] K. Shiozawa, Y. Morii, S. Nishino, L. Lu, Subsurface crack initiation and propagation mechanism in high-strength steel in a very high cycle fatigue regime, International Journal of Fatigue, Volume 28, Issue 11, November 2006, Pages 1521-1532 [17] Claude Bathias, Paul C. Paris, Gigacycle fatigue of metallic aircraft components, International Journal of Fatigue, Volume 32, Issue 6, June 2010, Pages 894-897, ISSN 0142-1123 [18] N. Ranc, D. Wagner, P.C. Paris, Study of thermal effects associated with crack propagation during very high cycle fatigue tests, Acta Materialia, Volume 56, Issue 15, September 2008, Pages 4012-4021
RkJQdWJsaXNoZXIy MjM0NDE=