메뉴 건너뛰기
Journal of Engineering Materials and Technology, Transactions of the ASME
Volumn 119, Issue 2, 1997, Pages 171-179
A methodology for predicting variability in microstructurally short fatigue crack growth rates
Author keywords

[No Author keywords available]
Indexed keywords

CRACK PROPAGATION; CRACKS; CRYSTAL MICROSTRUCTURE; CRYSTAL ORIENTATION; ELASTIC MODULI; FATIGUE OF MATERIALS; FINITE ELEMENT METHOD; MATHEMATICAL MODELS; PLASTIC DEFORMATION; SINGLE CRYSTALS; YIELD STRESS;
EID: 0031117303     PISSN: 00944289     EISSN: 15288889     Source Type: Journal    
DOI: 10.1115/1.2805990     Document Type: Article
Times cited : (24)
References (49)
  • 1
    • 0018440858 scopus 로고
    • Geometrical Effects in the Inhomogeneous Deformation of Ductile Single Crystals
    • Asaro, Robert J., 1978, “Geometrical Effects in the Inhomogeneous Deformation of Ductile Single Crystals,” Acta Metallurgica, Vol. 27, pp. 445-453.
    • (1978) Acta Metallurgica , vol.27 , pp. 445-453
    • Asaro, R.J.1
  • 2
    • 0020895305 scopus 로고
    • Micromechanics of Crystals and Polycrystals
    • John W. Hutchinson
    • Asaro, Robert J., 1983, “Micromechanics of Crystals and Polycrystals,” Advances in Applied Mechanics, Vol. 23, pp. 1-115, John W. Hutchinson.
    • (1983) Advances in Applied Mechanics , vol.23 , pp. 1-115
    • Asaro, R.J.1
  • 4
    • 13544262072 scopus 로고
    • Micromechanics of Small Fatigue Cracks: A Model
    • Chan, K. S., 1987, “Micromechanics of Small Fatigue Cracks: A Model,” Fatigue 87, Vol. 4, pp. 1802-1818.
    • (1987) Fatigue 87 , vol.4 , pp. 1802-1818
    • Chan, K.S.1
  • 5
    • 0000361302 scopus 로고
    • Scaling Laws for Fatigue Crack Growth of Large Cracks in Steels
    • Chan, K. S., 1993, “Scaling Laws for Fatigue Crack Growth of Large Cracks in Steels,” Men. Trans., Vol. 24A.
    • (1993) Men. Trans , vol.24A
    • Chan, K.S.1
  • 6
    • 0023847487 scopus 로고
    • The Role of Microstructural Dissimilitude in Fatigue and Fracture of Small Cracks
    • Chan, K. S. and Lankford, J., 1987, “The Role of Microstructural Dissimilitude in Fatigue and Fracture of Small Cracks,” Acta. MetalL, Vol. 36, pp. 193-206.
    • (1987) Acta. Metall , vol.36 , pp. 193-206
    • Chan, K.S.1    Lankford, J.2
  • 7
    • 0021427074 scopus 로고
    • A Model for Fatigue Crack Advance Based on Crack Tip Metallurgical and Mechanics Parameters
    • Davidson, D. L., 1983, “A Model for Fatigue Crack Advance Based on Crack Tip Metallurgical and Mechanics Parameters,” Acta. MetalL, Vol. 32, pp. 707714.
    • (1983) Acta. Metall, Vol. 32, Pp. 707714
    • Davidson, D.L.1
  • 8
    • 0022132462 scopus 로고
    • The effects of Aluminum Alloy Microstructure on Fatigue Crack Growth
    • Davidson, D. L. and Lankford, J., 1985, “The effects of Aluminum Alloy Microstructure on Fatigue Crack Growth,” Materials Science and Engineering, Vol. 74, pp. 189-199.
    • (1985) Materials Science and Engineering , vol.74 , pp. 189-199
    • Davidson, D.L.1    Lankford, J.2
  • 9
    • 85047677033 scopus 로고
    • Crack Opening Displacement and the Rate of Fatigue Crack Growth
    • Donahue, R. J., Clark, H. Mcl., Atanmo, P., Kumble, R., and McEvily, A. J., 1973, “Crack Opening Displacement and the Rate of Fatigue Crack Growth,” Inter. J. of Fract., Vol. 8, pp. 209-219.
