Autodesk inventor 2021 tutorial pdf free download

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Type the name of the Title of the page, for example Template. And then click OK. Yamartino M. T-FLEX Parametric CAD is a full-function software system providing mechanical design professionals with the tools they need for today's complex design challenges.

It unites powerful parametric 3D modeling. Sketcher Preface What's New? Log in Registration. Search for. Inventor Essentials Plus. Size: px. Start display at page:. Download "Inventor Essentials Plus". Calvin Reynolds 1 years ago Views:.

Similar documents. Keyboard Shortcuts Keyboard Shortcuts Inventor shortcut keys, or keyboard shortcuts, allow you to access certain tools by pressing a single key or a key combination.

Datum features do More information. Learning Autodesk. Randy H. Better Textbooks. This badge may be claimed by More information. SolidWorks Implementation Guides. Sketch More information. Chapter 9. Editing Features. More information. Creating detailed drawings Creating detailed drawings Publication Number spse Creating detailed drawings Publication Number spse Proprietary and restricted rights notice This software and related documentation are proprietary More information.

SpaceClaim Introduction Training Session. Introduction We will focus on: More information. AutoCAD Autodesk Fusion Assemblies. Overview Overview In this module you will learn how different components can be put together to create an assembly.

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Release Nader G. University of Windsor. Jonathan M. As part of the More information. Start a new file in the Part More information. MET Activity 8a. In this class, you will learn about tools More information. This Skill Builder demonstrates how to define and place sketched symbols in drawings. You create sketched symbols in the sketch environment More information. Chapter 1 What's New in Inventor The number of parameters required for authoring an ipart depends on the type of the part you are publishing.

Advanced Surface Modeling This sample chapter is for review purposes only. Chapter dvanced Modeling Learning Objectives fter completing this chapter, you will be able More information. Autodesk Inventor. Technical What s New. Autodesk Inventor Routed Systems. Autodesk Inventor Simulation. In this tutorial, you will modify a three-dimensional model of a transmission More information.

Microsoft Word Quick Reference Guide. Here you can find all of the drawing and editing tools needed to create fast, accurate, detailed working More information. What s New. Version Released April Copyright Hypertherm, Inc. Autodesk Inventor Fusion Technology Preview. SolidWorks Teacher Guide. Part Design. ME Week 4 Project 1 Assemblies and Constraints 1 Introduction to Assembly Design The following section will give an overview of bring individual components into a common environment and use various tools to assemble them.

ModelIT Version 6. The tutorial is intended More information. ME Week 11 Introduction to Dynamic Simulation The purpose of this introduction to dynamic simulation project is to explorer the dynamic simulation environment of Autodesk Inventor Professional. This environment allows you to perform rigid body dynamic More information.

You will learn the following new applications More information. A mechanical drawing More information. The function of these features will be more More information. Support for course setting is not a priority because More information. The Touchpad is used to navigate the cursor More information. Basic 2D Design Be sure you have the latest information! In SimLab Composer the dialog can be More information. SolidWorks: Mirror, Revolve, and. Create More information. David S. You can do just about anything with it, but it is especially More information.

Leave behind repetitive tasks. Experience the improvements in drawing creation. Following is just a sampling of the new and updated features to speed up manufacturing design workflows in Inventor Using iLogic, a model designer can control parameter and attribute values for the design. ILogic embeds rules as objects directly into a drawing, part or assembly document. So, the knowledge is stored in the document in the same way geometry is stored.

With iLogic you can standardize and automate design processes when configuring your virtual products, saving time and boosting productivity. These parameter types allow rules that involve more than numeric input values. The new possibilities really are compelling. In another on-demand webinar about iLogic, Jason Miles demonstrates what enables rules-driven design and how it provides a simple way to capture and reuse your work.

Using iLogic, you can standardize and automate your design processes and configure your virtual products. If your team is challenged trying to find past revisions of digital prototypes for printing or viewing; if team members prematurely or accidentally use the wrong manufacturing drawings for production; if industry and company standards are not being adhered to; if batch printing of the correct set of drawings is tedious, then Autodesk Vault could help with your team-based design.

