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Philosophical Magazine A Volume 57, 1988 - Issue 1
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Original Articles

Short and long fatigue crack growth: A unified model

A. Navarro Departamento de Ingeniería Mecánica, E.T.S.I.I., University of Seville, Spain; Department of Mechanical Engineering, University of Sheffield, England
&
E. R. de los Rios Department of Mechanical Engineering, University of Sheffield, England
Pages 15-36 | Received 15 Apr 1987, Accepted 18 May 1987, Published online: 20 Aug 2006

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Qi Zhao, Zhiyi Liu, Yangcheng Hu, Fudong Li, Cheng Luo & Shasha Li. (2019) Texture effect on fatigue crack propagation in aluminium alloys: an overview. Materials Science and Technology 35:15, pages 1789-1802.
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G. V. Prasad Reddy, R. Sandhya, K. Laha, C. Depres, C. Robertson & A. K. Bhaduri. (2017) The effect of the location of stage-I fatigue crack across the persistent slip band on its growth rate – A 3D dislocation dynamics study. Philosophical Magazine 97:16, pages 1265-1280.
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C. Déprés, G.V. Prasad Reddy, C. Robertson & M. Fivel. (2014) An extensive 3D dislocation dynamics investigation of stage-I fatigue crack propagation. Philosophical Magazine 94:36, pages 4115-4137.
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Ulrich Krupp, Wilhelm Floer, Jiafeng Lei, Yunming Hu, Hans-Jürgen Christ, Alexander Schick & Claus-Peter Fritzen. (2002) Mechanisms of short-fatigue-crack initiation and propagation in a β-Ti alloy. Philosophical Magazine A 82:17-18, pages 3321-3332.
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AngusJ. Wilkinson. (2001) Modelling the effects of texture on the statistics of stage I fatigue crack growth. Philosophical Magazine A 81:4, pages 841-855.
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M.D. Halliday, P. Poole & P. Bowen. (1999) New perspective on slip band decohesion as unifying fracture event during fatigue crack growth in both small and long cracks. Materials Science and Technology 15:4, pages 382-390.
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Zoran Ren, Srecko Glodez & Joze Flasker. (1999) Influence of inclusion interfaces on surface pitting. Technology, Law and Insurance 4:1-2, pages 137-144.
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Youshi Hong, Ziyan Gu, Biao Fang & Yilong Bai. (1997) Collective evolution characteristics and computer simulation of short fatigue cracks. Philosophical Magazine A 75:6, pages 1517-1531.
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D. Knauss, D. D. Bennink, J. W. Martin, G. A. D. Briggs & T. Zhai. (1993) Three-dimensional measurement of short fatigue cracks using scanning acoustic microscopy. Materials Science and Technology 9:12, pages 1086-1093.
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