Machining & Forming Technologies de J. Paulo Davim

Machining & Forming Technologies

J. Paulo Davim

Nowadays, machining is one of the most important of manufacturing processes in which a cutting tool or other techniques are used to remove excess material from a workpiece so that the remaining material is the desired part shape. Forming technologies includes a large group of manufacturing processes in which plastic deformation and other techniques are used to change the shape of workpieces. Machining and forming technologies can be applied to a wide variety of materials, namely, metals, polymers, ceramics, composites, biomaterials, nanomaterials. This book focuses on machining and forming technologies.

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	Preț	Express
Hardback (2)	1078^.96 lei 3-5 săpt.
Nova Science Publishers Inc – 21 mar 2012	1078^.96 lei 3-5 săpt.
Nova Science Publishers Inc – 12 iun 2011	1610^.63 lei 3-5 săpt.

Preț

Express

Hardback (2)

1078^.96 lei 3-5 săpt.

Nova Science Publishers Inc – 21 mar 2012

1078^.96 lei 3-5 săpt.

Nova Science Publishers Inc – 12 iun 2011

1610^.63 lei 3-5 săpt.

Cuprins

Contributions to the Modeling of Forces in Drilling with Twist Drills; Dimensional Accuracy of End Milled Slots in Aluminum 7075-T7 Alloy; Experimental Evaluation & Numerical Validation of Surface Residual Stresses After Hard Turning of Mechanical Components Made of DIN 21NiCrMo2 (AISI 8620) Carburized Steel; On the Fundamentals of Orthogonal Metal Sutting; Thermal Analysis in TiN & Al2O3 Coated ISO K10 Cemented Carbide Cutting Tools Using Design of Experiment (DOE) Methodology; Effect of the Loading Sequence on the Work-Hardening of Low Carbon Steel & CuZn34 Brass Sheets; Numerical & Experimental Analysis of Crimping Tubular Steel Components by Means of a Spherical Punch; Prediction of Local Necking Limit Curve in Sheet Metal Forming; Study of an Automotive Component Production Through the Utilization of the Forming Limit Strain & Stress Diagrams; The Assessment of Hot Forging Batches Through Cooling Analysis; 3D Modeling of Precision High Speed Turning & Milling for Prediction of Chip Morphology using FEM; Finite Elements Modelling & Simulation of Precision Grinding; Prediction of Thin Wall Surface Shape through Simulation of the Machining Process for Light Alloy Workpieces; Experimental Study of Drilling Ceramic Matrix Brake Pad (CMBP); Turning Hardened Steel using Carbide Insert under High-pressure Coolant Condition.