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Autodesk Inventor 2018 Presenting Designs With Image And Animation Tools

Author: ASCENT - Center for Technical Knowledge
Publisher: ASCENT - Center for Technical Knowledge
ISBN:
Size: 42.49 MB
Format: PDF, Mobi
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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 2019

Author: ASCENT - Center for Technical Knowledge
Publisher: Ascent, Center for Technical Knowledge
ISBN: 9781947456327
Size: 70.32 MB
Format: PDF, Mobi
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The Autodesk(R) Inventor(R) 2019: Advanced Assembly Modeling learning guide builds on the skills acquired in the Autodesk Inventor 2019: Introduction to Solid Modeling and Autodesk Inventor 2019: Advanced Part Modeling learning guides to take students to a higher level of productivity when creating and working with assemblies. Begin by focusing on the Top-Down Design workflow. You learn how tools are used to achieve this workflow using Derive, Multi-Body Design, and Layouts. Other topics include model simplification tools, Positional and Level of Detail Representations, iMates and iAssemblies, Frame Generator, Design Accelerator, and file management and duplication techniques. A chapter has also been included about the Autodesk(R) Inventor(R) Studio to teach you how to render, produce, and animate realistic images Topics Covered Applying motion to existing assembly constraints using Motion and Transitional Constraints. Introduction of the Top-Down Design technique for creating assemblies and its components. Tools for Top-Down Design, such as associative links, adaptive parts, multi-body and layout design, derived components, and skeleton models. Creating Positional Representations to review motion, evaluate the position of assembly components, or document an assembly in a drawing. Using Shrinkwrap and other model simplification tools to create a part model that represents an overall assembly. Creating Level of Detail Representations to reduce the clutter of large assemblies, reduce retrieval times, and substituting models. Using the Design Accelerator to easily insert standard and customizable components and features into your model. Creating rendered realistic images and animations of parts and assemblies using Autodesk Inventor Studio and the Video Producer. Prerequisites Access to the 2019 version of the software. The practices and files included with this guide might not be compatible with prior versions. The class assumes mastery of Autodesk Inventor basics as taught in Autodesk(R) Inventor(R): Introduction to Solid Modeling. In addition, Autodesk(R) Inventor(R): Advanced Part Modeling knowledge is recommended. The use of Microsoft(R) Excel is required for this training cour

Autodesk Inventor 2018 Advanced Assembly Modeling

Author: ASCENT - Center for Technical Knowledge
Publisher: Ascent, Center for Technical Knowledge
ISBN: 9781946571250
Size: 21.64 MB
Format: PDF, ePub, Mobi
View: 5280
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The Autodesk(R) Inventor(R) 2018: Advanced Assembly Modeling student guide builds on the skills acquired in the Autodesk(R) Inventor(R) 2018: Introduction to Solid Modeling and Autodesk(R) Inventor(R) 2018: Advanced Part Modeling student guides to take students to a higher level of productivity when creating and working with assemblies. You begin by focusing on the Top-Down Design workflow. You learn how tools are used to achieve this workflow using Derive, Multi-Body Design, and Layouts. Other topics include model simplification tools, Positional and Level of Detail Representations, iMates and iAssemblies, Frame Generator, Design Accelerator, and file management and duplication techniques. A chapter has also been included about the Autodesk(R) Inventor(R) Studio to teach you how to render, produce, and animate realistic images. Topics Covered Applying motion to existing assembly constraints using Motion and Transitional Constraints. Introduction of the Top-Down Design technique for creating assemblies and its components. Tools for Top-Down Design, such as associative links, adaptive parts, multi-body and layout design, derived components, and skeleton models. Creating Positional Representations to review motion, evaluate the position of assembly components, or document an assembly in a drawing. Using Shrinkwrap and other model simplification tools to create a part model that represents an overall assembly. Creating Level of Detail Representations to reduce the clutter of large assemblies, reduce retrieval times, and substituting models. Using the Design Accelerator to easily insert standard and customizable components and features into your model. Creating rendered realistic images and animations of parts and assemblies using Autodesk Inventor Studio and the Video Producer. Using iMates and iAssemblies to work efficiently with assemblies. Using the Frame Generator to create structural members. Using pattern, mirror, and copy techniques to duplicate components in an assembly. Working with weldments. Link and drive parameters to and from a spreadsheet. You also learn to custom format and create expressions in a parameter. Prerequisites The class assumes mastery of Autodesk Inventor basics as taught in Autodesk Inventor Introduction to Solid Modeling. Autodesk Inventor Advanced Part Modeling knowledge is recommended. The use of Microsoft Excel is required for this training course.