Access the on-demand webinar Vault Pro and Inventor Migrations to learn how to automate pipe support design within Inventor. Vault has options that enable design engineers to be more productive when handling and sharing documentation of designs. Some of the most notable improvements in Vault were enhancements for handling PDFs.

Take advantage of manufacturing diagnostics with the Applied Software, Graitec Group customized Manufacturing Diagnostics.

With an Applied Software, Graitec Group Fusion Feasibility Study, your team will learn remotely from Inventor experts how to incorporate Autodesk Fusion into your workflow based on your current manufacturing environment. Take a strategic approach to part and assembly design.

Inventor advanced assembly modeling training topics include: advanced sweeps, lofts, multi-body design, surface modeling, coils, generative shape design, and freedom modeling.

Evaluate your workstation and Inventor environment. Inventor can be purchased as a standalone subscription. The Ultimate Guide to Computational Design World-renowned experts created an all-encompassing guide for everything computational design.

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Select the left vertical line as. Select the top left corner as shown. Based on selected entities, the General Dimension command will create associated dimensions; this is also. Autodesk Inventor provides a special user interface called Dynamic Viewing that enables convenient viewing of the entities in the graphics window.

Inside the graphics window, press and hold down the left-mouse-button, then move downward to enlarge. Click on the Pan icon, located above the Zoom command in the Navigation bar. The icon is the picture of a hand. The Pan command enables us to move the view to a different position. This function acts as if you are using a video camera.

On your own, use the Zoom and Pan options to reposition the sketch near the center of the screen. On you own, repeat the above steps and adjust the dimensions so that the sketch appears as shown. Left-click once on the icon to activate the General Dimension command. The General Dimension command allows us to quickly create and. In the Model tab the tab is located in the Ribbon , select the Extrude command by releasing the left-mouse-button on the.

In the Extrude popup window, expand the window by clicking on the down arrow; enter 0. Notice that the sketch region is automatically selected as the extrusion profile. Note that all dimensions disappeared from the screen. All parametric definitions are stored in the Autodesk Inventor database and any of the parametric definitions can.

Orbit a part or assembly in the graphics window. The Free Orbit tool is accessible while other tools are active. Autodesk Inventor remembers the last used mode when you exit the Orbit command. The 3D Orbit display is a circular rim with four handles and a center mark. Inside the circular rim, press down the left-mouse-button and drag in an arbitrary direction; the 3D Orbit command allows us to freely orbit the solid model.

Move the cursor near the circular rim and notice the cursor symbol changes to a single circle. Drag with the left-mouse-button to orbit about an axis that is.

Single left-mouse-click near the top handle to align the selected location to the center mark in the graphics window. The Constrained Orbit can be used to rotate the model about axes in Model Space, equivalent to moving the eye position about the model in latitude and longitude.

On your own, use the different options described in the above steps and familiarize yourself with both of the 3D Orbit commands. Reset the display to the Isometric view as shown in the figure above before continuing to the next section.

Note that while in the 3D Orbit mode, a horizontal marker will be displayed next to the cursor if the cursor is away from the circular rim. This is the exit marker. The 3D Orbit rim with four handles and the center mark appear on the screen. Note that the Common View option is not available when using the F4 quick key. Zoom Window Use the cursor to define a region for the view; the defined region is zoomed to fill the graphics window.

Zoom Moving upward will reduce the scale of the display, making the entities display smaller on the screen. Moving downward will magnify the scale of the display.

Pan This allows you to reposition the display while maintaining the same scale factor of the display. Zoom Selected In a part or assembly, zooms the selected edge, feature, line, or other element to fill the graphics window. You can select the element either before or after. Orbit In a part or assembly, adds an orbit symbol and cursor to the view. You can orbit the view planar to the screen around the center mark, around a horizontal or vertical axis,. The ViewCube is a clickable interface which allows you to switch between standard and isometric views.

Once the ViewCube is displayed, it is shown in one of the corners of the graphics window over the model in an inactive state. The ViewCube also provides visual feedback about the current viewpoint of the model as view changes occur.

