Machining is one of the final steps in the manufacturing value chain, where the dimensional
tolerances are fine-tuned, and the functional surfaces are generated. Many factors such as …

Conventional machining still represents a predominant manufacturing process for the
production of metal parts. During the last few decades, extensive research has been …

In this paper, the application of Abaqus-based particle finite element method (PFEM) is
extended from static to dynamic large deformation. The PFEM is based on periodic mesh …

The smoothed particle finite element method (SPFEM) is an effective framework for large
deformation analysis. The original SPFEM possesses the rank deficiency issue due to the …

In this work, we apply the Particle Finite Element Method (PFEM) and Smoothed Particle
Hydrodynamics (SPH) to simulate the orthogonal cutting chip formation of two workpiece …

Abstract Explicit FE (Finite Element) method offers distinct advantages for a variety of
simulations, including nonlinear transient dynamics, large deformation due to buckling, and …

When metals and alloys are exposed to ultrasonic vibrations (UV), a softening behavior
occurs, caused by the phenomenon of acousto-plasticity. To obtain accurate results in a …

The ultrasonic-assisted machining (UAM) technology, compared to conventional machining
(CM), has been proven to be an effective method for machining the difficult-to-cut Ti6Al4V …

In this work, we present a novel unfitted mesh boundary strategy in the context of the Particle
Finite Flement Method (PFEM) aiming to improve endemic limitations of the PFEM relative to …

In this work, the particle finite element method (PFEM) is extended to simulate additive
manufacturing processes in a variety of different complicated geometries. A three …