Title :
Procedural modeling of cracks and fractures
Author :
Martinet, Aurélien ; Galin, Eric ; Desbenoit, Brett ; Akkouche, Samir
Author_Institution :
Artis-GRAVIR, INRIA, Rhone Alpes, France
Abstract :
This work presents a procedural method for modeling cracks and fractures in solid materials such as glass, metal and stone. Existing physically based techniques are computationally demanding and lack control over crack and fracture propagation. Our procedural approach provides the designer with simple tools to control the pattern of the cracks and the size and shape of fragments. Given a few parameters, our method automatically creates a vast range of types of cracks and fragments of different shapes.
Keywords :
computer animation; cracks; fracture; solid modelling; computer animation; computer graphics; crack modeling; crack propagation; fracture modeling; fracture propagation; procedural modeling; realistic animation; solid modeling; Animation; Automatic control; Computational modeling; Glass; Inorganic materials; Physics computing; Shape control; Skeleton; Solid modeling; Surface cracks;
Conference_Titel :
Shape Modeling Applications, 2004. Proceedings
Print_ISBN :
0-7695-2075-8
DOI :
10.1109/SMI.2004.1314524