When the. Move the cursor over the ViewCube and notice the different sides of the ViewCube become highlighted and can be activated. Single left-mouse-click when the front side is activated as shown. The current view is set to view the front side. Move the cursor over the counter-clockwise arrow of the ViewCube and notice the orbit option becomes highlighted. Single left-mouse-click to activate the counter-clockwise option as shown. The current view is orbited 90 degrees; we are still.

Move the cursor over the left arrow of the ViewCube and notice the orbit option becomes highlighted. Single left-mouse-click to activate the left arrow option as shown.

The current view is now set to view the top side. Move the cursor over the top edge of the ViewCube and notice the roll option becomes highlighted. Single left-mouse-click to activate the roll option as shown. The view will be adjusted to roll 45 degrees.

Move the cursor over the ViewCube and drag with the left-mouse-button to activate the Free Rotation option. Move the cursor over the home icon of the ViewCube and notice the Home View option becomes highlighted. Single left-mouse-click to activate the Home View option as shown. The view will be adjusted back to the default isometric. Full Navigation Wheel The Navigation Wheel contains tracking menus that are divided into different sections known as wedges.

Each wedge on the wheel represents a. Move the cursor in the graphics window and notice the Full Navigation Wheel menu follows the cursor on the screen. Move the cursor to the left side of the model and click the Center option as shown. The display is adjusted so the. Besides the three basic display modes, we can also choose orthographic view or perspective view of the display.

Click on the icon next to the display mode button on. The Heads-Up Display option in Inventor provides mainly the Dynamic Input function, which can be quite useful for 2D drafting activities. For example, in the use. On your own, examine the other sketch settings that are available, such as switch ON the Grid lines in the Display section. Activate the Model tab and select the Create 2D Sketch command by left-clicking once on the icon.

In the Status Bar area, the message: Select face, workplane, sketch or sketch geometry is displayed. Next, we will create and profile another sketch, a rectangle, which will be used to create another extrusion feature that will be added to the existing solid object. Select OK in the popup menu to end the General Dimension command.

In the Extrude popup window, notice the Profile button is activated; Autodesk Inventor expects us to identify the profile to be extruded.

Move the cursor inside the rectangle we just created and left-click once to select the inside region as the profile to be extruded. On your own, confirm the preview of the extruded feature appears as shown in the above figure. Next, we will create and profile a circle, which will be used to create a cut feature that will be added to the existing solid object. In the Status Bar area, the message: Select face, workplane, sketch or sketch geometry.

Autodesk Inventor. Select the Line command by clicking once with the left-mouse-button on the icon in the Draw toolbar. Create a closed region consisting of four line segments aligned to the upper right corner of the.

In the Create toolbar select the Extrude command by releasing the left-mouse-button on the icon. Next, we will create and profile another sketch, a circle, which will be used to create another extrusion feature that will be added to the existing solid object.

Select the General Dimension command in the Constrain toolbar. The General Dimension command allows us to quickly create and modify. Select Finish Sketch in the popup menu to end the Sketch option. The Decal command can be used to apply a bitmap image on a flat surface to obtain a more realistic three-dimensional model.

Download the TigerFace. Select Save in the Quick Access toolbar, or you can also use the Ctrl-S combination hold down the Ctrl key and hit the S key once to save the part. You should form a habit of saving your work periodically, just in case something might go wrong while you are working on it. In general, you should save your work.

Which command was used to create the last cut feature in the tutorial? How many dimensions do we need to fully describe the cut feature? List and describe three differences between parametric modeling and traditional 2D Computer Aided Drafting techniques. Match case Limit results 1 per page. Lower Price Schroff Development Corporation.

Author: haikal86 Post on Oct 1. Category: Documents 12 download. Tags: design process design variables parametric modeling modeling process parametric dimensions autodesk inventor icon based modeling parametric relations.

Lower Prices. The word parametric means the geometric definitions of the design, such as dimensions, can be varied at any time in the design process. Parametric modeling is accomplished by identifying and creating the key features of the design with the aid of computer software. In Autodesk Inventor, the parametric part modeling process involves the following steps: 1.

