Static and dynamic analysis of the DCB problem in fracture mechanics

In the present study, static fracture toughness of ceramics is evaluated by a three point bending test using a precracked specimen. The obtained results are compared with the ones obtained by conventional static fracture toughness testing methods. Moreover, dynamic fracture toughness of ceramics is

An experimental study is conducted to show the application of strain gages in studies of dynamic fracture. In particular, strain gages have been used to evaluate the dynamic stress intensity factors in different specimen geometries in a variety of materials. A direct comparison of the results obtain

The paper suggests a practical procedure, based upon the infinite body effect, to be used as a preliminary assessment of numerical solutions and experimental findings in dynamic fracture mechanics. The application of the procedure is demonstrated by three cases of dynamic fracture in the DCB, SEN an

The dual boundary element method coupled with the weight function technique is developed for the analysis of three-dimensional elastostatic fracture mechanics mixed-mode problems. The weight functions used to calculate the stress intensity factors are deÿned by the derivatives of traction and displa