    • (1973) Inter. J. of Fract , vol.8 , pp. 209-219
    • Donahue, R.J.1    Clark, H.M.2    Atanmo, P.3    Kumble, R.4    McEvily, A.J.5
  • 10
    • 0030270357 scopus 로고
    • F.E.M. Study of Fatigue Crack Closure Under Double Slip
    • Gall, K., Sehitoglu, H., and Kadioglu, Y., 1991, “F.E.M. Study of Fatigue Crack Closure Under Double Slip,” Acta. Meta., Vol. 44, pp. 3955-3965.
    • (1991) Acta. Meta , vol.44 , pp. 3955-3965
    • Gall, K.1    Sehitoglu, H.2    Kadioglu, Y.3
  • 12
    • 0001366503 scopus 로고
    • Stress-Strain Relations, Uniqueness and Variational Theorems for Elastic Plastic Materials With a Singular Yield Surface
    • Koiter, W. T., 1953, “Stress-Strain Relations, Uniqueness and Variational Theorems for Elastic Plastic Materials With a Singular Yield Surface,” Quart. Appl. Math., Vol. 11, p. 350.
    • (1953) Quart. Appl. Math , vol.11 , pp. 350
    • Koiter, W.T.1
  • 15
    • 0020270401 scopus 로고
    • The Growth of Small Fatigue Cracks in 7075-T6 Aluminum
    • Lankford, J., 1982, “The Growth of Small Fatigue Cracks in 7075-T6 Aluminum,” Fatigue of Engineering Materials and Structures, Vol. 5, pp. 233-248.
    • (1982) Fatigue of Engineering Materials and Structures , vol.5 , pp. 233-248
    • Lankford, J.1
  • 16
    • 84987516961 scopus 로고
    • Crack Closure Effects on the growth of Small Surface Cracks in Titanium-Aluminum Alloys
    • ASTM STP 982, J. C. Newman, Jr. and W. Elber, eds., American Society for Testing and Materials, Philadelphia
    • Larson, J. M., Williams, J. C., and Thompson, A. W., 1988, “Crack Closure Effects on the growth of Small Surface Cracks in Titanium-Aluminum Alloys,” Mechanics of Fatigue Crack Closure, ASTM STP 982, J. C. Newman, Jr. and W. Elber, eds., American Society for Testing and Materials, Philadelphia, pp. 149-167.
    • (1988) Mechanics of Fatigue Crack Closure , pp. 149-167
    • Larson, J.M.1    Williams, J.C.2    Thompson, A.W.3
  • 17
    • 0028445110 scopus 로고
    • On Crystallographic Crack Transfer Across Interfaces in Four Types of Aluminum Bicrystal
    • Li, C., Zhang, P., Zhang T., 1994, “On Crystallographic Crack Transfer Across Interfaces in Four Types of Aluminum Bicrystal,” Materials Science and Engineering, Vol. A183, pp. 23-30.
    • (1994) Materials Science and Engineering , vol.A183 , pp. 23-30
    • Li, C.1    Zhang, P.2    Zhang, T.3
  • 18
    • 0025436295 scopus 로고
    • On the interaction among stage I short crack, slip band and grain boundary: A FEM analysis
    • Li, C., 1990, “On the interaction among stage I short crack, slip band and grain boundary: a FEM analysis,” International Journal of Fatigue, Vol. 43, pp. 227-239.
    • (1990) International Journal of Fatigue , vol.43 , pp. 227-239
    • Li, C.1
  • 19
    • 85167458747 scopus 로고
    • Overview of Crack Closure at Near-Threshold Fatigue Crack Growth Levels
    • ASTM STP 982, J. C. Newman, Jr. and W. Elber, eds., American Society for Testing and Materials, Philadelphia
    • Liaw, P. K., 1988, “Overview of Crack Closure at Near-Threshold Fatigue Crack Growth Levels,” Mechanics of Fatigue Crack Closure, ASTM STP 982, J. C. Newman, Jr. and W. Elber, eds., American Society for Testing and Materials, Philadelphia, pp. 62-92.
