Parametrizing ductile tearing resistance by four parameters

Engineering Fracture Mechanics

Volumn 71, Issue 1, 2004, Pages 127-146

  Brocks, W ^a   Anuschewski, P ^a  

^a INSTITUTE OF MATERIALS RESEARCH   (Germany)

Author keywords

Constraint effects; Dissipation rate; Ductile tearing

Indexed keywords

CRACKS; DUCTILE FRACTURE; ENERGY DISSIPATION; INTEGRATION;

CRACK EXTENSION;

FRACTURE MECHANICS;

FRACTURE MECHANICS; METAL;

EID: 0141958525     PISSN: 00137944     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0013-7944(02)00287-4     Document Type: Article

References (44)

1. ASTM E 1820-01: Standard test method for measurement of fracture toughness. Annual Book of ASTM Standards. vol. 03.01. West Conshohocken: American Society for Testing and Materials; 2002
2. Garwood S.J. Effect of specimen geometry on crack growth resistance ASTM STP 677 1979 American Society for Testing and Materials
3. Brocks W. Künecke G. Noack H.-.D. Veith H. On the transferability of fracture mechanics parameters to structures using FEM Nucl. Engng. Des. 112 1989 1-14
4. Link R.E. Landes J.D. Herrera R. Zhou Z. Something new in size and geometry effects for J-R curves Blauel J.G. Schwalbe K.-H. Defect Assessment in Components, Fundamentals and Applications, ESIS/EGF 9 1991 707-721 Mechanical Engineering Publications London
5. Holmes B. Priest A.H. Walker E.F. Prediction of linepiping fracture behaviour from laboratory tests Int. J. Pres. Ves. Piping 12 1983 1-27
6. Klemm W. Material resistance against fast ductile fracture in pipeline steels. Dynamic Fracture Mechanics for the 1990s Homma H. Shockey D.A. Yagawa G. Proc. of the 1989 ASME Pressure Vessels and Piping Conference 1989 99-104
7. Turner C.E. A re-assessment of ductile tearing resistance (Part I and II) Firrao D. Fracture Behaviour and Design of Materials and Structures Proc. ECF 8 vol. II 1990 933-949
8. Memhard D. Brocks W. Fricke S. Characterization of ductile tearing resistance by energy dissipation rate Fatigue Fract. Engng. Mater. Struct. 16 1993 1109-1124
9. Turner C.E. Kolednik O. Application of energy dissipation rate arguments to stable crack growth Fatigue Fract. Engng. Mater. Struct. 20 1994 1109-1127
10. Kolednik O. Shan G. Fischer F.D. The energy dissipation rate-a new tool to interpret geometry and size effects Piascik R.S. Newman J.C. Dowling N.E. Fatigue and Fracture Mechanics ASTM STP 1296 vol. 27 1997 126-151 American Society for Testing and Materials Philadelphia
11. Sumpter J.D.G. An alternative view of R-curve testing Engng. Fract. Mech. 64 1999 161-176
12. Kolednik O. A simple model to explain the geometry dependence of J-Δa-curves Int. J. Fract. 63 1993 263-274
13. Stampfl J. Kolednik O. The separation of the fracture energy in metallic materials Int. J. Fract. 101 2000 321-345
14. Garwood S.J. Robinson J.N. Turner C.E. The measurement of crack growth resistance curves using the J-integral Int. J. Fract. 11 1975 528-530
15. Schwalbe K-H, Hellmann D. Correlation of stable crack growth with the J-integral and the crack tip opening displacement, effects of geometry, size, and material. Report GKSS 84/E/37, GKSS Research Centre Geesthacht, 1984
16. Anuschewski P, Brocks W, Hellmann D. Characterisation of ductile tearing resistance by the energy dissipation rate: effects of material, specimen shape and size. Report GKSS 2002/13, GKSS Research Centre Geesthacht, 2002
17. Häcker R, Gerwien P, Thiemich K-D, Wossidlo P, Baer W. Gegenüberstellung von Ergebnissen bruchmechanischer Untersuchungen an C(T)-Proben and M(T)-Proben aus dem Werkstoff StE 460. Bericht BAM-V.33 98/2, Bundesanstalt für Materialforschung und-prüfung, Berlin, 1990
18. Siegmund Th. Bernauer G. Brocks W. Two models of ductile fracture in contest: porous metal plasticity and cohesive elements Brown M.W. de los Rios E.R. Miller K.J. Proc ECF 12, Sheffield, 14-18 September 1998, Fracture from Defects vol. II 1998 933-938 Engineering Materials Advisory Services Ltd.
19. Siegmund Th. Brocks W. Prediction of the work of separation and implications to modeling Int. J. Fract. 99 1999 97-116
