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ANSYS Workbench 2019 R2: A Tutorial Approach book introduces the readers to ANSYS Workbench 2019, one of the world’s leading, widely distributed, and popular commercial CAE packages. It is used across the globe in various industries such as aerospace, automotive, manufacturing, nuclear, electronics, biomedical, and so on. ANSYS provides simulation solutions that enable designers to simulate design performance. This book covers various simulation streams of ANSYS such as Static Structural, Modal, Steady-State, and Transient Thermal analyses. Structured in pedagogical sequence for effective and easy learning, the content in this textbook will help FEA analysts in quickly understanding the capability and usage of tools of ANSYS Workbench. Salient Features: Book consisting of 11 chapters that are organized in a pedagogical sequence Summarized content on the first page of the topics that are covered in the chapter More than 10 real-world mechanical engineering problems used as tutorials Additional information throughout the book in the form of notes & tips Self-Evaluation Tests and Review Questions at the end of each chapter to help the users assess their knowledge. Table of Contents Chapter 1: Introduction to FEA Chapter 2: Introduction to ANSYS Workbench Chapter 3: Part Modeling - I Chapter 4: Part Modeling -II Chapter 5: Part Modeling - III Chapter 6: Defining Material Properties Chapter 7: Generating Mesh - I Chapter 8: Generating Mesh – II Chapter 9: Static Structural Analysis Chapter 10: Modal Analysis Chapter 11: Thermal Analysis Index
Learning SOLIDWORKS 2019: A Project Based Approach book introduces the readers to SOLIDWORKS 2019, the world's leading parametric solid modeling package. In this book, the author has adopted a project-based approach to explain the fundamental concepts of SOLIDWORKS. This unique approach has been used to explain the creation of parts, assemblies, and drawings of a real-world model. The Learning SOLIDWORKS 2019 book will provide the users a sound and practical knowledge of the software while creating a motor cycle as the real-world model. This knowledge will guide the users to create their own projects in an easy and effective manner. Salient Features: Chapters organized in a pedagogical sequence Summarized content on the first page of the topics that are covered in the chapter Real-world mechanical engineering problems used as tutorials and projects with step-by-step explanation Additional information throughout the book in the form of notes and tips Self-Evaluation Tests and Review Questions at the end of each chapter to help the users assess their knowledge Table of Contents: Chapter 1: Introduction to SOLIDWORKS 2019 Chapter 2: Creating Front Axle, Rear Axle and Disc Plate Chapter 3: Creating Rim ,Front Tire and Rear Tire Chapter 4: Creating Caliper Piston, Pad, and Body Chapter 5: Creating Fork Tube, Holder, and Bodies Chapter 6: Creating Handlebar and Handle Holders Chapter 7: Creating Muffler, Clamp, Swing Arm and Headlight Clamp Chapter 8: Creating Shock Absorber and Engine Parts Chapter 9: Creating Mudguard, Fuel Tank, Headlight Mask, and Seat Cover Chapter 10: Creating Weldment Structural Frame and Seat frame Chapter 11: Creating Motorcycle Assembly Chapter 12: Generating Drawing Views Index
Exploring AutoCAD Civil 3D 2020 book introduces the users to the powerful Building Information Modeling (BIM) solution, AutoCAD Civil 3D. The book helps you learn, create and visualize a coordinated data model that can be used to design and analyze a civil engineering project for its optimum and cost-effective performance. This book has been written considering the needs of the professionals such as engineers, surveyors, watershed and storm water analysts, land developers, and CAD technicians, who wish to learn and explore the usage and abilities of AutoCAD Civil 3D in their respective domains. This book provides comprehensive text and graphical representation to explain concepts and procedures required in designing solutions for various infrastructure works. The tutorials and exercises, which relate to real-world projects, help you better understand the tools in AutoCAD Civil 3D. Salient Features Chapters arranged in pedagogical sequence Comprehensive coverage of concepts and tools covering the scope of the software Real-world engineering projects used in tutorials and exercises Step-by-step examples to guide the users through the learning process Additional information provided throughout the book in the form of tips and notes Self-Evaluation test, Review Questions, and Exercises at the end of each chapter so that the users can assess their knowledge. Table of Contents Chapter 1: Introduction to AutoCAD Civil 3D 2020 Chapter 2: Working with Points Chapter 3: Working with Surfaces Chapter 4: Surface Volumes and Analysis Chapter 5: Alignments Chapter 6: Working with Profiles Chapter 7: Working with Assemblies and Subassemblies Chapter 8: Working with Corridors and Parcels Chapter 9: Sample Lines, Sections, and Quantity Takeoffs Chapter 10: Feature Lines and Grading Chapter 11: Pipe Networks Chapter 12: Pressure Networks Chapter 13: Working with Plan Production Tools, and Data Shortcuts Index
