This volume is a step-by-step guide to drawing techniques. It teaches both technical drawing and freehand sketching and has special units with applications for mechanical and chemical engineering. Based on the South African Bureau of Standards Code of Practice for Engineering Drawing (SABS 0111).

This book has been designed as a teaching tool and a self-study guide to learn AutoCAD and AutoLISP. Contents have been presented in a pedagogical format by delivering the fundamental concepts first, then moving toward the more advanced and specialized features of AutoCAD. The book covers 2D and 3D drawing in addition to AutoLISP. This book will be a unique choice for the engineers, planners, architects, and others who need to learn AutoCAD and AutoLISP.

A thoroughly contemporary approach to teaching essential engineering graphics skills has made Fundamentals of Graphics Communication the leading textbook in introductory engineering graphics courses. The sixth edition continues to integrate design concepts and the use of CAD into its outstanding coverage of the basic visualization and sketching techniques that enable students to create and communicate graphic ideas effectively. As in past editions, the authors have included many examples of how graphics communication pertains to "real-world" engineering design, including current industry practices and breakthroughs. A website provides additional resources such as an image library, animations, and quizzes.

This book guides the reader through the subject of heat transfer, covering the analytical, coding, finite element, and hybrid methods of thermal modeling. It leads the reader through the processes of model creation for heat transfer analysis and validating them using analytical techniques and partial differential equations. The primary focus is on the MATLAB (R) and COMSOL Multiphysics (R) software packages. The content can be utilized in a variety of engineering disciplines including mechanical, aerospace, biomedical, chemical, civil, and electrical. Mathematicians, analysts, and scientists might also benefit from the content, because it provides the reader with an introduction to the heat transfer science as well as numerical and analytical thermal modeling. Companion files with models and full color figures from the book are included. FEATURES: Includes 2D and 3D thermal modeling examples created with COMSOL Multiphysics version 5.6 (Heat Transfer Module) as well as general guidance on geometry creation and import Covers 2D and 3D thermal modeling examples created with the MATLAB PDE Toolbox and axisymmetric 2D thermal modeling examples created with the MATLAB PDE Modeler Provides case studies and example models which enable the reader to implement conceptual material in practical scenarios with broad industrial applications Validation of FEM analyses with analytical approaches Features an introduction to MATLAB v.R2021 for readers with no prior knowledge of the software Includes companion files with the models created with COMSOL Multiphysics and MATLAB.

Geared toward in an introductory course in solid modeling, "Introduction to Solid Modeling Using SolidWorks" by Edward Howard and Joseph Musto, of East Carolina University and the Milwaukee School of Engineering, respectively, teaches solid modeling using SolidWorks. The text presents solid modeling not just as a communication tool, but as an integral part of the design process. To this end the book explores "design intent," the use of solid models in "engineering analysis," and introduces techniques from manufacturing such as mold design and sheet metal patterning.

Howard and Musto provide a student-friendly presentation filled with easy-to-use tutorials. Their approach is also designed to help students understand how engineering is used in the real world. For instance, modeling exercises are largely centered on examples drawn from industrial applications. As well, "Future Study" boxes introduce students to different topics they will study in their engineering programs.

A revised text that presents specific design methods within an overall strategy from concept to detail design The fifth edition of Engineering Design Methods is an improved and updated version of this very successful, classic text on engineering product design. It provides an overview of design activities and processes, detailed descriptions and examples of how to use key design methods, and outlines design project strategies and management techniques. Written by a noted expert on the topic, the new edition contains an enriched variety of examples and case studies, and up to date material on design thinking and the development of design expertise. This new edition opens with a compelling original case study of a revolutionary new city-car design by ex-Formula One designer Gordon Murray. The study illustrates the complete development of a novel design and brings to life the process of design, from concept through to prototype. The core of the book presents detailed instructions and examples for using design methods throughout the design process, ranging from identifying new product opportunities, through establishing functions and setting requirements, to generating, evaluating and improving alternative designs. This important book: Offers a revised and updated edition of an established, successful text on understanding the design process and using design methods Includes new material on design thinking and design ability and new examples of the use of design methods Presents clear, detailed and illustrated presentations of eight key design methods in engineering product design Written for undergraduates and postgraduates across all fields of engineering and product design, the fifth edition of Engineering Design Methods offers an updated, substantial, and reliable text on product design and innovation.

