Autodesk Inventor 2018: Design Variations and Representations


Book Description

The Autodesk® Inventor® 2018: Design Variations and Representations learning guide contains topics that teach you how to efficiently create and represent designs based on existing geometry. Using this learning guide, you will learn how the iFeature, iPart, and iAssembly tools can be used to leverage existing geometry to quickly and easily create additional or slightly varied geometry, and how iMates can be used to define geometry placement in an assembly. The remaining chapters in the learning guide focus on how you can simplify a model to create positional configurations to evaluate components’ range of motion (Positional Representations), create simplified geometry to share with customers while protecting your intellectual property (Shrinkwrap and Assembly Simplification), and how to manage working with large assemblies (Level of Detail Representations). The topics covered in this learning guide are also covered in the following ASCENT learning guides, which include a broader range of advanced topics: - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling Objectives - Create and place an iFeature. - Use the Copy command to duplicate features in a model or between models. - Create a table-driven iFeature. - Edit an iFeature. - Create an iPart that can generate different configurations of a model. - Insert standard or custom iParts into an assembly. - Replace an iPart in an assembly with a new iPart instance. - Modify an iPart factory. - Use a table-driven iPart to create an iFeature. - Build iMate constraints into parts or subassemblies. - Combine multiple iMates into a Composite iMate group. - Manually or automatically match iMates of parts in an assembly. - Control the order in which iMate pairs are previewed by using the Match List functionality. - Vary constraint settings in iParts by including iMates. - Create and place an iAssembly. - Edit an iAssembly Factory. - Create and edit different positional representations of an assembly by overriding the existing settings of an assembly. - Create a Shrinkwrap part that is a simplification of the original component. - Selectively determine which assembly components to include in a simplified view and use that information to create a new part model. - Define bounding box or cylindrical geometry to represent assembly components and use that information to create a new part model. - Combine the use of a simplified view, envelopes, and visibility settings to create a new simplified model. - Display a system-defined Level of Detail (LOD) Representation. - Simplify the display and create user-defined LOD Representations in an assembly. - Replace a complex component for a simpler one using a Substitute Level of Detail Representation. Prerequisites The material covered in this learning guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling learning guide.




Autodesk Inventor 2018: Design Tools and Strategies


Book Description

The Autodesk® Inventor® 2018: Design Tools and Strategies learning guide provides instruction on how to incorporate the use of top-down design and advanced modeling techniques into your design environment. This learning guide begins with an introduction to top-down design and the Autodesk® Inventor® software tools that can be used. There is a focus on multi-body design, deriving components, working with layouts and sketch blocks, and how associative links and adaptive parts can help you incorporate design intent into your models so they react as expected to change. This learning guide also includes chapters that cover Generative Shape Design, Frame Generator, and Design Accelerator, teaching you how you can use these advanced design tools to quickly create designs that meet your requirements. The topics covered in this learning guide are also covered in the following ASCENT learning guides, which include a broader range of advanced topics: - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling Objectives - Define and compare the differences between bottom-up and top-down design. - Learn how to enforce design intent using three major top-down design techniques. - Create solid bodies and correctly assign features to specific solid bodies. - Modify solid bodies in a model by moving, removing, splitting, combining, or redefining them. - Create new parts and assemblies from the multi-bodies in a single part. - Derive new geometry in a part by importing and referencing objects from a source part. - Create and modify layouts and sketch blocks. - Define and test the kinematic motion of an assembly with the use of nested sketch blocks. - Create 3D models from sketch blocks. - Break the associative link between a sketched feature and reference geometry. - Specify geometric entities of part features to change, while controlling the size or location of other entities in an assembly. - Create a Shape Generator study that sets a goal to meet a mass reduction target. - Assign criteria in a Shape Generator study to accurately define a model's working environment. - Promote a Shape Generator study to the modeling environment. - Quickly and easily create structural frames and defining the location of structural frame members using a skeletal wireframe part. - Adjust frame member ends to obtain required joints. - Create and publish custom frame member profiles to the Content Center. - Automatically create geometry using component generators. Prerequisites The material covered in this learning guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling learning guide.




