The paper deals with a FEM-DBEM hybrid methodology applied to crack propagation simulations. The method allows to simulate cracks propagation by means of Finite Element Method (FEM) and Dual Boundary Element Method (DBEM), coupled in a procedure that optimise computational effort and accuracy. FEM is used for stress evaluation of the uncracked domain, whereas, the fracture analysis on a submodel embedding the cracked zone is demanded to DBEM. In particular, a DBEM submodel is extracted from the FEM model, a crack is introduced and traction boundary conditions are transferred from global FEM analysis to the crack surfaces of DBEM submodel (this will result the only needed boundary conditions to work out the DBEM analysis). The aforementioned...