20. Brocks W, Siegmund Th. Effects of geometry and material on the energy dissipation rate. Fracture Mechanics: Application and Challenges, Proc ECF 13, San Sebastian, 6-9 September 2000
21. Siegmund Th. Brocks W. The role of cohesive strength and separation energy for modeling of ductile fracture Jerina K.L. Paris P.C. Fatigue and Fracture Mechanics ASTM STP 1360 vol. 30 2000 139-151 American Society for Testing and Materials
22. Siegele D. Schmitt W. Determination and simulation of stable crack growth in ADINA Comput. Struct. 17 1983 697-703
23. Yuan H. Lin G. Cornec A. Verification of a cohesive zone model for ductile fracture J. Mech. Phys. Solids 42 1994 1397-1434
24. Lin G. Kim Y.-.J. Cornec A. Fracture toughness of a constrained metal layer Comput. Mater. Sci. 1997 36-47
25. Gurson A.L. Continuum theory of ductile rupture by void nucleation and growth: Part I-yield criteria and flow rules for porous ductile media J. Engng. Mater. Technol. 99 1977 2-15
26. Tvergaard V. Ductile fracture by cavity nucleation between larger voids J. Mech. Phys. Solids 30 1982
27. Needleman A. Tvergaard V. An analysis of ductile rupture at a crack tip J. Mech. Phys. Solids 35 1987 151-183
28. Xia L. Shih C.F. Hutchinson J.W. A computational approach to ductile crack growth under large scale yielding J. Mech. Phys. Solids 43 1995 389-413
29. Needleman A. An analysis of decohesion along an imperfect interface Int. J. Fract. 42 1990 21-40
30. Siegmund Th. Brocks W. A numerical study on the correlation between the work of separation and the dissipation rate in ductile fracture Engng. Fract. Mech. 67 2000 139-154
31. Siegmund Th. Brocks W. Modeling crack growth in thin sheet aluminum alloys Halford G.L. Gallagher J.P. Fatigue and Fracture Mechanics ASTM STP 1389 vol. 31 2000 475-485 American Society for Testing and Materials
32. Broek D, Thomson D, Jeong DY. Testing and analysis of flat and curved panels with multiple cracks. FAA-NASA Int Symp Advanced Structural Integrity Methods for Airframe Durability and Damage Tolerance, NASA Conf Publ 3274, Part I, 1994. p. 85-98
33. Turner C.E. Kolednik O. A micro and macro approach to the energy dissipation rate model of stable ductile crack growth Fatigue Fract. Engng. Mater. Struct. 17 1994 1089-1107
34. Turner C.E. Kolednik O. Simple test method for energy dissipation rate, CTOA and the study of size and transferability effects for large amounts of ductile crack growth Fatigue Fract. Engng. Mater. Struct. 20 1994 1507-1528
35. Brocks W. Schmitt W. The second parameter in J-R curves: constraint or triaxiality? Kirk M. Bakker A. 2nd Symp. Constraint Effects, ASTM STP 1224, Philadelphia 1995 209-231
36. Leevers P.S. Radon J.C. Inherent stress biaxiality in various fracture specimen geometries Int. J. Fract. 19 1982 311-325
37. Rice J.R. Limitations of small scale yielding approximations for crack tip plasticity J. Mech. Phys. Solids 22 1974 17-26
38. O'Dowd N.P. Shih C.F. Family of crack-tip fields characterized by a triaxiality parameter J. Mech. Phys. Solids 39 1991 989-1015
39. Shih CF, O'Dowd NP, Kirk MT. A framework for quantifying crack tip constraint to surface flaws. ASTM-Symposium on Constraint Effects in Fracture, Indianapolis, ASTM STP 1171; 1991. p. 2-20
40. Memhard D. Brocks W. Fricke S. Characterization of ductile tearing resistance by energy dissipation rate Schwalbe K.-H. Berger C. Structural Integrity: Experiments-Models-Applications Proc. ECF 10 vol. I 1994 149-158 Engineering Materials Advisory Services Ltd. Warley
41. Schwalbe K-H, et al. EFAM ETM 97-the ETM method for assessing the significance of crack like defects in engineering structures. Report GKSS 98/E/6, GKSS Research Centre Geesthacht, 1998
42. Miller A.G. Review of limit loads of structures containing defects Int. J. Pres. Ves. Piping 32 1988 197-327
43. Ewing D.J.F. Richards C.E. The yield-point loads of single notched pin-loaded tensile strips J. Mech. Phys. Solids 22 1974 27-36
44. Kim Y.-.J. McClintock F.A. Parks D.M. Yield locus in deep, single face cracked specimens under combined bending and tension J. Appl. Mech 63 1996 1045-1046