Create a rough two-dimensional sketch of the basic shape of the base feature of the design. Add additional parametric features by identifying feature relations and complete the design. Perform analyses on the computer model and refine the design as needed. Create the desired drawing views to document the design. The approach of creating two-dimensional sketches of the three-dimensional features is an effective way to construct solid models.

Many designs are in fact the same shape in one direction. Computer input and output devices we use today are largely two- dimensional in nature, which makes this modeling technique quite practical. This method also conforms to the design process that helps the designer with conceptual design along with the capability to capture the design intent. Most engineers and designers can relate to the experience of making rough sketches on restaurant napkins to convey conceptual design ideas.

Autodesk Inventor provides many powerful modeling and design-tools, and there are many different approaches to accomplishing modeling tasks.

The basic principle of feature-based modeling is to build models by adding simple features one at a time. In this chapter, the general parametric part modeling procedure is illustrated; a very simple solid model with extruded features is used to introduce the Autodesk Inventor user interface. The display viewing functions and the basic two-dimensional sketching tools are also demonstrated. Select the Projects icon with a single click of the left-mouse-button.

Click Done to accept the setting and end the Projects Editor. Select the New File icon with a single click of the left-mouse-button. Notice the Parametric-Modeling project name is displayed as the active project.

We will use the English setting inches for this example. Select the Standard in. Pick Create in the New File dialog box to accept the selected settings. English 4. A line of quick text appears next to the icon as you move the mouse cursor over different icons.

You may resize the Autodesk Inventor drawing window by clicking and dragging the edges of the window, or relocate the window by clicking dragging the window title area. The Ribbon is composed of a series of tool panels, which are organized into tabs labeled by task. The Ribbon provides a compact palette of all of the tools necessary to accomplish the different modeling tasks.

The drop-down arrow next to any icon indicates additional commands are available on the expanded panel; access the expanded panel by clicking on the drop-down arrow. When using a geometric modeler, we therefore need to have a good understanding of what its inherent limitations are. In most 3D geometric modelers, 3D objects are located and defined in what is usually called world space or global space.

Although a number of different coordinate systems can be used to create and manipulate objects in a 3D modeling system, the objects are typically defined and stored using the world space. The world space is usually a 3D Cartesian coordinate system that the user cannot change or manipulate. In engineering designs, models can be very complex, and it would be tedious and confusing if only the world coordinate system were available.

Once a local coordinate system is defined, we can then create geometry in terms of this more convenient system. Although objects are created and stored in 3D space coordinates, most of the geometric entities can be referenced using 2D Cartesian coordinate systems. Typical input devices such as a mouse or digitizer are two-dimensional by nature; the movement of the input device is interpreted by the system in a planar sense.

The same limitation is true of common output devices, such as CRT displays and plotters. The modeling software performs a series of three-dimensional to two-dimensional transformations to correctly project 3D objects onto the 2D display plane.

The Autodesk Inventor sketching plane is a special construction approach that enables the planar nature of the 2D input devices to be directly mapped into the 3D coordinate system. The sketching plane is a local coordinate system that can be aligned to an existing face of a part, or a reference plane.

Think of the sketching plane as the surface on which we can sketch the 2D sections of the parts. It is similar to a piece of paper, a white board, or a chalkboard that can be attached to any planar surface. The first sketch we create is usually drawn on one of the established datum planes. Parametric Modeling Fundamentals 1. Activate the Create 2D Sketch icon with a single click of the left-mouse-button.

When the XY Plane is highlighted, click once with the left-mouse-button to select the Plane as the sketch plane for the new sketch. Note that the sketching plane can be any planar part surface or datum plane. Most conventional CAD systems require the user to input the precise lengths and locations of all geometric entities defining the design, which are not available during the early design stage.

With parametric modeling, we can use the computer to elaborate and formulate the design idea further during the initial design stage.

