A finite element model for numerical simulation of non‐steady but continuous chip formation
under orthogonal cutting conditions is described. The problem is treated as coupled thermo …

An alternative form of the hyperbolic sine relationship is developed for use as a constitutive
equation at elevated temperatures. It is shown how an optimization technique may be …

In the extrusion and forming of solids the plastic (or viscoplastic) deformations are so large
that the elastic strain is negligible. The problem thus becomes one of incompressible …

Two computer models are described that treat the special case of orthogonal cutting. The
models are based on the finite element method, which is used to discretize a portion of the …

Two different finite-element formulations, the Lagrangian and the Eulerian, have been used
extensively in the modeling of the orthogonal metal cutting process. Each of these …

O ne mechanism for the slow, steady motion of a crack tip in plane strain is void growth and
coalescence. A model of this process is formulated by isolating a geometrical cell containing …

Deformation and structural relationships in accretionary prisms and fold and thrust belts are
the result of dynamic changes in the size, geometry, or strength of the deforming wedge and …

Meshless methods, that appeared in the early nineties, constitute nowadays an appealing
method for the simulation of forming processes. In this review we revisit the basic ingredients …

The simulation of manufacturing processes has significant importance. The research and
development of metal forming simulation started in the 1960s from the elastoplastic analysis …

We present 31 new apatite fission-track (AFT) ages for the island of Taiwan that, when
combined with existing AFT and zircon fission-track (ZFT) data, provide regional spatial …