Autodesk Inventor 2018: Presenting Designs with Image and Animation Tools


Book Description

The Autodesk® Inventor® 2018: Presenting Designs with Image and Animation Tools student guide teaches you how to present your Autodesk® Inventor® designs using tools that are available with the software. You begin in the modeling environment, learning how to customize visual styles, include reflections and shadows in a display, set up and control lighting, and create and assign unique material appearances with the aim of enhancing how the model is presented. The student guide also discusses the Presentation and Inventor Studio environments, which can be used to create compelling still images or animations of a design. The Presentation environment enables you to create snapshot views (still images) and animations to help document an assembly. A presentation file can be used to indicate how parts relate to each other and create an exploded view for a drawing. Animating the exploded view enables you to further show how components fit together in an assembly. Inventor Studio is an alternate tool that can also be used to create realistic renderings or animations of models that can be used in model presentations. The topics covered in this student guide are also covered in the following ASCENT student guides, which include a broader range of advanced topics: - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling - Autodesk® Inventor® 2018: Introduction to Solid Modeling Topics covered: - Enhance the appearance of surfaces and edges of a model by assigning visual styles, ray tracing, reflections, shadows, and a ground plane. - Customize and assign lighting styles to control the number, color, and intensity of light sources in a model. - Manipulate the visual appearance of a material using the in-canvas appearance and texture tools. - Create, assign, and edit existing appearances in the model using the Appearance Browser. - Understand how presentation files can be used to document an assembly model. - Create a presentation file with animations or Snapshot views. - Publish a presentation file to create images and videos. - Render a realistic image of a model that has had appearance, lighting, and camera customizations. - Create a realistic animation of a model by applying parameters, constraints, and actions. - Create a composite video by combining camera shots, animations, and transitions using the Video Producer. - Create a custom environment for use when rendering models. Prerequisites: The material covered in this training guide assumes a mastery of Autodesk Inventor basics as taught in Autodesk® Inventor®: Introduction to Solid Modeling. Enhancements that were introduced in the Presentation environment in the R2 release have been included in this version of the student guide. It is recommended that you use the R2 or R3 release of Autodesk Inventor 2018 with this student guide.




Autodesk Inventor 2018 Essentials Plus


Book Description

Autodesk Inventor 2018 Essentials Plus provides the foundation for a hands-on course that covers basic and advanced Autodesk Inventor features used to create, edit, document, and print parts and assemblies. You learn about part and assembly modeling through real-world exercises. Autodesk Inventor 2018 Essentials Plus demonstrates critical CAD concepts, from basic sketching and modeling through advanced modeling techniques, as it equips you with the skills to master this powerful professional tool. The book walks you through every component of the software, including the user interface, toolbars, dialogue boxes, sketch tools, drawing views, assembly modeling, and more. Its unique modular organization puts key information at your fingertips, while step-by-step tutorials make it an ideal resource for self-learning. Packed with vivid illustrations and practical exercises that emphasize modern-day applications, Autodesk Inventor 2018 Essentials Plus will prepare you for work in the real world. Each chapter is organized into four sections. Objectives, which describe the content and learning objectives; topic coverage, which presents a concise review of the topic; exercises, which present the workflow for a specific command or process through illustrated step-by-step instructions; and finally a checking your skills section, which tests your understanding of the material.




