- 1.T. L. Anderson. Fracture Mechanics: Fundamentals and Applications. CRC Press, Boca Raton, second edition, 1995.]]Google Scholar
- 2.D. Baraff and A. Witkin. Large steps in cloth simulation. In SIGGRAPH 98 Conference Proceedings, Annual Conference Series, pages 43-54. ACM SIGGRAPH, Addison Wesley, July 1998.]] Google ScholarDigital Library
- 3.R. D. Cook, D. S. Malkus, and M. E. Plesha. Concepts and Applications of Finite Element Analysis. John Wiley & Sons, New York, third edition, 1989.]] Google ScholarDigital Library
- 4.T. DeRose, M. Kass, and T. Truong. Subdivision surfaces in character animation. In SIGGRAPH 98 Conference Proceedings, Annual Conference Series, pages 85-94. ACM SIG- GRAPH, Addison Wesley, July 1998.]] Google ScholarDigital Library
- 5.N. Foster and D. Metaxas. Realistic animation of liquids. In Graphics Interface '96, pages 204-212, May 1996.]] Google ScholarDigital Library
- 6.Y. C. Fung. Foundations of Solid Mechanics. Prentice-Hall, Englewood Cliffs, N.J., 1965.]]Google Scholar
- 7.Y. C. Fung. A First Course in Continuum Mechanics. Prentice-Hall, Englewood Cliffs, N.J., 1969.]]Google Scholar
- 8.K. Hirota, Y. Tanoue, and T. Kaneko. Generation of crack patterns with a physical model. The Visual Computer, 14:126- 137, 1998.]]Google ScholarCross Ref
- 9.O. Mazarak, C. Martins, and J. Amanatides. Animating exploding objects. In Graphics Interface '99, June 1999.]] Google ScholarDigital Library
- 10.M. Neff and E. Fiume. A visual model for blast waves and fracture. In Graphics Interface '99, June 1999.]] Google ScholarDigital Library
- 11.T. Nishioka. Computational dynamic fracture mechanics. International Journal of Fracture, 86:127-159, 1997.]]Google ScholarCross Ref
- 12.A. Norton, G. Turk, B. Bacon, J. Gerth, and P. Sweeney. Animation of fracture by physical modeling. The Visual Computer, 7:210-217, 1991.]] Google ScholarDigital Library
- 13.W. H. Press, B. P. Flannery, S. A. Teukolsky, and W. T. Vetterling. Numerical Recipes in C. Cambridge University Press, second edition, 1994.]]Google Scholar
- 14.B. Robertson. Antz-piration. Computer Graphics World, 21(10), 1998.]]Google Scholar
- 15.B. Robertson. Meet Geri: The new face of animation. Computer Graphics World, 21(2), 1998.]]Google Scholar
- 16.J. Schoberl. NETGEN - An advancing front 2D/3D-mesh generator based on abstract rules. Computing and Visualization in Science, 1:41-52, 1997.]]Google ScholarCross Ref
- 17.D. Terzopoulos. Regularization of inverse visual problems involving discontinuities. IEEE Transactions on Pattern Analysis and Machine Intelligence, 8(4):413-424, July 1986.]] Google ScholarDigital Library
- 18.D. Terzopoulos and K. Fleischer. Deformable models. The Visual Computer, 4:306-331, 1988.]]Google ScholarCross Ref
- 19.D. Terzopoulos and K. Fleischer. Modeling inelastic deformation: Viscoelasticity, plasticity, fracture. In Computer Graphics (SIGGRAPH '88 Proceedings), volume 22, pages 269- 278, August 1988.]] Google ScholarDigital Library
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- Graphical modeling and animation of brittle fracture
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Graphical modeling and animation of ductile fracture
SIGGRAPH '02: Proceedings of the 29th annual conference on Computer graphics and interactive techniquesIn this paper, we describe a method for realistically animating ductile fracture in common solid materials such as plastics and metals. The effects that characterize ductile fracture occur due to interaction between plastic yielding and the fracture ...
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In this paper, we describe a method for realistically animating ductile fracture in common solid materials such as plastics and metals. The effects that characterize ductile fracture occur due to interaction between plastic yielding and the fracture ...
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Phase-field modeling of brittle fracture in elastic solids is a well-established framework that overcomes the limitations of the classical Griffith theory in the prediction of crack nucleation and in the identification of complicated crack paths ...
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