Modeling and machining are two terms closely related. The benefits of the application of modeling on machining are well known. The advances in technology call for the use of more sophisticated machining methods for the production of high-end components. In turn, more complex, more suitable, and reliable modeling methods are required. This book pertains to machining and modeling, but focuses on the special aspects of both. Many researchers in academia and industry, who are looking for ways to refine their work, make it more detailed, increase their accuracy and reliability, or implement new features, will gain access to knowledge in this book that is very scare to find elsewhere.
Particle Finite Element Modeling and Simulation of Machining Processes. SPH for Modelling Metal Cutting. Failure analysis of CFRP multi-layer composites during machining process. Numerical modelling of sinker EDM processes. Modelling of Interaction between Precision Machining Process and Machine Tools. Large-Scale Molecular Dynamics Simulations of Nanomachining. Multi-objective optimization of support vector regression parameters by teaching learning based optimization for modeling of EDM responses. Modeling of Grind-Hardening. Finite Element Modeling of Mechanical Micromachining. Modelling of materials behavior in finite element analysis and simulation of machining processes: Identification techniques and challenges.