Analytical modeling of dry stone masonry wall under monotonic and reversed cyclic loading

A numerical simulation based on experimental test data has been carried out to model the monotonic and reversed cyclic load-displacement hysteresis curves of dry-stack mor- tarless sawn stone masonry using a multi-surface interface model where stone units and joints are assumed elastic and inelastic respectively. Finite element software, Diana version 8.1 has been employed to carry out the present numerical modelling. The stone units were modelled us- ing an eight node continuum plane stress elements with Gauss integration and the joints were modelled using a six node zero thickness line interface elements with Lobatto integration. This paper describes outline of the experimental research work and details of numerical modelling carried out and reports the numerical monotonic load-displacement curve and reversed cyclic load-displacement hysteresis curves.