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Parametric modeling with autodesk inventor 2016 pdf free.Parametric modeling with Autodesk Inventor 2016
Configure and run parametric studies, and promote final results back to the model. To examine the effects of geometric variable on your designs, perform a parametric dimension study on the model. You can adjust values in the parametric table to change the results that display. When you modify parameters, the geometry updates for all corresponding features to retain design intent. A Parametric Table lists both parametric dimensions and design constraints.
Design Constraints are the specific result components that you are interested in seeing for those parameters. There are options for each constraint based on your selection. Evaluate only a few of the parameters that describe a part feature so that the result of the simulation remains geometrically predictable. Later, identify that parameter in a simulation, and explore the effect of thickness changes.
Parameter names cannot have spaces. Choose parameter ranges that result in configurations with compatible feature structures and topology when compared to the base model.
The lower section of the table displays the parameters that you nominated previously. To see the results update immediately using a uniform scale, on the ribbon Stress Analysis tab Display panel , turn on Same Scale.
The color bar scales to the largest and smallest values within the parameter result sets. To exclude the list of geometric entities, select Exclude. Otherwise, geometric entities listed are included. The following calculations apply. The software checks against the range - That is, the lower limit is multiplied by the safety factor while the upper limit is divided by the safety factor. The dialog box displays a list of affected components.
By default, all parameters are selected for promotion to the model as part of the edit. Both the Base Value and New Value display. For each component, the parameters are modified and the model updates in a serial manner. Once completed, the Base configuration of the model updates to the new Base parameters.
You can also undock the Parametric Table from the application window. Nominate the parameters for the simulation, identify parameter ranges, and specify design criteria. Generate various configurations, and evaluate and further refine the parameters or design constraints until the results are satisfactory.
Generate Single Configuration Creates a configuration with the current parameter values. Generate All Configurations Creates all configurations for all of the design parameters in the table.
Show Base Configuration Displays the base configuration of the model in the graphics area. When results are satisfactory, promote the configuration back to the model as a CAD edit. Nominate parameters for simulation Evaluate only a few of the parameters that describe a part feature so that the result of the simulation remains geometrically predictable. In the browser, expand the model nodes to reveal the features in a part.
Right-click a feature node to evaluate parametrically, and click Show Parameters. Assembly node Exposes only assembly parameters at the node level. For a subassembly, exposes only parameters for that assembly, and not its child parts. Part node Displays parameters for all features that make up the part. All part occurrences experience changes to part parameters. Feature node Displays all parameters that make up the part feature. In the Select Parameters dialog box, left column, select each parameter to include in the simulation.
Specify parameter ranges Choose parameter ranges that result in configurations with compatible feature structures and topology when compared to the base model. In the Values cell for a given parameter, enter a range in ascending order; For a range, separate the minimum and maximum values by a dash 2 - 4. For a range with a defined number of points in the range, add a colon and the number after the range 2 - 4 : 8.
In this example, the points occur every. When finished, click Enter. Repeat the steps for each parameter that requires a range. To create the geometry, right-click the slider next to the values, and click Generate Range Configurations.
Use the slider to update the display for each range point. In the Design Constraint dialog box, select the Results Component to use as a design constraint. Specify the value behavior - maximum, minimum, or range of values.
Specify whether to include or exclude geometry, and select the entities. Click OK. Note: You can further refine constraints individually. Use Safety Factor as a design constraint The following calculations apply.
Promote configuration to model When results are satisfactory, promote the configuration back to the model as a CAD edit. Clear the checkbox for each parameter that you do not want to promote to the model.
- Parametric modeling with autodesk inventor 2016 pdf free
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, to 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 Certified User Examination. Video Training Included with every new copy of this book is access to extensive video training.
There are forty-seven videos that total nearly six hours of training in total. This video training parallels the exercises found in the text. However, the videos do more than just provide you with click by click instructions. Author Luke Jumper also includes a brief discussion of each tool, as well as rich insight into why and how the tools are used. These videos will provide you with a wealth of information and brings the text to life. They are also an invaluable resource for people who learn best through a visual experience.
These videos deliver a comprehensive overview of the tools found in Autodesk Inventor and perfectly complement and reinforce the exercises in the book.
This book introduces Autodesk Fusion on a step-by-step basis, starting with constructing basic shapes, all the way through to the creation of assembly drawings and 3D printing your own designs.
