applied fracture mechanics

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Fracture Mechanics Analysis ofFretting Fatigue Considering Small Crack Effects, Mixed Mode, and Mean Stress Effect 1954. Crack propagation data in stage I, such as inclined angles and the boundary depth fromstages I to II, were obtained under various test conditions, which is expected to beclarified quantitatively by analyzing mixed mode effects .Author detailsKunio AsaiHitachi Research Laboratory/Hitachi, Ltd., Japan6. ReferencesAsai, K. (2010). Fretting fatigue strength of 12% Cr steel under high local contact pressureand its fracture mechanics analysis. Schience Direct, Procedia Engineering, Vol. 2, pp. 475-484ASME section XI appendix A-3000. (2001). Method for KI determination, pp. 372-373Attia, M. H. (2005). Prediction of fretting fatigue behavior of metals using a fracturemechanics approach with special consideration to the contact problem. Journal ofTribology, Vol. 127, pp. 685-6930Bold, P. E., Brown, M. W., & Allen, R. J. (1992). A review of fatigue crack growth in steelsunder mixed mode I and II loading. Fatigue Fracture Engineering Materials Structure, Vol.15, No. 10, pp. 965-977Dubourg, M. C., & Lamacq, V. (2000), Stage II crack propagation direction determinationunder fretting fatigue loading: A new approach in accordance with experimentalobservations. ASTM STP 1367, pp. 436-450Edwards, P. R. (1984), Fracture mechanics application to fretting in joints. Advances inFracture research, Pergamon Press, pp. 3813-3836El Haddad, M. H., Smith, K. N., & Topper, T. H. (1979). Fatigue crack propagation of shortcracks. Transactions of the ASME, Vol. 101, pp. 42-46Faanes, S. (1995). Inclined cracks in fretting fatigue. Engineering Fracture Mechanics, Vol. 52,No. 1, pp. 71-82Hannes, D., & Alfredsson, B. (2012). A fracture mechanical life prediction method for rollingcontact fatigue based on the asperity point load mechanism. Engineering FractureMechanics, Vol. 83, pp. 62-74Kondo, Y., Sakae, C., Kubota, M., Nagasue, T., & Sato, S. (2004). Fretting fatigue limit as ashort crack problem at the edge of contact. Fatigue Fracture Engineering MaterialsStructure, Vol. 27, pp. 361-368Lamacq, V., Dubourg, M. C., & Vincent, L. (1996). Crack path prediction under frettingfatigue- A theoretical and experimental approach. Journal of Tribology, Vol. 118, pp. 711-720Makino, T., Yamamoto, M., & Hirakawa, K. (2000), Fracture mechanics approach to thefretting fatigue strength of axle assemblies. ASTM STP 1367, pp. 509-522Murakami, Y., & Endo, M. (1986). Effects of hardness and crack geometry on ΔKth of smallcracks. Journal of the Society of Materials Science, Japan, Vol. 35, No. 395, pp. 911-917
196Applied Fracture MechanicsMurakami, Y., Fukuhara, T., & Hamada, S. (2002). Measurement of Mode II threshold stressintensity factor range KIIth, Journal of the Society of Materials Science, Japan, Vo. 51, No. 8,pp. 918-925Mutoh, Y. (1997). Fracture mechanics of fretting fatigue. Journal of the Society of MaterialsScience, Japan, Vol. 46, No. 11, pp. 1233-1241Mutoh, Y., & Xu, J.-Q. (2003). Fracture mechanics approach to fretting fatigue and problemsto be solved. Tribology International, Vol. 36, pp. 99-107Nicholas, T., Hutson, A., John, R., & Olson, S. (2003). A fracture mechanics methodologyassessment for fretting fatigue. International Journal of Fatigue, Vol. 25, pp. 1069-1077Pook, L. P. (1985). A failure mechanism map for mixed mode I and II fatigue crack growththresholds. International Journal of Fracture, Vol. 28, pp. 21-23Qian, J., & Fatemi, A. (1996). Mixed mode fatigue crack growth: A literature survey.Engineering Fracture Mechanics, Vol. 55, No. 6, pp. 969-990.Raju, IS. & Newman, JC. (1981). An empirical stress intensity factor equation for the surfacecrack. Engineering Fracture Mechanics, Vol. 15, pp. 185-192Tanaka, K. (1974). Fatigue crack propagation from a crack inclined to the cyclic tensile axis.Engineering Fracture Mechanics, Vol. 6, No. 3, pp. 493-507Usami, S., & Shida, S. (1979). Elastic-plastic analysis of the fatigue limit for a material withsmall flaws. Fatigue of engineering materials and structures, Vol. 1, No. 4, pp. 471-481.Zhang, H., & Fatemi, A. (2010). Short fatigue crack growth behavior under mixed-modeloading. International Journal of Fracture, Vol. 165, pp. 1-19
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PrefaceKnowledge accumulated in the
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Section 1Computational Methods of F
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Chapter 4Fracture of Dental Materia
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Fracture Mechanics Based Models of
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Chapter 9Methodology for Pressurize
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Methodology for Pressurized Thermal
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Figure 8. Section of the RPVMethodo
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