    • (1988) Mechanics of Fatigue Crack Closure , pp. 62-92
    • Liaw, P.K.1
  • 20
    • 0024630738 scopus 로고
    • Fatigue Crack Growth by Crack Tip Cyclic Plastic Deformation: The Unzipping Model
    • Liu, H. W., 1989, “Fatigue Crack Growth by Crack Tip Cyclic Plastic Deformation: The Unzipping Model,” Inter. J. of Fract., Vol. 39, pp. 63-77.
    • (1989) Inter. J. of Fract , vol.39 , pp. 63-77
    • Liu, H.W.1
  • 21
    • 13544269836 scopus 로고
    • Analysis of Small Fatigue Cracks in HSLA-80 Steel
    • McClung, R. C., and Torng, T. Y., 1986, “Analysis of Small Fatigue Cracks in HSLA-80 Steel,” Fatigue 86’, pp. 337-342.
    • (1986) Fatigue 86’ , pp. 337-342
    • McClung, R.C.1    Torng, T.Y.2
  • 22
    • 0025782049 scopus 로고
    • High Resolution Numerical and Experimental Studies of Fatigue Cracks
    • McClung, R. C. and D. L. Davidson, 1991, “High Resolution Numerical and Experimental Studies of Fatigue Cracks,” Engn. Fracture Mech., Vol. 39, pp. 113-130.
    • (1991) Engn. Fracture Mech , vol.39 , pp. 113-130
    • McClung, R.C.1    Davidson, D.L.2
  • 23
    • 0024880527 scopus 로고
    • On the Finite Element Analysis of Fatigue Crack Closure-1. Basic Modeling Issues
    • McClung, R. C. and Sehitoglu, H., 1989, “On the Finite Element Analysis of Fatigue Crack Closure-1. Basic Modeling Issues,” Engn. Fracture Mech., Vol. 33, pp. 237-252.
    • (1989) Engn. Fracture Mech , vol.33 , pp. 237-252
    • McClung, R.C.1    Sehitoglu, H.2
  • 24
    • 0024910568 scopus 로고
    • On the Finite Element Analysis of Fatigue Crack Closure-2. Numerical Results
    • McClung, R. C., and Sehitoglu, H., 1989, “On the Finite Element Analysis of Fatigue Crack Closure-2. Numerical Results,” Engn. Fracture Mech., Vol. 33, pp. 253-272.
    • (1989) Engn. Fracture Mech , vol.33 , pp. 253-272
    • McClung, R.C.1    Sehitoglu, H.2
  • 25
    • 0342842311 scopus 로고
    • On Fatigue Crack Propagation In F.C.C Metals
    • McEvily, A. J., and Boettner R. C., 1963, “On Fatigue Crack Propagation In F.C.C Metals,” Acta Metallurgica, Vol. 11, pp. 725-742.
    • (1963) Acta Metallurgica , vol.11 , pp. 725-742
    • McEvily, A.J.1    Boettner, R.C.2
  • 26
    • 0026360514 scopus 로고
    • Metal Fatigue-past, current, and future
    • Miller, K. J., 1991, “Metal Fatigue-past, current, and future,” Proc. Instn. Mech. Engrs., p. 205.
    • (1991) Proc. Instn. Mech. Engrs , pp. 205
    • Miller, K.J.1
  • 27
    • 13544256840 scopus 로고
    • A Comparison of Microcrack Closure Load Development for Stage I and Stage II Cracking Events for A1 7075-T651
    • Morris, W. L., 1977, “A Comparison of Microcrack Closure Load Development for Stage I and Stage II Cracking Events for A1 7075-T651,” Metallurgical Transactions A, p. 8.
    • (1977) Metallurgical Transactions A , pp. 8
    • Morris, W.L.1
  • 28
    • 0019038050 scopus 로고
    • The Non continuum Crack Tip Deformation Behavior of Surface Microcracks
    • Morris, W., L., 1988, “The Non continuum Crack Tip Deformation Behavior of Surface Microcracks,” Metallurgical Transactions A, Vol. 11, pp. 1117-1123.
    • (1988) Metallurgical Transactions A , vol.11 , pp. 1117-1123
    • Morris, W.1
  • 29
    • 0020923321 scopus 로고
    • Statistical Aspects of Fatigue Failure Due to Alloy Microstructure
    • Morris, W. L., and James, M. R., 1983, “Statistical Aspects of Fatigue Failure Due to Alloy Microstructure,” ASTM STP 811, pp. 179-206.
