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Note: This book is a continuation of Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling - Part 1 The Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling guide provides you with an understanding of the parametric design philosophy through a hands-on, practice-intensive curriculum. You will learn the key skills and knowledge required to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered Understanding the Autodesk Inventor software interface Creating, constraining, and dimensioning 2D sketches Creating and editing the solid base 3D feature from a sketch Creating and editing secondary solid features that are sketched and placed Creating equations and working with parameters Manipulating the display of the model Resolving feature failures Duplicating geometry in the model Placing and constraining/connecting parts in assemblies Manipulating the display of components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views) Modifying and analyzing the components in an assembly Simulating motion in an assembly Creating parts and features in assemblies Creating and editing an assembly Bill of Materials Working with projects Creating and annotating drawings and views Customizing the Autodesk Inventor environment Prerequisites Access to the 2020 version of the software. The practices and files included with this guide might not be compatible with prior versions. As an introductory guide, Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling does not assume prior knowledge of any 3D modeling or CAD software. You need to be experienced with the Windows operating system, and having a background in drafting of 3D parts is recommended.
Note: This book is continued in Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling - Part 2. The Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling guide provides you with an understanding of the parametric design philosophy through a hands-on, practice-intensive curriculum. You will learn the key skills and knowledge required to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered Understanding the Autodesk Inventor software interface Creating, constraining, and dimensioning 2D sketches Creating and editing the solid base 3D feature from a sketch Creating and editing secondary solid features that are sketched and placed Creating equations and working with parameters Manipulating the display of the model Resolving feature failures Duplicating geometry in the model Placing and constraining/connecting parts in assemblies Manipulating the display of components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views) Modifying and analyzing the components in an assembly Simulating motion in an assembly Creating parts and features in assemblies Creating and editing an assembly Bill of Materials Working with projects Creating and annotating drawings and views Customizing the Autodesk Inventor environment Prerequisites Access to the 2020 version of the software. The practices and files included with this guide might not be compatible with prior versions. As an introductory guide, Autodesk(R) Inventor(R) 2020: Introduction to Solid Modeling does not assume prior knowledge of any 3D modeling or CAD software. You need to be experienced with the Windows operating system, and having a background in drafting of 3D parts is recommended.
Note: This book is a continuation of Autodesk(R) Inventor(R) 2020: Introduction for Experienced 3D CAD Users - Part 1. Both books are required to complete this guide. The Autodesk(R) Inventor(R) 2020: Introduction for Experienced 3D CAD Users learning guide is intended to provide accelerated introductory training in the Autodesk(R) Inventor(R) software. This learning guide is designed for users that have 3D modeling design experience with other 3D CAD software packages (e.g., CATIA(TM), Pro/ENGINEER(R), Creo Parametric(TM), NX(TM), SolidWorks(R), etc.). By leveraging the experience users gain in working with other 3D modeling software packages, this hands-on, practice-intensive guide is developed so that new users in the Autodesk Inventor software can benefit from a shorter, introductory-level, learning guide. You are taught how to find and use the modeling tools associated with familiar modeling strategies that are used in other 3D CAD software. You will acquire the knowledge required to complete the process of creating models from conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered The Autodesk Inventor software interface Obtaining model information Creating sketch and pick and place features Work Features Creating equations and working with parameters Model geometry and model display manipulation Feature duplication techniques Placing and constraining parts in assemblies Assembly component display Presentation files (Exploded views and Animations) Assembly tools Creating parts and features in assemblies Creating and editing assembly Bill of Materials Working with projects Creating and annotating drawings and views Prerequisites Access to the 2020.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide are not compatible with prior versions (i.e., 2019). Prior knowledge of 3D modeling and 3D CAD software. Users with AutoCAD(R) or AutoCAD(R) Mechanical experience are recommended to use the Autodesk Inventor 2020: Introduction to Solid Modeling guide.
Note: This book is continued in Autodesk(R) Inventor(R) 2020: Introduction for Experienced 3D CAD Users - Part 2. Both books are required to complete this guide. The Autodesk(R) Inventor(R) 2020: Introduction for Experienced 3D CAD Users learning guide is intended to provide accelerated introductory training in the Autodesk(R) Inventor(R) software. This learning guide is designed for users that have 3D modeling design experience with other 3D CAD software packages (e.g., CATIA(TM), Pro/ENGINEER(R), Creo Parametric(TM), NX(TM), SolidWorks(R), etc.). By leveraging the experience users gain in working with other 3D modeling software packages, this hands-on, practice-intensive guide is developed so that new users in the Autodesk Inventor software can benefit from a shorter, introductory-level, learning guide. You are taught how to find and use the modeling tools associated with familiar modeling strategies that are used in other 3D CAD software. You will acquire the knowledge required to complete the process of creating models from conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered The Autodesk Inventor software interface Obtaining model information Creating sketch and pick and place features Work Features Creating equations and working with parameters Model geometry and model display manipulation Feature duplication techniques Placing and constraining parts in assemblies Assembly component display Presentation files (Exploded views and Animations) Assembly tools Creating parts and features in assemblies Creating and editing assembly Bill of Materials Working with projects Creating and annotating drawings and views Prerequisites Access to the 2020.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide are not compatible with prior versions (i.e., 2019). Prior knowledge of 3D modeling and 3D CAD software. Users with AutoCAD(R) or AutoCAD(R) Mechanical experience are recommended to use the Autodesk Inventor 2020: Introduction to Solid Modeling guide.