This book takes a hands on, exercise intensive approach to all the important parametric modeling techniques and concepts. Each lesson introduces a new set of commands and concepts, building on previous lessons. The lessons guide you from constructing basic shapes to building intelligent solid models, assemblies and creating multi-view drawings.
This book also introduces you to the general principles of 3D printing including a brief history of 3D printing, the types of 3D printing technologies, commonly used filaments, and the basic procedure for printing a 3D model. Fusion is a stable product and all the major tools and features of Fusion used in this edition should continue to operate the same way for the foreseeable future.
SDC Publications is committed to updating this book on a regular interval to incorporate new features and changes made to the software. Should a major change to Autodesk Fusion require a newer edition be made available sooner, we will publish a new edition as soon as possible.
Older editions will stop being available once newer editions are released. 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. 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.
This book explores the strengths of each package and shows how they can be used in design, both separately and in combination with each other. No prior CAD experience is required. Table of Contents Introduction: Getting Started 1. Fundamentals of AutoCAD 2. Pictorials and Sketching 7. Parametric Modeling Fundamentals - Autodesk Inventor 8. Model History Tree - Autodesk Inventor Parametric Constraints Fundamentals - Autodesk Inventor Geometric Construction Tools - Autodesk Inventor Symmetrical Features in Design - Autodesk Inventor 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.
It is intended to help you establish a good basis for exploring and growing in the exciting field of Computer Aided Engineering. Author : Prof. All environments of this solid modelling software are covered in this book with a 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 solid modelling 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 modelling techniques to facilitate rapid design prototyping. Also, the users will learn the editing techniques that are essential for making a successful design.
This text covers AutoCAD and the lessons proceed in a pedagogical fashion to guide you from constructing basic shapes to making multiview drawings. It takes a hands-on, exercise-intensive approach to all the important 2D CAD techniques and concepts. This text is also helpful to AutoCAD users upgrading from a previous release of the software.
The new improvements and key enhancements of the software are incorporated into the lessons. The 2D-CAD techniques and concepts discussed in this text are also designed to serve as the foundation to the more advanced parametric feature-based CAD packages such as Autodesk Inventor.
The basic premise of this book is that the more designs you create using AutoCAD , the better you learn the software. With this in mind, each lesson introduces a new set of commands and concepts, building on previous lessons. This book is intended to help readers establish a good basis for exploring and growing in the exciting field of Computer Aided Engineering. There are forty-six videos with more than five hours of training in total. This video training parallels the exercises found in the text and is designed to be watched first before following the instructions in the book.
These videos will provide you with a wealth of information and bring the text to life. These videos deliver a comprehensive overview of the 2D tools found in AutoCAD and perfectly complement and reinforce the exercises in the book.
It is intended to help engineers and designers, interested in learning Autodesk Inventor, to create 3D mechanical designs. This textbook is an excellent guide for new Inventor users and a great teaching aid for classroom training. It consists of 14 chapters and a total of pages covering major environments of Autodesk Inventor such as Sketching environment, Part modeling environment, Assembly environment, Presentation environment, and Drawing environment.
The textbook teaches you to use Autodesk Inventor mechanical design software for building parametric 3D solid components and assemblies as well as creating animations and 2D drawings. Every chapter in this textbook contains Tutorials that provide users with step-by-step instructions for creating mechanical designs and drawings with ease.
Moreover, every chapter ends with Hands-on Test Drives that allow users to experience for themselves the user friendly and powerful capacities of Autodesk Inventor. Table of Contents: Chapter 1. Introduction to Autodesk Inventor Chapter 2. Drawing Sketches with Autodesk Inventor Chapter 3. Editing and Modifying Sketches Chapter 4. Applying Constraints and Dimensions Chapter 5.
Creating Work Features Chapter 7. Advanced Modeling - I Chapter 8. Advanced Modeling - II Chapter 9. Patterning and Mirroring Chapter Working with Assemblies - I Chapter Working with Assemblies - II Chapter Creating Animation and Exploded Views Chapter Working with Drawings Main Features of the Textbook: Comprehensive coverage of tools Step-by-step real-world tutorials with every chapter Hands-on test drives to enhance the skills at the end of every chapter Additional notes and tips Customized content for faculty PowerPoint Presentations Free learning resources for faculty and students Additional student and faculty projects Technical support for the book by contacting [email protected].
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