    • (1983) ASTM STP , vol.811 , pp. 179-206
    • Morris, W.L.1    James, M.R.2
  • 30
    • 0014577059 scopus 로고
    • Coarse Slip Model of Fatigue
    • Neumann, P., 1969, “Coarse Slip Model of Fatigue,” Acta Met., Vol. 17, p. 1219.
    • (1969) Acta Met , vol.17 , pp. 1219
    • Neumann, P.1
  • 31
    • 0016106317 scopus 로고
    • New Experiments Concerning the Slip Process at Propagating Fatigue Cracks-I
    • Neumann, P. 1974, “New Experiments Concerning the Slip Process at Propagating Fatigue Cracks-I,” Acta Metallurgica, Vol. 22, pp. 1155-1165.
    • (1974) Acta Metallurgica , vol.22 , pp. 1155-1165
    • Neumann, P.1
  • 32
    • 0016103022 scopus 로고
    • The Geometry of Slip Processes at a propagating Fatigue Crack-II
    • Neumann, P. 1974, “The Geometry of Slip Processes at a propagating Fatigue Crack-II,” Acta Metallurgica, Vol. 22, pp. 1167-1178.
    • (1974) Acta Metallurgica , vol.22 , pp. 1167-1178
    • Neumann, P.1
  • 33
    • 0022883220 scopus 로고
    • Growth of Short Fatigue Cracks in High Strength Ni-Base Superalloys
    • R. O. Ritchie and J. Lankford
    • Newman, P., and Beevers, C.J., 1986, “Growth of Short Fatigue Cracks in High Strength Ni-Base Superalloys,” Small Fatigue Cracks, eds., R. O. Ritchie and J. Lankford, pp. 97-116
    • (1986) Small Fatigue Cracks , pp. 97-116
    • Newman, P.1    Beevers, C.J.2
  • 34
    • 0016519370 scopus 로고
    • Initiation of Fatigue Cracks in Commercial Aluminum Alloys and the Subsequent Propagation of Very Short Cracks
    • Pearson, S. 1975, “Initiation of Fatigue Cracks in Commercial Aluminum Alloys and the Subsequent Propagation of Very Short Cracks,” Engn. Frac. Meek, Vol. 7, pp. 235-247.
    • (1975) Engn. Frac. Meek , vol.7 , pp. 235-247
    • Pearson, S.1
  • 35
    • 0001275238 scopus 로고
    • Mechanisms of Formation of Ductile Fatigue Striations
    • Pelloux, R. M. N., 1969, “Mechanisms of Formation of Ductile Fatigue Striations,” Trans. ASME, Vol. 62, pp. 281-285.
    • (1969) Trans. ASME , vol.62 , pp. 281-285
    • Pelloux, R.M.N.1
  • 36
    • 85121265642 scopus 로고    scopus 로고
    • R., 1967, “Mechanics of Crack Tip Deformation and Extension by Fatigue,” Fatigue Crack Propagation
    • Rice, J. R., 1967, “Mechanics of Crack Tip Deformation and Extension by Fatigue,” Fatigue Crack Propagation, ASTM STP 415, pp. 247-309.
    • ASTM STP , vol.415 , pp. 247-309
    • Rice, J.1
  • 38
    • 0242483222 scopus 로고
    • Development of Fatigue Crack Closure with The Extension of Long and Short Cracks in Aluminum Alloy 2124: A Comparison of Experimental and Numerical Results
    • ASTM STP 982, J. C. Newman, Jr. and W. Elber, eds., American Society for Testing and Materials, Philadelphia
    • Ritchie, R. O., W. Yu, D. K. Holm, and A. F. Blom, 1988, “Development of Fatigue Crack Closure with The Extension of Long and Short Cracks in Aluminum Alloy 2124: A Comparison of Experimental and Numerical Results,” Mechanics of Fatigue Crack Closure, ASTM STP 982, J. C. Newman, Jr. and W. Elber, eds., American Society for Testing and Materials, Philadelphia, pp. 300-316.
