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Quantitative evaluation of fatigue strength of metals containing various small defects or cracks

Engineering fracture mechanics, v.17 no.1, 1983년, pp.1 - 15  

Yukitaka, M. ,  Masahiro, E.

Abstract AI-Helper 아이콘AI-Helper

A geometrical parameter which controls the fatigue strength of materials containing small defects is proposed considering the fact that the fatigue limit is not the critical condition under which no crack appears but the threshold condition where cracks emanating from defects cease to propagate. The...

참고문헌 (32)

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  2. Murakami 431 1981 Proc. Int. Conf. Fatigue '81, Materials Experimentation and Design, Warwick Universitv The effects of small defects on the fatigue strength of hard steels 

  3. Prepr. of Japan Soc. Mech. Engrs. Murakami No. 790-799 55 1979 

  4. Trans. Japan Soc. Mech. Engrs Murakami 47 249 1981 10.1299/kikaia.47.249 The torsional fatigue strength of annealed 0.46% carbon steel specimens with micro-hole the diameter of which is from 40 to 500 μm (comparison with bending fatigue strength) 

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  5. J. Soc. Mater. Sci. Japan Murakami 29 988 1980 10.2472/jsms.29.988 Effect of artificial small defects on fatigue strength of metals 

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  6. Japan Soc. Streng. Fract. Mater. Kawada 6 1 1971 A review of the effect of nonmetallic inclusions on the fatigue strength of solids 

  7. Bull. Japan Inst. Met. Narita 1 121 1962 10.2320/materia1962.1.121 

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  8. J. Iron Steel Inst. Allmand 190 359 1958 A review of methods for assessing non-metallic inclusions in steel 

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  12. Morikitashuppan Nishida 1967 Stress concentration 

  13. Cummings 58 505 1958 Tentative fatigue strength reduction factors for solicate-type inclusions in high-strength steels 

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  15. J. Met. Ramsey 401 1957 Plot fatigue study of an aircraft steel in the ultra high strength range 

  16. Hyler 58 540 1958 Distribution of fatigue failures in flat hardened steel test bars 

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  19. Trans. Japan Soc. Mech. Engrs Kawada 29 206 1674 1963 10.1299/kikai1938.29.1674 The effects of the shapes and the distributions of inclusions on the fatigue strength of bearing steels in rotary bending 

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  20. Iron Steel Inst. Sp. Rep. Uhrus 77 104 1963 Through-hardening steels for ball bearings-effect of inclusions on endurance 

  21. Kitagawa 627 1976 Proc. 2nd Int. Conf. Mech. Behav. Mater. Applicability of fracture mechanics to very small cracks or the cracks in the early stage 

  22. Trans. Japan Soc. Mech. Engrs. Kitagawa 45 1289 1979 10.1299/kikaia.45.1289 Fracture mechanical approach to very small fatigue crack growth and to the threshold condition 

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  23. J. Soc. Mater. Sci. Japan Kobayashi 27 859 1978 10.2472/jsms.27.859 Initial stage of fatigue cracking in pure titanium under bending and torsion 

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  25. Int. J. Fracture Mastrojannis 15 247 1979 10.1007/BF00033223 Stress intensity factor for a plane crack under normal pressure 

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  26. Engng Fracture Mech. Murakami 1981 

  27. Trans. Japan Soc. Mech. Engrs Nisitani 34 371 1968 10.1299/kikai1938.34.371 Size effects of branch point and fatigue limit of carbon steel in rotary bending fatigue 

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  28. Yokendo Isibasi 1967 Prevention of fatigue and fracture of metals 

  29. Prepr. Japan Soc. Mech. Engrs Murakami No. 810-811 41 1981 Stress concentration analysis of an axisymmetrical surface pit in a semi-infinite body under biaxial tension 

  30. Trans. Japan Soc. Mech. Engrs Nisitani 37 1492 1971 10.1299/kikai1938.37.1492 Correlation between the fatigue limit of a material with defects and its non-propagating crack: some considerations based on the bending or torsional fatigue of the specimen with a diametrical hole 

    상세보기 crossref

  31. Trans. Japan Soc. Mech. Engrs Kikukawa 47 468 1981 10.1299/kikaia.47.468 An estimation method of fatigue crack propagation rate under varying loading conditions of low stress intensity level 

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  32. Trans. Japan Soc. Mech. Engrs Nisitani 40 3254 1974 10.1299/kikai1938.40.3254 Successive observations of fatigue process in carbon steel, 7:3 brass and Al-alloy by electron microscope 

    상세보기 crossref

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