Numerical modelling of deformation within accretionary prisms

• Main Author: Zhang, Ting
• Format: Others
• Language: English
• Published: Uppsala universitet, Institutionen för informationsteknologi 2012
• Subjects: Discrete Element Method; accretionary wedge; basal friction; compression force; area loss; displacement
• Online Access: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-176502

A two dimensional continuous numerical model based on Discrete Element Method is used to investigate the behaviour of accretionary wedges with different basal frictions. The models are based on elastic-plastic, brittle material and computational granular dynamics, and several characteristics of the influence of the basal friction are analysed. The model results illustrate that the wedge’s deformation and geometry, for example, fracture geometry, the compression force, area loss, displacement, height and length of the accretionary wedge etc., are strongly influenced by the basal friction. In general, the resulting wedge grows steeper, shorter  and higher, and the compression force is larger when shortened  above a larger friction basement.  Especially, when there is no basal friction, several symmetrical wedges will distribute symmetrically in the domain. The distribution of the internal stress when a new accretionary prime is forming is also studied. The results illustrate that when the stress in a certain zone is larger than a critical number, a new thrust will form there.