The AutoCAD Plant 3D 2020 for Designers book introduces the readers to AutoCAD Plant 3D 2020, one of the world’s leading application, designed specifically to create and modify P&ID’s and plant 3D models. In this book, the author emphasizes on the features of AutoCAD Plant 3D 2020 that allow the user to design piping & instrumentation diagrams and 3D piping models. Also, the chapters are structured in a pedagogical sequence that makes this book very effective in learning the features and capabilities of AutoCAD Plant 3D 2020. Special emphasis has been laid in this book on tutorials and exercises, which relate to the real world projects, help you understand the usage and abilities of the tools available in AutoCAD Plant 3D 2020. You will learn how to setup a project, create and edit P&IDs, design a 3D Plant model, generate isometric/orthographic drawings, as well as how to publish and print drawings. Salient Features:- Comprehensive coverage of AutoCAD Plant 3D 2020 concepts and techniques. Tutorial approach to explain the concepts of AutoCAD Plant 3D 2020. Detailed explanation of all commands and tools. Summarized content on the first page of the topics that are covered in the chapter. Step-by-step instructions to guide the users through the learning process. Real-world mechanical engineering designs as tutorials. Additional information throughout the book in the form of notes and tips. Self-Evaluation Tests and Review Questions at the end of each chapter to help the users assess their knowledge. Table of Contents Chapter 1: Introduction to AutoCAD Plant 3D Chapter 2: Creating Project and P&IDs Chapter 3: Creating Structures Chapter 4: Creating Equipment Chapter 5: Editing Specifications and Catalogs Chapter 6: Routing Pipes Chapter 7: Adding Valves, Fittings, and Pipe Supports Chapter 8: Creating Isometric Drawings Chapter 9: Creating Orthographic Drawings Chapter 10: Managing Data and Creating Reports Project: Thermal Power Plant (For free download) Index
Exploring Autodesk Navisworks 2020 is a comprehensive book that has been written to cater to the needs of the students and professionals. The chapters in this book are structured in a pedagogical sequence, which makes the learning process very simple and effective for both the novice as well as the advanced users of Autodesk Navisworks. In this book, the author emphasizes on creating 4D simulation, performing clash detection, performing quantity takeoff, rendering, creating animation, and reviewing models through tutorials and exercises. In addition, the chapters have been punctuated with tips and notes, wherever necessary, to make the concepts clear, thereby enabling you to create your own innovative projects. Salient Features Comprehensive book consisting of 404 pages of heavily illustrated text. Detailed explanation of the commands and tools of Autodesk Navisworks. Tips and Notes throughout the book for providing additional information. Self-Evaluation Tests, Review Questions, and Exercises at the end of the chapters. Table of Contents Chapter 1: Introduction to Autodesk Navisworks 2020 Chapter 2: Exploring the Navigation Tools in Navisworks Chapter 3: Selecting, Controlling, and Reviewing Objects Chapter 4: Viewpoints, Sections, and Animations Chapter 5: TimeLiner Chapter 6: Working with Animator and Scripter Chapter 7: Quantification Chapter 8: Clash Detection Chapter 9: Autodesk Rendering in Navisworks Case Study Index
"This book is designed for students pursuing a course on Finite Element Analysis (FEA)/Finite Element Methods (FEM) at undergraduate and post-graduate levels in the areas of mechanical, civil, and aerospace engineering and their related disciplines. It introduces the students to the implement-ation of finite element procedures using ANSYS FEA software. The book focuses on analysis of structural mechanics problems and imparts a thorough understanding of the functioning of the software by making the students interact with several real-world problems.