With Autodesk Inventor, we can use the computer as an electronic sketchpad to help us concentrate on the formulation of forms and shapes for the design. This approach is the main advantage of parametric modeling over conventional solid-modeling techniques. As the name implies, a rough sketch is not precise at all. When sketching, we simply sketch the geometry so that it closely resembles the desired shape. Precise scale or lengths are not needed. Autodesk Inventor provides us with many tools to assist us in finalizing sketches.

For example, geometric entities such as horizontal and vertical lines are set automatically. However, if the rough sketches are poor, it will require much more work to generate the desired parametric sketches. Here are some general guidelines for creating sketches in Autodesk Inventor: Create a sketch that is proportional to the desired shape.

Otherwise, Autodesk Inventor might assume the intended angle to be a degree angle. To create a solid feature, such as an extruded solid, a closed region is required so that the extruded solid forms a 3D volume. Note: The concepts and principles involved in parametric modeling are very different, and sometimes they are totally opposite, to those of conventional computer aided drafting.

In order to understand and fully utilize Autodesk Inventors functionality, it will be helpful to take a Zen approach to learning the topics presented in this text: Have an open mind and temporarily forget your experiences using conventional Computer Aided Drafting systems. Parametric Modeling Fundamentals Step 1: Creating a Rough Sketch The Sketch toolbar provides tools for creating the basic geometry that can be used to create features and parts. Move the graphics cursor to the Line icon in the Draw toolbar.

A Help tip box appears next to the cursor and a brief description of the command is displayed at the bottom of the drawing screen: Creates Straight line segments and tangent arcs. Autodesk Inventor expects us to identify the starting location of a straight line. Graphics Cursors Notice the cursor changes from an arrow to a crosshair when graphical input is expected.

The readout gives you the cursor location, the line length, and the angle of the line measured from horizontal. Move the cursor around and you will notice different symbols appear at different locations. Dynamic Input can be used for entering precise values, but its usage is somewhat limited in parametric modeling. Move the graphics cursor above the last point and create a vertical line as shown in the figure Point 2.

Notice the geometric constraint symbol, a short vertical line indicating the geometric property, is displayed. Geometric Constraint Symbols Autodesk Inventor displays different visual clues, or symbols, to show you alignments, perpendicularities, tangencies, etc. These constraints are used to capture the design intent by creating constraints where they are recognized. Autodesk Inventor displays the governing geometric rules as models are built.

To prevent constraints from forming, hold down the [Ctrl] key while creating an individual sketch curve. For example, while sketching line segments with the Line command, endpoints are joined with a Coincident constraint, but when the [Ctrl] key is pressed and held, the inferred constraint will not be created.

Vertical indicates a line is vertical Horizontal indicates a line is horizontal Dashed line indicates the alignment is to the center point or endpoint of an entity Parallel indicates a line is parallel to other entities Perpendicular indicates a line is perpendicular to other entities Coincident indicates the cursor is at the endpoint of an entity Concentric indicates the cursor is at the center of an entity Tangent indicates the cursor is at tangency points to curves Point 2 Point 1 Constraint Symbol Parametric Modeling Fundamentals 1.

Do not be overly concerned with the actual size of the sketch. Note that the four inclined lines are sketched not perpendicular or parallel to each other. In this example, we will illustrate adding dimensions to describe the sketched entities. Move the cursor to the Constrain toolbar area; it is the toolbar next to the 2D Draw toolbar. Note the first icon in this toolbar is the General Dimension icon.

Select the left vertical line by left-clicking once on the line. Note that the value displayed on your screen might be different than what is shown in the figure above.

Pick a location toward the right of the sketch to place the dimension. Click OK to accept the default value for the dimension.

The General Dimension command will create a length dimension if a single line is selected. Turn off the Edit Dimension option through the popup menu.

We will modify all of the dimensions once we are finished with all the necessary editing. Pick the left vertical line as the geometry to dimension. Pick a location toward the left to place the dimension.

Parametric Modeling Fundamentals 8. Select the left vertical line as shown below. Select the right vertical line as shown below. Pick a location below the sketch to place the dimension. Select the bottom horizontal line as the 2nd geometry to dimension.