    • (1988) Mechanics of Fatigue Crack Closure , pp. 300-316
    • Ritchie, R.O.1    Yu, W.2    Holm, D.K.3    Blom, A.F.4
  • 39
    • 85097581821 scopus 로고
    • Significance of Fatigue Cracks in Micro-Range and MacroRange
    • ASTM STP 415
    • Schijve, J. 1967, “Significance of Fatigue Cracks in Micro-Range and MacroRange,” Fatigue Crack Propagation ASTM STP 415, p. 415.
    • (1967) Fatigue Crack Propagation , pp. 415
    • Schijve, J.1
  • 40
    • 0015744509 scopus 로고
    • Approximate Calculation of Fatigue Crack Growth
    • Schwalbe, K. H., 1973, “Approximate Calculation of Fatigue Crack Growth,” Inter. J, of Fract., Vol. 9, pp. 381-395.
    • (1973) Inter. J, of Fract , vol.9 , pp. 381-395
    • Schwalbe, K.H.1
  • 42
    • 0030424055 scopus 로고    scopus 로고
    • 1996, “Recent Advances in Fatigue Crack Growth Modeling
    • Sehitoglu, H., Gall, K., and A. M. Garcia, 1996, “Recent Advances in Fatigue Crack Growth Modeling,” IJF, 1996, Vol. 80, pp. 165-192.
    • (1996) IJF , vol.80 , pp. 165-192
    • Sehitoglu, H.1    Gall, K.2    Garcia, A.M.3
  • 44
    • 0021142251 scopus 로고
    • Mechanics of Fatigue Crack Propagation by Crack tip Plastic Blunting
    • Tanaka, K., T. Hoshide, and N. Sakai, 1984, “Mechanics of Fatigue Crack Propagation by Crack tip Plastic Blunting,” Engineering Fracture Mechanics, Vol. 19, pp. 805-825.
    • (1984) Engineering Fracture Mechanics , vol.19 , pp. 805-825
    • Tanaka, K.1    Hoshide, T.2    Sakai, N.3
  • 45
    • 12844262870 scopus 로고
    • Short Crack Fracture Mechanics in Fatigue Conditions
    • T. Tanaka et al., eds., The society of Materials Science, Japan, Materials Research Series
    • Tanaka, K., 1985, “Short Crack Fracture Mechanics in Fatigue Conditions,” Current Research on Fatigue Cracks, T. Tanaka et al., eds., The society of Materials Science, Japan, Materials Research Series, pp. 79-100.
    • (1985) Current Research on Fatigue Cracks , pp. 79-100
    • Tanaka, K.1
  • 46
    • 85162746130 scopus 로고
    • Mechanics and Micromechanics of Fatigue Crack Propagation
    • ASTM STP 1020, R. P. Wei and R. P. Gangloff, eds., American Society for Testing and Materials, Philadelphia
    • Tanaka, K., 1989, “Mechanics and Micromechanics of Fatigue Crack Propagation,” Fracture Mechanics: Perspectives and Directions (Twentieth Symposium), ASTM STP 1020. R. P. Wei and R. P. Gangloff, eds., American Society for Testing and Materials, Philadelphia, pp. 151-183.
    • (1989) Fracture Mechanics: Perspectives and Directions (Twentieth Symposium) , pp. 151-183
    • Tanaka, K.1
  • 48
    • 13544268034 scopus 로고
    • The Growth Behavior of Small Fatigue Cracks; The effect of Microstructure and Crack Closure
    • Tokaji, K., Ogawa, T., Osako, S., Harada, Y., 1987, “The Growth Behavior of Small Fatigue Cracks; The effect of Microstructure and Crack Closure,” Fatigue 87, Vol. I, pp. 313-322.
    • (1987) Fatigue 87 , vol.1 , pp. 313-322
    • Tokaji, K.1    Ogawa, T.2    Osako, S.3    Harada, Y.4
  • 49
    • 84996146557 scopus 로고
    • Fatigue Crack Propagation-An Analysis
    • Eight Series
    • Tomkins, B. 1968, “Fatigue Crack Propagation-An Analysis,” Philosophical Magazine, Eight Series, Vol. 18, 155, pp. 1041-1066.
    • (1968) Philosophical Magazine , vol.18 , Issue.155 , pp. 1041-1066
    • Tomkins, B.1

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.