Modes of dynamic shear failure in solids (original) (raw)
References
ASTM STP 1359 (1999). Mixed-mode crack behavior(Edited by K.J. Miller and D.L. McDowell), American Society for Testing and Materials, West Conshohocken, PA.
ASTM E399-90 (1990). Standard test method for plane-strain fracture toughness of metallic materials. American Society for Testing and Materials, Annual Book of ASTM Standards, Vol. 03.01, Philadelphia, 412–442.
Banks-Sills, L. and Arcan, M. (1983). An edge-cracked mode II fracture specimen. Experimental Mechanics23, 257–261. Article Google Scholar
Banks-Sills, L. and Sherman, D. (1991). J IIfracture testing of a plastically deforming material. International Journal of Fracture50, 15–26. Google Scholar
Batra, R.C. and Nechitailo, N.Y. (1997). Analysis of fracture modes in impulsively loaded pre-notched steel plates. International Journal of Plasticity13, 291–308. ArticleMATH Google Scholar
Curran, D.R., Seaman, L. and Shockey, D.A. (1987). Dynamic failure of solids. Physics Reports147, 253–388. ArticleADS Google Scholar
Dally, J.W. and Sanford, R.J. (1989). On measuring the instantaneous stress intensity factor for propagating cracks. Proceedings of the 7th International Conference on Fracture(Edited by K. Salama, K. Ravi-Chandar, D.M.R. Taplin and P. Rama Rao), Houston, Texas, March 20-24 1989, 5, 3223–3230.
Dormeval, R. (1988). Adiabatic shear phenomena. Proceedings of the International Conference on Impact Loading and Dynamic Behavior of Materials(Edited by C.Y. Chiem, H.-D. Kunze, and L.W. Meyer), Bremen, May 18–22 1987, Deutsche Gesellschaft für Metallkunde, DGM-Verlag, Oberursel 43–56.
ESIS 14 (1993). Mixed Mode Fatigue and Fracture(Edited by H.-P. Rossmanith and K.J. Miller), European Structural Integrity Society, ESIS Publication 14, Mechanical Engineering Publications ltd., London.
Hallbäck, H. and Nilsson, F. (1994). Mixed-mode I/II fracture behaviour of an aluminium alloy. Journal of the Mechanics and Physics of Solids42, 1345–1374. Article Google Scholar
Hiese, W. (1999). Gültigkeitskriterien zur Bestimmung von Scherbruchzähigkeiten (Validity Criteria for Determining Shear Fracture Toughnesses). Dissertation, Fakultät für Maschinenbau, Ruhr-Universität Bochum.
Hiese, W. and Kalthoff, J.F. (1996). Minimum specimen size requirements and validity criteria for K II_c_ -tests, Proceedings of the 11th European Conference on Fracture. Mechanisms and Mechanics of Damage and Failure (Edited by J. Petit), ECF 11, Sept. 3–6 1996, Poitiers-Futuroscope, France. Engineering Materials Advisory Services Ltd., West Midlands, U.K. 2183–2192. Google Scholar
Hiese, W. and Kalthoff, J.F. (1999). Recommendations for the determination of valid mode-II fracture toughnesses K II_c_ . Mixed-Mode Crack Behavior(Edited by K.J. Miller and D.L. McDowell), ASTM STP 1359, Atlanta, Georgia, May 6–7 1998, American Society for Testing and Materials, West Conshohocken, PA, pp. 74–85. Google Scholar
Kalthoff, J.F., Bürgel, A. and Hiese, W. (1997). Impact failure behaviour by adiabatic shear bands. _Progress Reports to ONR_Grant No. N 00014-89-J-1617, RUB EM 96/1, 97/2, Annual Year Report 1997.
Kalthoff, J.F. (1990). Transition in the failure behaviour of dynamically shear loaded cracks. Proceedings of the 11th U.S. National Congress of Applied Mechanics(Edited by D.F. Chen), Tucson, Arizona, May 21-25 1990, also Applied Mechanics Review43, 247–250.
Kalthoff, J.F. (1993). Shadow optical method of caustics. Chapter 9 in Handbook on Experimental Mechanics(Edited by A.S. Kobayashi), Second Revised Edition, VCH Publishers, New York 407–476. Google Scholar
Kalthoff, J.F. and Winkler, S. (1988). Failure mode transition of high rates of shear loading. Proceedings of the International Conference on Impact Loading and Dynamic Behavior of Materials(Edited by C.Y. Chiem, H.-D. Kunze and L.W. Meyer), Bremen,May 18-22, 1987, Deutsche Gesellschaft für Metallkunde, DGM-Verlag, Oberursel 185–195. Google Scholar
Lee, Y.J. and Freund, L.B. (1990). Fracture initiation due to asymmetric impact loading of an edge cracked plate. Journal of Applied Mechanics57, 104–111. Google Scholar
Mason, J.J., Rosakis, A.J. and Ravichandran, G. (1994). Full field measurements of the dynamic deformation field around a growing adiabatic shear band at the tip of a dynamically loaded crack or notch. Journal of the Mechanics and Physics of Solids42, 1679–1697. Article Google Scholar
Neuber, H. (1958). Kerbspannungslehre, Springer-Verlag.
Podleschny, R. (1995). Untersuchung zum Instabilitätsverhalten scherbeanspruchter Risse (Investigations on the Instability Behaviour of Shear Loaded Cracks), Dissertation, Ruhr-Universität Bochum, Mitteilungen aus dem Institut für Mechanik, Mitteilung Nr. 98.
Podleschny, R. and Kalthoff, J.F. (1994). A novel mode-II fracture criterion. Proceedings of the 10th European Conference on Fracture. Structural Integrity: Experiments, Models and Applications (Edited by C. Berger and K.-H. Schwalbe), ECF 10, 20.-23. Sept. 1994, Berlin, Germany, Engineering Materials Advisory Services Ltd., West Midlands, U.K. 211–221. Google Scholar
Ravi-Chandar, K. (1995). On the failure mode transitions in polycarbonate under dynamic mixed-mode loading. International Journal of Solids and Structures32, 925–938. ArticleMATH Google Scholar
Riddle, R.A., Streit, R.D. and Finnie, I. (1988). The failure of aluminium compact shear specimens under mixedmode loading. Fracture Mechanics: Eighteenth Symposium(Edited by D.T. Read and R.P. Reed), ASTMSTP 945, American Society for Testing and Materials, Philadelphia 118–133. Google Scholar
Richard, H.A. (1981). Eine Bruchmechanikprobe zur Bestimmung von KII c-Werten (A fracture mechanics specimen for determining K II_c_ -values). Schweißen und Schneiden33, 606–608. Google Scholar
Zhou, M., Ravichandran, G. and Rosakis, A.J. (1996). Dynamically propagating shear bands in impact loaded prenotched plates. Journal of the Mechanics and Physics of Solids44, 981–1006 and 1007–1032. Article Google Scholar