• Teaches new users how to run Computational Fluid Dynamics simulations using ANSYS Fluent • Uses applied problems, with detailed step-by-step instructions • Designed to supplement undergraduate and graduate courses • Covers the use of ANSYS Workbench, ANSYS DesignModeler, ANSYS Meshing and ANSYS Fluent • Compares results from ANSYS Fluent with numerical solutions using Mathematica As an engineer, you may need to test how a design interacts with fluids. For example, you may need to simulate how air flows over an aircraft wing, how water flows through a filter, or how water seeps under a dam. Carrying out simulations is often a critical step in verifying that a design will be successful. In this hands-on book, you’ll learn in detail how to run Computational Fluid Dynamics (CFD) simulations using ANSYS Fluent. ANSYS Fluent is known for its power, simplicity and speed, which has helped make it a world leader in CFD software, both in academia and industry. Unlike any other ANSYS Fluent textbook currently on the market, this book uses applied problems to walk you step-by-step through completing CFD simulations for many common flow cases, including internal and external flows, laminar and turbulent flows, steady and unsteady flows, and single-phase and multiphase flows. You will also learn how to visualize the computed flows in the post-processing phase using different types of plots. To better understand the mathematical models being applied, we’ll validate the results from ANSYS Fluent with numerical solutions calculated using Mathematica. Throughout this book we’ll learn how to create geometry using ANSYS Workbench and ANSYS DesignModeler, how to create mesh using ANSYS Meshing, how to use physical models and how to perform calculations using ANSYS Fluent. The twenty chapters in this book can be used in any order and are suitable for beginners with little or no previous experience using ANSYS. Intermediate users, already familiar with the basics of ANSYS Fluent, will still find new areas to explore and learn. An Introduction to ANSYS Fluent 2019 is designed to be used as a supplement to undergraduate courses in Aerodynamics, Finite Element Methods and Fluid Mechanics and is suitable for graduate level courses such as Viscous Fluid Flows and Hydrodynamic Stability. The use of CFD simulation software is rapidly growing in all industries. Companies are now expecting graduating engineers to have knowledge of how to perform simulations. Even if you don’t eventually complete simulations yourself, understanding the process used to complete these simulations is necessary to be an effective team member. People with experience using ANSYS Fluent are highly sought after in the industry, so learning this software will not only give you an advantage in your classes, but also when applying for jobs and in the workplace. This book is a valuable tool that will help you master ANSYS Fluent and better understand the underlying theory.
The assembly sector is one of the least automated in the manufacturing industry. Automation is essential if industrial companies are to be competitive in the future. In assembly, an integrated and flexible approach is needed because 75% of the applications are produced in small and medium batches. The methodologies developed in this book deal with the integration of the assembly process from the initial design of the product to its production. In such an integrated system, assembly planning is one of the most important features. A well-chosen assembly plan will reduce both the number of tool changes and the fixtures within the assembly cell. It will prevent the handling of unstable subassemblies, simplify the design of the robot grippers and reduce production costs. An automatic generator of assembly sequences can be an efficient aid to the designer. Whenever he or she modifies features of the product, the influence of these modifications can immediately be checked on the sequences. For small batch production, the automatic generation of assembly sequences is faster, more reliable and more cost-effective than manual generation. By using this latter method interesting sequences could be missed because of the combinatorial explosion of solutions. The main subjects treated in this book are as follows. 1. Presentation and classification of existing systems of automatic generation of assembly sequences. Automatic assembly planning is, indeed, a very recent research area and, in my experience, no systematic study has been carried out up to now.
This volume gathers the latest advances, innovations and applications in the field of vibration and technology of machinery, as presented by leading international researchers and engineers at the XV International Conference on Vibration Engineering and Technology of Machinery (VETOMAC), held in Curitiba, Brazil on November 10-15, 2019. Topics include concepts and methods in dynamics, dynamics of mechanical and structural systems, dynamics and control, condition monitoring, machinery and structural dynamics, rotor dynamics, experimental techniques, finite element model updating, industrial case studies, vibration control and energy harvesting, and MEMS. The contributions, which were selected through a rigorous international peer-review process, share exciting ideas that will spur novel research directions and foster new multidisciplinary collaborations.