The Autodesk(R) Inventor(R) 2020: Surface and Freeform Modeling guide teaches you how to incorporate surfacing and freeform modeling techniques into your design environment. You begin with instruction on how to create the splines and 3D sketches commonly used in surface creation. Chapters on surface creation focus on using these sketches or existing geometry to create surfaces for use in your solid models. Freeform modeling is also covered, which enables you to create complex shapes without needing the constraints required in a parametric workflow. To complete the guide, you will learn how to use the Autodesk Inventor surface analysis tools to evaluate the continuity between surfaces and the curvature on a surface, determine if the applied draft is within a specified range, and conduct section analysis to evaluate wall thickness values. The topics covered in this guide are also covered in ASCENT's Autodesk(R) Inventor(R) 2020: Advanced Part Modeling guide, which includes a broader range of advanced learning topics. Topics Covered Create spline and 3D sketched entities. Create planar and three-dimensional surfaces. Combine individual surface features into a single quilted surface. Add or remove material in a model by referencing a surface. Create solid geometry using surface geometry. Remove portions of a surface using a reference surface or work plane. Manipulate the extent of a surface by extending or stretching it. Create a new solid face by replacing an existing solid face with surface geometry. Remove existing surfaces or solid faces from a model. Copy surfaces from one model into another. Create freeform geometry base shapes, faces, and converted geometry. Edit freeform base geometry by manipulating existing geometry or adding new elements to the base shape. Use the surface analysis tools to evaluate continuity between surfaces, check draft values, analyze curvature on a surface, and review sectioned areas of the model. Prerequisites Access to the 2020.0 version of the software, to ensure compatibility with this guide. Future software updates that are released by Autodesk may include changes that are not reflected in this guide. The practices and files included with this guide might not be compatible with prior versions (i.e., 2019). The material covered in this guide assumes a mastery of Autodesk Inventor basics as taught in the Autodesk Inventor: Introduction to Solid Modeling guide.
The Autodesk(R) Inventor(R) 2018: Introduction to Solid Modeling training guide provides you with an understanding of the parametric design philosophy through a hands-on, practice-intensive curriculum. You will learn the key skills and knowledge needed to design models using Autodesk Inventor, starting with conceptual sketching, through to solid modeling, assembly design, and drawing production. Topics Covered Understanding the Autodesk(R) Inventor(R) software interface Creating, constraining, and dimensioning 2D sketches Creating and editing the solid base 3D feature from a sketch Creating and editing secondary solid features that are sketched and placed Creating equations and working with parameters Manipulating the display of the model Resolving feature failures Duplicating geometry in the model Placing and constraining/connecting parts in assemblies Manipulating the display of components in an assembly Duplicating components in an assembly Obtaining model measurements and property information Creating Presentation files (Exploded views and Animations) Modifying and analyzing the components in an assembly Simulating motion in an assembly Creating parts and features in assemblies Creating and editing an assembly Bill of Materials Working with projects Creating and annotating drawings and views Customizing the Autodesk Inventor environment Prerequisites As an introductory training guide, Autodesk Inventor 2018: Introduction to Solid Modeling does not assume prior knowledge of any 3D modeling or CAD software. Students do need to be experienced with the Windows operating system and a background in drafting of 3D parts is recommended.
• Blends technical drawing and an introduction to AutoCAD 2022 • Covers both mechanical and architectural projects • Twenty six hours of video instruction is included with each book • Drafting theory is incorporated throughout the text • Designed to be used in a single semester, instructor led course • Each chapter contains key terms, unit summaries, review questions and drawing projects Technical Drawing 101 covers topics ranging from the most basic, such as making freehand, multiview sketches of machine parts, to the advanced—creating an AutoCAD dimension style containing the style settings defined by the ASME Y14.5-2009 Dimensioning and Tolerancing standard. But unlike the massive technical drawing reference texts on the market, Technical Drawing 101 aims to present just the right mix of information and projects that can be reasonably covered by faculty, and assimilated by students, in one semester. Both mechanical and architectural projects are introduced to capture the interest of more students and to offer a broader appeal. The authors have also created extensive video training (176 videos, 26 hours total) that is included with every copy of the book. In these videos the authors start off by getting students comfortable with the user interface and demonstrating how to use many of AutoCAD's commands and features. The videos progress to more advanced topics where the authors walk students through completing several of the projects in the book. The CAD portion of the text incorporates drafting theory whenever possible and covers the basics of drawing setup (units, limits, and layers), the tools of the Draw, Modify, and Dimension toolbars, and the fundamentals of 3D modeling. By focusing on the fundamental building blocks of CAD, Technical Drawing 101 provides a solid foundation for students going on to learn advanced CAD concepts and techniques (paper space, viewports, xrefs, annotative scaling, etc.) in intermediate CAD courses. In recognition of the diverse career interests of our students, Technical Drawing 101 includes projects in which students create working drawings for a mechanical assembly as well as for an architectural project. We include architectural drawing because our experience has shown that many (if not most) first-semester drafting students are interested in careers in the architectural design field, and that a traditional technical drawing text, which focuses solely on mechanical drawing projects, holds little interest for these students. The multidisciplinary approach of this text and its supporting materials are intended to broaden the appeal of the curriculum and increase student interest and, it is hoped, future enrollments.