Durnten-Zurich : , : Trans Tech Publications, , [2013]

©2013

3-03826-174-2

1 online resource (147 p.)

Materials science forum ; ; 766

GaitondeV. N

KarnikS. R

DavimJ. Paulo

671.35

Composite materials

Machining - Computer programs

Inglese

Special topic volume with invited peer reviewed papers only.

Includes bibliographical references and indexes.

Soft Computing Techniques for Machining of Composites; Preface; Table of Contents; Application of Desirability Function Based on Neural Network for Optimizing the Process Parameters in Turning of PEEK CF30 Composites; Application of Artificial Neural Network for the Prediction of Surface Roughness in Drilling GFRP Composites; Prediction of Cutting Forces during Turning PA66 GF-30 Glass Fiber Reinforced Polyamide by Soft Computing Techniques; Optimisation of End Milling Parameters on Aluminium/SiC Composites Using Response Surface and Artificial Neural Network Methodologies

Fuzzy Modeling and Analysis on the Turning Parameters for Machining Force and Specific Cutting Pressure in CFRP CompositesSoft Computing Applications in Drilling of GFRP Composites: A Review; Surface Roughness Minimization in Turning PEEK-CF30 Composites with TiN Cutting Tools Using Particle Swarm Optimization; Multi-Response Optimization in Drilling of Glass Epoxy Polymer Composites Using Simulated Annealing Approach; Keywords Index; Authors Index

Even though composites are manufactured to near net shaped, machining has to be performed during the final production stage to get the finished products. Soft computing is a collection of methodologies

that aim to exploit tolerance for imprecision, uncertainty and partial truth to achieve tractability, robustness and low solution cost. This special volume intends to draw a picture of the recent advances made in the soft computing assisted machinability studies for composite materials and includes the submission of high quality research articles. Suitable topics include the application to the m