Constitutive modeling of material damage for fatigue failure prediction

International Journal of Damage Mechanics

Volumn 8, Issue 4, 1999, Pages 355-374

  Chow, C L ^a   Wei, Y ^a  

^a USA   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ALUMINUM ALLOYS; CRACK INITIATION; CRACK PROPAGATION; ELASTICITY; FAILURE ANALYSIS; MATHEMATICAL MODELS; MICROSTRUCTURE; PLASTIC DEFORMATION; PLASTICITY; THERMODYNAMICS;

CONSTITUTIVE MODELING; DAMAGE MECHANICS; FATIGUE DAMAGE SURFACE; FATIGUE FAILURE; IRREVERSIBLE THERMODYNAMICS; PLASTIC DAMAGE SURFACE;

FATIGUE OF MATERIALS;

EID: 0033326651     PISSN: 10567895     EISSN: None     Source Type: Journal    
DOI: 10.1177/105678959900800405     Document Type: Article

References (24)

1. Frost, N. E., K. J. Marsh and L. P. Pook. 1974. Metal Fatigue, Oxford University Press.
2. Sines, G. 1981. "Fatigue Criteria under Combined Stresses or Strain," J. Engng. Mater. Technol., 13:82-90.
3. Miller, K. J. 1987. "The Behavior of Short Fatigue Cracks and Their Initiation Part 1 - A Review of Two Recent Books; Part 2 - A General Summary," Fatigue Fract. Engng. Mater. Struct., 10:75-113.
4. Socie, D. 1987. "Multiaxial Fatigue Damage Assessment," Low Cycle Fatigue and Elasto-Plastic Behaviour of Metals, Elsevier Applied Science, pp. 465-172.
5. Tanaka, K. 1987. "Mechanisms and Mechanics of Short Fatigue Crack Propagation," JSME International Journal Series. 1, 30:1-13.
6. Coffin, L. F. 1988. "Some Perspectives on Future Directions in Low Cycle Fatigue," Low Cycle Fatigue, ASTM STP 942, Philadelphia, pp. 5-14.
7. Leese, G. E. 1988. "Engineering Significance of Recent Multiaxial Research," Low Cycle Fatigue, ASTM STP 942. Philadelphia, pp. 861-873.
8. Manson, S. S. 1988. "Future Directions for Low Cycle Fatigue," Low Cycle Fatigue, ASTM STP 942. Philadelphia, pp. 15-39.
9. Tanaka, K. 1989. "Mechanics and Micromechanics of Fatigue Crack Propagation," Fracture Mechanics: Perspectives and Directions, ASTM STP 1020, pp. 151-183.
10. Lemaitre, J. and J. L. Chaboche, 1990. Mechanics of Solid Materials, Cambridge University Press.
11. Miller, M. P., D. L. McDowell and R. L. T. Oehmke, 1992. "A Creep-Fatigue-Oxidation Microcrack Propagation Model for Thermomechanical Fatigue," J. Engng. Mater. Technol., 114:282-288.
12. Kachanov, L. M. 1958. "On Creep Rupture Time," Izv. Acad. Nauk SSSR, Old. Techn. Nauk, 8:26-31.
13. Krajcinovic, D. and G. U. Fonseka, 1981. "The Continuous Damage Mechanics of Brittle Materials, Parts I and II," J. Appl. Mech., 48:809-824.
14. Chow, C. L. and J. Wang, 1987. "An Anisotropic Theory of Continuum Damage Mechanics for Ductile Fracture," Engng. Fract. Mech., 27:547-558.
15. Ju, J. W. 1989. "On Energy Cased Coupled Elastoplastic Damage Theories: Constitutive Modeling and Computational Aspect," Int. J. Solids Struct., 25:805-833.
16. Chow, C. L. and Y. Wei. 1991. "A Model of Continuum Damage Mechanics for Fatigue Fracture," Int. J. of Fracture, 50:301-316.
17. Wei, Y., C. L. Chow and B. J. Duggan, 1993. "A Damage Model of Fatigue Analysis for Alloy AL 2024-T3," Advances in Engineering Plasticity and Its Applications, Elsevier, pp. 363-370.
18. Hansen, N. R. and H. L. Schreyer, 1994. "A Thermodynamically Consistent Framework for Theories of Elastoplasticity Coupled with Damage," Int. J Solids Struct., 31:359-389.
19. Hayakawa, K. and S. Murakami, 1997. "Thermodynamical Modeling of Elastic-Plastic Damage and Experimental Validation of Damage Potential," Int. J. Damage Mech., 6:333-363.
20. Lemaitre, J. and J. L. Chaboche, 1978. "Aspects Phenomenologiques de la Rupture Par Endamagement," J. Mec. Appl., 2:317.
21. Chaboche, J. L. and P. M. Lesne. 1988. "A Non-Linear Continuous Fatigue Damage Model," Fatigue Fract. Engng. Mater. Struct., 11:1.
22. Cordebois, J. P. and F. Sidoroff. 1982. "Damage Induced Elastic Anisotropy," Mechanical Behaviour of Anisotropic Solids. Martinus Nijhoff, pp. 761-774.
23. Lu, T. J. and C. L. Chow. 1990. "On Constitutive Equations of Inelastic Solids with Anisotropic Damage," Theoretical and Applied Fracture Mechanics, 14:187-218.
24. Fang, H. E., C. L. Chow and Y. Wei. 1998. "Characteristics of Shear Damage for 60Sn-40Pb Solder Material," Modeling and Simulation Based Engineering, Tech Science Press, 2:1078-1083.