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The primary goal of Parametric Modeling with Pro/ENGINEER Wildfire 5.0 is to introduce the aspects of solid modeling and parametric modeling. The text is a hands-on, exercise-intensive approach to all the important parametric modeling techniques and concepts. This book contains a series of eleven tutorial style lessons designed to introduce beginning CAD users to the most commonly used features of Pro/ENGINEER. Each lesson introduces a new set of commands and concepts, building on previous lessons. This text guides you from constructing basic shapes to building intelligent solid models and creating multi-view drawings. The basic premise of this book is that the more designs you create, the better you learn the software. This book will establish a good basis for exploring and growing in the exciting field of computer aided engineering. By the end of this book the reader will advance to an intermediate level Pro/ENGINEER user.
"Consists of 1028 pages of heavily illustrated text covering the following features of SolidWorks: part design, assembly design, detailing and drafting, blocks, sheet metal modeling, and surface modeling."--Cover.
The Proceedings of the International Conference on Information Engineering, Management and Security 2014 which happened at Christu Jyoti Institute of Technology.
Mechanism Design with Creo Elements/Pro 5.0 is designed to help you become familiar with Mechanism Design, a module in the Creo Elements/Pro (formerly Pro/ENGINEER) software family, which supports modeling and analysis (or simulation) of mechanisms in a virtual (computer) environment. Capabilities in Mechanism Design allow users to simulate and visualize mechanism performance. Using Mechanism Design early in the product development stage could prevent costly redesign due to design defects found in the physical testing phase; therefore, contributing to a more cost effective, reliable, and efficient product development process. The book is written following a project-based learning approach and covers the major concepts and frequently used commands required to advance readers from a novice to an intermediate level. Basic concepts discussed include: model creation, such as body and joint definitions; analysis type selection, such as static (assembly) analysis, kinematics and dynamics; and results visualization. The concepts are introduced using simple, yet realistic, examples. Verifying the results obtained from computer simulation is extremely important. One of the unique features of this textbook is the incorporation of theoretical discussions for kinematic and dynamic analyses in conjunction with simulation results obtained using Mechanism Design. The theoretical discussions simply support the verification of simulation results rather than providing an in-depth discussion on the subjects of kinematics and dynamics.
The inspection process is one of the most important steps in manufacturing industries because it safeguards high quality products and customer satisfaction. Manual inspection may not provide the desired accuracy. This book introduces and implements a new methodology and develops the supporting technologies for automated inspection planning based on Computer Aided Design (CAD) models. It also provides and implements an efficient link for automated operation based on Coordinate Measuring Machine (CMM). The link’s output is a DMIS code programming file based on the inspection planning table that is executed on CMM.
Selected, peer reviewed papers from the 2014 International Conference on Machine Tool Technology and Mechatronics Engineering (ICMTTME 2014), June 22-23, 2014, Guilin, Guangxi, China
This is the first book ever published on the problems of true triaxial testing of rocks addressing all aspects of true triaxial testing of rocks, including: (i) true triaxial testing techniques and procedures; (ii) test results: strength, deformability, failure mode, permeability, acoustic emission, and elastic wave velocity; (iii) constitutive laws and failure criteria; and (iv) applications to geoengineering and geosciences. Recent developments in the field of true triaxial testing of rocks are presented, as well as a thorough review of the most important achievements in the whole history of true triaxial testing of rocks. Almost all researchers from around the world engaged in the true triaxial testing of rocks over the last three decades have contributed to this work. The authors originate from different branches of geoengineering and geosciences, including civil engineering, engineering geology, geotechnical engineering, mining engineering, petroleum engineering, seismology, and tectonophysics.