Application of an energy balance and an energy method to dynamic crack propagation

An application of the time-domain boundary integral equation method (TBIEM) to the case of rapidly moving cracks in a continuum is presented. The major objective of this paper is to explore the potential of the TBIEM in solving problems in dynamic fracture where inertia effects cannot be ignored. In

An energy-balance approach to the problem of fatigue-crack propagation is considered here, the basic premise being that the energy equivalent of the work input in fatigue over a period of time At must be greater than or equal to the energy dissipated in the form of heat together with the energy requ

An approximate analysis using a bilinear representation of the stress-strain behaviour has been made for the energy of plastic deformation at the tip of a crack growing under sinusoidal loading of constant amplitude. The energy of plastic deformation results from hysteretic and non-hysteretic plasti

The stability of stationary induction heated plasmas can be determined from an effective voltage-current characteristic, calculated from numerical solutions of the plasma energy balance. Simplified models of induction heated plasmas have been proposed to enable analytical solutions to be obtained. E