Autodesk Navisworks 2017 Using Autodesk Navisworks In A Bim Workflow

Author: ASCENT - Center for Technical Knowledge
Publisher: Ascent, Center for Technical Knowledge
ISBN: 9781946571410
Size: 59.69 MB
Format: PDF, Mobi
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The Autodesk(R) Navisworks(R) 2017: Using Autodesk Navisworks in a BIM Workflow student guide teaches you how to better predict project outcomes, reduce conflicts and changes, and achieve lower project risk using the Autodesk(R) Navisworks(R) Manage software in a BIM workflow. Building Information Modeling (BIM) encompasses the entire building life cycle. BIM includes all phases of the design process, from model creation, to construction, and ending at operations and maintenance. Using a BIM workflow, you will learn how a design changes throughout the BIM process, and how the changes affect the BIM model. Over the course of this student guide, you will learn how to consolidate civil, architectural, structural, and MEP models into one BIM model. Starting with an AutoCAD(R) Civil 3D(R) drawing file, you will append various Autodesk(R) Revit(R) and Autodesk(R) Inventor(R) models and check for conflicts. Next, you will use review and markup tools for communicating issues across disciplines. Finally, you will use TimeLiner, Animator, and Clash Detective to simulate construction and find constructibility issues and on-site clashes. This student guide is designed for new and experienced users of the Autodesk Navisworks software in multiple disciplines. This student guide has been developed using software version 14.0.1298.75. Topics Covered Understanding the purpose of Building Information Modeling (BIM) and how it is applied in the Autodesk Navisworks software. Consolidate Models Navigating the Autodesk Navisworks workspace and interface. Creating a composite model. Transforming models for proper alignment. Review and Analyze Models Using basic viewing tools. Saving and retrieving views. Sectioning a model. Investigating properties. Searching for items. Hiding and unhiding items. Communication Measuring a model. Adding tags and comments to model components. Marking up and redlining the model. Animate a model. Collaboration Reviewing a model for clashes. Consolidating redlines from other team members. Construction Creating a construction timeline. Animating a construction timeline. Prerequisites This student guide is designed for new and experienced users of the Autodesk Navisworks software in multiple disciplines. A working knowledge of 3D design and task-scheduling software is recommended.

Mastering Autodesk Inventor 2016 And Autodesk Inventor Lt 2016

Author: Paul Munford
Publisher: John Wiley & Sons
ISBN: 1119059801
Size: 44.90 MB
Format: PDF, Docs
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Your real-world introduction to mechanical design with Autodesk Inventor 2016 Mastering Autodesk Inventor 2016 and Autodesk Inventor LT 2016 is a complete real-world reference and tutorial for those learning this mechanical design software. With straightforward explanations and practical tutorials, this guide brings you up to speed with Inventor in the context of real-world workflows and environments. You'll begin designing right away as you become acquainted with the interface and conventions, and then move into more complex projects as you learn sketching, modeling, assemblies, weldment design, functional design, documentation, visualization, simulation and analysis, and much more. Detailed discussions are reinforced with step-by-step tutorials, and the companion website provides downloadable project files that allow you to compare your work to the pros. Whether you're teaching yourself, teaching a class, or preparing for the Inventor certification exam, this is the guide you need to quickly gain confidence and real-world ability. Inventor's 2D and 3D design features integrate with process automation tools to help manufacturers create, manage, and share data. This detailed guide shows you the ins and outs of all aspects of the program, so you can jump right in and start designing with confidence. Sketch, model, and edit parts, then use them to build assemblies Create exploded views, flat sheet metal patterns, and more Boost productivity with data exchange and visualization tools Perform simulations and stress analysis before the prototyping stage This complete reference includes topics not covered elsewhere, including large assemblies, integrating other CAD data, effective modeling by industry, effective data sharing, and more. For a comprehensive, real-world guide to Inventor from a professional perspective, Mastering Autodesk Inventor 2016 and Autodesk Inventor LT 2016 is the easy-to-follow hands-on training you've been looking for.

Parametric Modeling With Autodesk Fusion 360

Author: Randy Shih
Publisher: SDC Publications
ISBN: 1630571997
Size: 59.70 MB
Format: PDF, Docs
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Parametric Modeling with Autodesk Fusion 360 contains a series of thirteen tutorial style lessons designed to introduce Autodesk Fusion 360, solid modeling and parametric modeling techniques and concepts. This book introduces Autodesk Fusion 360 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. 3D printing makes it easier than ever for anyone to start turning their designs into physical objects, and by the end of this book you will be ready to start printing out your own designs.

