Element-size independent, elasto-plastic damage analysis of framed structures using the adaptively shifted integration technique

The adaptively shifted integration (ASI) technique and continuum damage mechanics are applied to the nonlinear finite element analysis of framed structures modeled by cubic Bernoulli–Euler beam elements. A new form of evolution equation of damage, which is a function of plastic relative rotational angles, is introduced in order to remove the mesh-dependence caused by the strain-dependence of damage. The elasto-plastic damage behavior of framed structures can be accurately and efficiently predicted by the combination of the ASI technique and the new damage evolution equation. Some numerical studies are carried out to show the mesh-independence of the proposed computational method.

► Element-size independent, elasto-plastic damage analysis of framed structures. ► Adaptively shifted integration technique applied to cubic Bernoulli–Euler beam elements. ► New damage evolution equation expressed in terms of plastic rotational angles.