The advent of railways in Britain was a fundamental part of its economic and social revolution in the 19th century, with technical advances that were the envy of the world and chronicled from the beginning through meticulous drawings. Detailed plans were created of locomotives, carriages and wagons, as well as of stations, bridges and tunnels, to facilitate the manufacturing process and the maintenance of the rapidly expanding railway network. Miraculously, about a million of these magnificent drawings have survived and are held in the National Railway Museum in York. Christopher Valkoinen has selected over 130 examples that tell the engineering history of great innovations and triumphs, such as the Forth Bridge, and reveal the work of famous pioneers, including Richard Trevithick, George Stephenson, and Nigel Gresley of Flying Scotsman fame. Other plans range from Queen Victoria's royal saloon and a travelling post office to a station tea-room at York and modern experiments with a hovertrain. There are also drawings for railways around the world: the USA, Russia, Japan, India, Australia and Egypt, among others, as well as contemporary photographs and posters. Throughout, Valkoinen provides valuable insights into the social and political impact of the railways. He also reveals how these drawings are more than a reference tool for the historian or modelmaker; they are exquisite works of art, painstakingly produced by highly skilled artists, which can be appreciated in their own right. With 300 illustrations

FUNDAMENTALS OF GEOMETRIC DIMENSIONING AND TOLERANCING 3E is a unique book that meets your needs if you are studying industrial technology, CAD, engineering technology, or manufacturing technology. This book clearly organizes geometric dimensioning and tolerancing fundamentals into small, logical units for step-by-step understanding. Measurable performance objectives help you assess your progress. Discussion questions promote interaction and higher-order thinking, and practice problems ensure thorough understanding of the concepts presented. FUNDAMENTALS OF GEOMETRIC DIMENSIONING AND TOLERANCING 3E defines and fully encompasses the revised ANSI/ASME Y14.5M-2009 to keep you current on these important industry standards. This book is cited by top industry professionals as meeting the highest "standards" for a GD&T book

A city of ten million, Wuhan is the engineering center of China, a site of remarkable functional architecture on a breathtaking scale. This book features photographs, plans and accounts of major projects found in or originating in Wuhan, along with analyses of twenty-four the most impressive engineering works in China, including the Three Gorges Dam, power plants, tunnels, and bridges. In the process, the book reveals the unique culture of engineering in Wuhan, an approach that refuses to differentiate between the functional and the aesthetic--and that views engineering skill and knowledge as essential for pushing design forward.

This book is intended for engineers, computer scientists, managers and all those concerned with computer graphics, computer-aided design and computer-aided manufacture. While it is primarily intended for students, lecturers and teachers, it will also appeal to those practising in industry. Its emphasis on applications will make it easier for those not currently concerned with computers to under stand the basic concepts of computer-aided graphics and design. In a previous text (Engineering Drawing and Computer Graphics), two of the authors introduced the basic principles of engineering drawing and showed how these were related to the fundamentals of computer graphics. In this new text, the authors attempt to give a basic understanding of the principles of computer graphics and to show how these affect the process of engineering drawing. This text therefore assumes that the reader already has a basic knowl edge of engineering drawing, and aims to help develop that understanding through the medium of computer graphics and by the use of a number of computer graphics exercises. The text starts by giving an overview of the basics of hardware and software for CAD and then shows how these principles are applied, in practice, in the use of a number of graphics packages of different levels of complexity. The use of a graphical database and the implications for computer-aided design and manufacture are also discussed. This book is unique in its applications approach to computer graphics.

This book provides over 250 quick review problems with complete, step-by-step solutions for all types of mechanical engineering exams. It covers all the important mathematical concepts used in mechanical engineering, physics, and other sciences, including functions, derivatives, integration, methods of integration, applications of integrals, matrices, complex numbers, and more. Excellent review of key mathematical topics prior to taking the exams. FEATURES: Includes over 250 review problems with complete, step-by-step solutions Covers all the important mathematical concepts used in mechanical engineering including functions, derivatives, integration, methods of integration, applications of integrals, matrices, complex numbers, and more.

Orthographic Projection Simplified is an introductory approach to understanding mechanical drawings.

For more than 25 years, students have relied on this trusted text for easy-to-read, comprehensive drafting and design instruction that complies with the latest ANSI and ASME industry standards for mechanical drafting. The Sixth Edition of ENGINEERING DRAWING AND DESIGN continues this tradition of excellence with a multitude of real, high-quality industry drawings and more than 1,000 drafting, design, and practical application problems-including many new to the current edition. The text showcases actual product designs in all phases, from concept through manufacturing, marketing, and distribution. In addition, the engineering design process now features new material related to production practices that eliminate waste in all phases, and the authors describe practices to improve process output quality by using quality management methods to identify the causes of defects, remove them, and minimize manufacturing variables.