Place the dimension toward the left of the sketch as shown. Pick the right line. Pick the left line as the 1st geometry to dimension. Place the dimension below the sketch. Select the left vertical line as shown. Select the adjacent line as the 2nd geometry to dimension. Place the angular dimension in the middle of the two selected lines as shown Based on selected entities, the General Dimension command will create associated dimensions; this is also known as Smart Dimensioning in parametric modeling.

On you own, repeat the above steps and create additional dimensions so that the sketch appears as shown. Note the dimensions are created based on the selected geometry, this is known as the Smart Dimensioning feature in parametric modeling. Parametric Modeling Fundamentals Dynamic Viewing Functions Zoom and Pan Autodesk Inventor provides a special user interface called Dynamic Viewing that enables convenient viewing of the entities in the graphics window. Click on the Zoom icon, located in the Navigation bar as shown.

Move the cursor near the center of the graphics window. Inside the graphics window, press and hold down the left-mouse-button, then move downward to enlarge the current display scale factor.

Press the [Esc] key once to exit the Zoom command. Modifying the Dimensions of the Sketch 1. Select the dimension that is at the bottom of the sketch by double-clicking on the dimension text. When you finish you can share the tutorial publicly or privately. Note: Guided tutorials are not available in Inventor LT. Once you finish the basics, set the Place filter to All Available, and the Type filter to All to view tutorials that cover additional learning content, such as sheet metal design.

Note: An active internet connection is required to view All Available. You can change the gallery display by clicking any of the following: All Available to view tutorials in the you can download. Note: The gallery display updates when a new tutorial is shared publicly with the community.

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Brief explanations, practical examples, and stepwise instructions make this tutorial complete. This book is a combination of focused discussions, real-world examples, and practice exercises. This will help you learn the latest version of Autodesk Inventor quickly and easily. It is well organized so that you can learn and implement the software. The tutorials at the end of each chapter will allow you to jump right and start using the important features of the software.

The interesting examples used in tutorials will show how the software is used in the design process. With all the basic topics of part modeling, assembly modeling, and drawings this book is a good companion. Table of Contents 1. Getting Started with Autodesk Inventor 2. Sketch Techniques 3. Extrude and Revolve Features 4. Placed Features 5. Patterned Geometry 6. Sweep Features 7. Loft Features 8. Additional Features and Multibody Parts 9. This book will teach you everything you need to know to start using Autodesk Inventor 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. 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.

Parametric Modeling with Autodesk Inventor 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, 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.

The video training parallels the exercises found in the text and are designed to be watched first before following the instructions in the book. 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. Autodesk Inventor Certified User Examination The content of Parametric Modeling with Autodesk Inventor covers the performance tasks that have been identified by Autodesk as being included on the Autodesk Inventor Certified User examination.

Photo Editing. Video Editing. By Luke Jumper , Randy H. Designed specifically for beginners with no prior CAD experience Uses a hands-on, exercise-intensive, tutorial style approach Comes with extensive video instruction Covers parametric modeling, 3D Modeling, 3D printing, and the Autodesk Inventor Certified User Exam Contains a chapter introducing you to stress analysis.

By Randy H. Designed for students who want to learn AutoCAD and Inventor and are completely new to CAD Covers 2D drawing, 3D modeling, assembly modeling, freehand sketching and finite element analysis Uses step-by-step instructions throughout the book Includes three assembly projects using three popular robot kits.

Teaches you the principles of both engineering graphics and Autodesk Inventor Uses step by step tutorials that cover the most common features of Autodesk Inventor Includes a chapter on stress analysis Prepares you for the Autodesk Inventor Certified User Exam. Learning Autodesk Inventor Published June 21, Teaches beginners how to use Autodesk Inventor with easy to understand tutorials Features a simple robot design used as a project throughout the book Covers modeling, gear creation, linkage analysis, assemblies, simulations and 3D animation Available with an optional robot kit.

By Daniel T. Banach , Shawna Lockhart. Beginner - Intermediate. Autodesk Inventor Published May 18,