Autodesk Inventor Professional 2018 for Designers, 18th Edition


Book Description

Autodesk Inventor Professional 2018 for Designers is a comprehensive book that introduces the users to Autodesk Inventor 2018, a feature-based 3D parametric solid modeling software. All environments of this solid modeling software are covered in this book with thorough explanation of commands, options, and their applications to create real-world products. The mechanical engineering industry examples that are used as tutorials and the related additional exercises at the end of each chapter help the users to understand the design techniques used in the industry to design a product. Additionally, the author emphasizes on the solid modeling techniques that will improve the productivity and efficiency of the users. After reading this book, the users will be able to create solid parts, sheet metal parts, assemblies, weldments, drawing views with bill of materials, presentation views to animate the assemblies, and apply direct modeling techniques to facilitate rapid design prototyping. Also, the users will learn the editing techniques that are essential for making a successful design. Salient Features: Comprehensive book consisting of 19 chapters organized in a pedagogical sequence. Detailed explanation of all concepts, techniques, commands, and tools of Autodesk Inventor Professional 2018. Tutorial approach to explain the concepts. The first page of every chapter summarizes the topics that are covered in it. More than 54 real-world mechanical engineering designs as tutorials and projects. Additional information throughout the book in the form of notes and tips. Self-Evaluation Test, Review Questions, and Exercises are given at the end of each chapter so that the users can assess their knowledge. Technical support by contacting '[email protected]'. Additional learning resources at 'allaboutcadcam.blogspot.com' Table of Contents Chapter 1: Introduction Chapter 2: Drawing Sketches for Solid Models Chapter 3: Adding Constraints and Dimensions to Sketches Chapter 4: Editing, Extruding, and Revolving the Sketches Chapter 5: Other Sketching and Modeling Options Chapter 6: Advanced Modeling Tools-I Chapter 7: Editing Features and Adding Automatic Dimensions to Sketches Chapter 8: Advanced Modeling Tools-II Chapter 9: Assembly Modeling-I Chapter 10: Assembly Modeling-II Chapter 11: Working with Drawing Views-I Chapter 12: Working with Drawing Views-II Chapter 13: Presentation Module Chapter 14: Working with Sheet Metal Components Chapter 15: Introduction to Stress Analysis Chapter 16: Introduction to Weldments (For free download) Chapter 17: Miscellaneous Tools (For free download) Chapter 18: Working with Special Design Tools (For free download) Chapter 19: Introduction to Plastic Mold Design (For free download) Index




Autodesk Inventor 2019 Essentials Plus


Book Description

Autodesk Inventor 2019 Essentials Plus provides the foundation for a hands-on course that covers basic and advanced Autodesk Inventor features used to create, edit, document, and print parts and assemblies. You learn about part and assembly modeling through real-world exercises. Autodesk Inventor 2019 Essentials Plus demonstrates critical CAD concepts, from basic sketching and modeling through advanced modeling techniques, as it equips you with the skills to master this powerful professional tool. The book walks you through every component of the software, including the user interface, toolbars, dialogue boxes, sketch tools, drawing views, assembly modeling, and more. Its unique modular organization puts key information at your fingertips, while step-by-step tutorials make it an ideal resource for self-learning. Packed with vivid illustrations and practical exercises that emphasize modern-day applications, Autodesk Inventor 2019 Essentials Plus will prepare you for work in the real world. Each chapter is organized into four sections. Objectives, which describe the content and learning objectives; topic coverage, which presents a concise review of the topic; exercises, which present the workflow for a specific command or process through illustrated step-by-step instructions; and finally a checking your skills section, which tests your understanding of the material. Who Should Use This Manual? The manual is designed to be used in instructor-led courses, although you may also find it helpful as a self-paced learning tool. It is recommended that you have a working knowledge of Microsoft® Windows® as well as a working knowledge of mechanical design principles.




