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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.
The Autodesk(R) Inventor(R) CAM 2022: Milling Fundamentals guide focuses on instructing new users on how to use the Inventor CAM add-on to create milling toolpaths. The guide begins with an introduction to the overall Inventor interface and explains how to manipulate your 3D model to change its orientation and view display. Through additional hands-on, practice-intensive curriculum, you will learn the key skills and knowledge required to take the 3D model, set it up in the CAM environment, and assign the 2D and 3D milling toolpaths needed to generate the CNC code required by milling machines. Topics Covered Navigate the Inventor software interface to locate and execute commands. Use the model orientation commands to pan, zoom, rotate, and look at a model. Assign visual styles to your models. Locate, modify, and create tools in the Tool Library. Set up machining operations using Inventor CAM. Create 2D Milling, 3D Milling and Drilling toolpaths using the Inventor CAM interface. Use the Simulation option to visualize toolpaths. Import a tool library. Create a toolpath template. Post process an Inventor CAM setup to output the CNC code required to machine a model. Prerequisites Access to the 2022 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 (e.g., 2021). As an introductory guide, Autodesk(R) Inventor(R) CAM 2022: Milling Fundamentals does not assume prior knowledge of Autodesk Inventor CAM. However, this guide will not provide instructional content on how to create 3D models using the Inventor modeling tools. Its focus is solely on generating 2D and 3D milling and drilling toolpaths once models are created. The Autodesk(R) Inventor(R) 2022: Introduction to Solid Modeling guide should be used to learn to create 3D models. It is recommended that users have prior experience with the Windows operating system, knowledge of 3D model creation/modification, and an understanding of the CNC milling process.
The Autodesk(R) Inventor(R) CAM 2021: Milling Fundamentals guide focuses on instructing new users on how to use the Inventor CAM add-on to create milling toolpaths. The guide begins with an introduction to the overall Inventor interface and explains how to manipulate your 3D model to change its orientation and view display. Through additional hands-on, practice-intensive curriculum, you will learn the key skills and knowledge required to take the 3D model, set it up in the CAM environment, and assign the 2D and 3D milling toolpaths needed to generate the CNC code required by milling machines. Topics Covered Navigate the Inventor software interface to locate and execute commands. Use the model orientation commands to pan, zoom, rotate, and look at a model. Assign visual styles to your models. Locate, modify, and create tools in the Tool Library. Set up machining operations using Inventor CAM. Create 2D Milling, 3D Milling and Drilling toolpaths using the Inventor CAM interface. Use the Simulation option to visualize toolpaths. Import a tool library. Create a toolpath template. Post process an Inventor CAM setup to output the CNC code required to machine a model. Prerequisites Access to the 2021.1 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 (e.g., 2020). As an introductory guide, Autodesk(R) Inventor(R) CAM 2021: Milling Fundamentals does not assume prior knowledge of Autodesk Inventor CAM. However, this guide will not provide instructional content on how to create 3D models using the Inventor modeling tools. Its focus is solely on generating 2D and 3D milling and drilling toolpaths once models are created. The Autodesk(R) Inventor(R) 2021: Introduction to Solid Modeling guide should be used to learn to create 3D models.
The Autodesk(R) Inventor(R) Nastran(R) 2021.1: Essentials learning guide instructs you in the use of the Autodesk(R) Inventor(R) Nastran(R) software. This learning guide was written using the 2021.1.0.407 build of the software. The software is a finite element analysis (FEA) tool that is embedded directly in the Autodesk(R) Inventor(R) software as an Add-In. It is powered by the Autodesk Nastran solver and offers simulation capabilities specifically tailored for designers and analysts as a tool for predicting the physical behavior of parts or assemblies under various boundary conditions. Through a hands-on, practice-intensive curriculum, students acquire the knowledge required to work in the Autodesk Inventor Nastran environment to setup and conduct FEA analyzes on part and assembly models. Topics Covered Activate and navigate the Autodesk Inventor Nastran environment to conduct FEA analyzes. Create, edit, and assign idealizations and materials (linear, nonlinear, and composites). Manage the creation, setup, and modification of analyses and subcases that are used to analyze both static and dynamic models. Specific analyses types that are covered in this learning guide include: Linear Static, Nonlinear Static, Nonlinear Transient Response, Normal Modes, Direct Frequency Response, Modal Frequency Response, Direct Transient Response, Modal Transient Response, Random Response and Shock/Response Spectrum. Create constraints with the required degrees of freedom and assign them to entities. Create loads that accurately represent the magnitude and location of the loads the model will experience in the working environment. Create Connector elements to simulate how a physical connector such as a rod, cable, spring, rigid body, or bolt will affect the model. Create Surface Contact elements to define contact between interacting components. Assign global and local mesh settings. Run an Autodesk Inventor Nastran analysis. Review and create result plots for analyzing the results. Prerequisites This learning guide assumes that you have Finite Element Analysis (FEA) knowledge, can interpret results, and in general, knows how a model should be setup for an analysis. This learning guide was written using the 2021.1.0.407 build of the software. The user-interface and workflow may vary if older or newer versions of the software are being used.