Learning Autodesk Inventor 2018


Book Description

This book will teach you everything you need to know to start using Autodesk Inventor 2018 with easy to understand, step-by-step tutorials. This book features a simple robot design used as a project throughout the book. You will learn to model parts, create assemblies, run simulations and even create animations of your robot design. An unassembled version of the same robot used throughout the book can be bundled with the book. No previous experience with Computer Aided Design(CAD) is needed since this book starts at an introductory level. The author begins by getting you familiar with the Inventor interface and its basic tools. You will start by learning to model simple robot parts and before long you will graduate to creating more complex parts and multi-view drawings. Along the way you will learn the fundamentals of parametric modeling through the use of geometric constraints and relationships. You will also become familiar with many of Inventor's powerful tools and commands that enable you to easily construct complex features in your models. Also included is coverage of gears, gear trains and spur gear creation using Autodesk Inventor. This book continues by examining the different mechanisms commonly used in walking robots. You will learn the basic types of planar four-bar linkages commonly used in mechanical designs and how to use the GeoGebra Dynamic Geometry software to simulate and analyze 2D linkages. Using the knowledge you gained about linkages and mechanism, you will learn how to modify your robot and change its behavior by modifying or creating new parts. In the final chapter of this book you learn how to combine all the robot parts into assemblies and then run motion analysis. You will finish off your project by creating 3D animations of your robot in action. There are many books that show you how to perform individual tasks with Autodesk Inventor, but this book takes you through an entire project and shows you the complete engineering process. By the end of this book you will have modeled and assembled nearly all the parts that make up the TAMIYA® Mechanical Tiger and can start building your own robot.




Autodesk Inventor 2018 and Engineering Graphics


Book Description

Autodesk Inventor 2018 and Engineering Graphics: An Integrated Approach will teach you the principles of engineering graphics while instructing you on how to use the powerful 3D modeling capabilities of Autodesk Inventor 2018. Using step by step tutorials, this text will teach you how to create and read engineering drawings while becoming proficient at using the most common features of Autodesk Inventor. By the end of the book you will be fully prepared to take and pass the Autodesk Inventor Certified User Exam. This text is intended to be used as a training guide for students and professionals. The chapters in this text proceed in a pedagogical fashion to guide you from constructing basic shapes to making complete sets of engineering drawings. This text takes a hands-on, exercise-intensive approach to all the important concepts of Engineering Graphics, as well as in-depth discussions of parametric feature-based CAD techniques. This textbook contains a series of fifteen chapters, with detailed step-by-step tutorial style lessons, designed to introduce beginning CAD users to the graphic language used in all branches of technical industry. This book does not attempt to cover all of Autodesk Inventor 2018’s features, only to provide an introduction to the software. It is intended to help you establish a good basis for exploring and growing in the exciting field of Computer Aided Engineering.




Parametric Modeling with Autodesk Inventor 2018


Book Description

Parametric Modeling with Autodesk Inventor 2018 contains a series of seventeen tutorial style lessons designed to introduce Autodesk Inventor, solid modeling, and parametric modeling. It uses a hands-on, exercise-intensive approach to all the important parametric modeling techniques and concepts. The lessons guide the user from constructing basic shapes to building intelligent mechanical designs, creating multi-view drawings and assembly models. Other featured topics include sheet metal design, motion analysis, 2D design reuse, collision and contact, stress analysis, 3D printing and the Autodesk Inventor 2018 Certified User Examination.




Autodesk Inventor 2018: Review for Professional Certification


Book Description

Autodesk® Inventor® 2018: Review for Professional Certification is a comprehensive review guide to assist in preparing for the Autodesk Inventor Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. New users of the Autodesk® Inventor® 2018 software should refer to the following ASCENT student guides: - Autodesk® Inventor® 2018: Introduction to Solid Modeling - Autodesk® Inventor® 2018: Advanced Assembly Modeling - Autodesk® Inventor® 2018: Advanced Part Modeling - Autodesk® Inventor® 2018: Sheet Metal Design Prerequisites Autodesk® Inventor® 2018: Review for Professional Certification is intended for experienced users of the Autodesk Inventor software. Autodesk recommends 400 hours of hands-on software experience prior to taking the Autodesk Inventor Certified Professional exam.