Autodesk Inventor Professional 2018 For Designers

Author: Prof Sham Tickoo Purdue Univ
Publisher:
ISBN: 9781942689881
Size: 17.23 MB
Format: PDF, Kindle
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Autodesk Inventor Professional 2018 for Designers is a comprehensive textbook 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 textbook 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 textbook, 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.

Learn Autodesk Inventor 2018 Basics

Author: T. Kishore
Publisher: Apress
ISBN: 1484232259
Size: 75.55 MB
Format: PDF, ePub
View: 1521
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Get started with the basics of part modeling, assembly modeling, presentations, and drawings in this step-by-step tutorial on Autodesk Inventor fundamentals. Next, this book teaches you some intermediate-level topics such as additional part modeling tools, sheet metal modeling, top-down assembly features, assembly joints, and dimension and annotations. Engaging explanations, practical examples, and step-by-step instructions make this tutorial book complete. Once you have read Learn Autodesk Inventor 2018 Basics you will be able to use Autodesk Inventor for 3D modeling, 2D drawings, finite element analysis, mold design, and other purposes, just like a design professional. You will gain all the basic information and essential skills you need to work in Autodesk Inventor immediately. What You'll Learn Carry out virtual 3D modeling for your next 3D printing projects Design molds for 3D printing and other projects Generate 2D drawings Who This Book Is For Novice users of Autodesk Inventor.

Autodesk Navisworks 2018 Using Autodesk Navisworks In A Bim Workflow

Author: ASCENT - Center for Technical Knowledge
Publisher: Ascent, Center for Technical Knowledge
ISBN: 9781946571427
Size: 51.80 MB
Format: PDF, ePub, Docs
View: 7762
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The Autodesk(R) Navisworks(R) 2018: Using Autodesk Navisworks in a BIM Workflow learning guide teaches you how to better predict project outcomes, reduce conflicts and changes, and achieve lower project risk using the Autodesk(R) Navisworks(R) Manage software in a BIM workflow. Building Information Modeling (BIM) encompasses the entire building life cycle. BIM includes all phases of the design process, from model creation, to construction, and ending at operations and maintenance. Using a BIM workflow, you will learn how a design changes throughout the BIM process, and how the changes affect the BIM model. Over the course of this learning guide, you will learn how to consolidate civil, architectural, structural, and MEP models into one BIM model. Starting with an AutoCAD(R) Civil 3D(R) drawing file, you will append various Autodesk(R) Revit(R) and Autodesk(R) Inventor(R) models and check for conflicts. Next, you will use review and markup tools for communicating issues across disciplines. Finally, you will use TimeLiner, Animator, and Clash Detective to simulate construction and find constructibility issues and on-site clashes. This learning guide is designed for new and experienced users of the Autodesk Navisworks software in multiple disciplines. This learning guide has been developed using software version 15.0.1314.36. Topics Covered Understanding the purpose of Building Information Modeling (BIM) and how it is applied in the Autodesk Navisworks software. Consolidate Models Navigating the Autodesk Navisworks workspace and interface. Creating a composite model. Transforming models for proper alignment. Review and Analyze Models Using basic viewing tools. Saving and retrieving views. Sectioning a model. Investigating properties. Searching for items. Hiding and unhiding items. Communication Measuring a model. Adding tags and comments to model components. Marking up and redlining the model. Animate a model. Collaboration Reviewing a model for clashes. Consolidating redlines from other team members. Construction Creating a construction timeline. Animating a construction timeline. Prerequisites This learning guide is designed for new and experienced users of the Autodesk Navisworks software in multiple disciplines. A working knowledge of 3D design and task-scheduling software is recommended.

Autodesk Revit 2018 Mep Fundamentals Metric Units

Author: ASCENT - Center for Technical Knowledge
Publisher: Ascent, Center for Technical Knowledge
ISBN: 9781946571533
Size: 13.29 MB
Format: PDF, Kindle
View: 4119
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To take full advantage of Building Information Modeling, the Autodesk(R) Revit(R) 2018 MEP: Fundamentals student guide has been designed to teach the concepts and principles of creating 3D parametric models of MEP system from engineering design through construction documentation. The student guide is intended to introduce students to the software's user interface and the basic HVAC, electrical, and piping/plumbing components that make the Autodesk Revit software a powerful and flexible engineering modeling tool. The student guide will also familiarize students with the tools required to create, document, and print the parametric model. The examples and practices are designed to take the students through the basics of a full MEP project from linking in an architectural model to construction documents. Topics Covered Working with the Autodesk Revit software's basic viewing, drawing, and editing commands. Inserting and connecting MEP components and using the System Browser. Working with linked architectural files. Creating spaces and zones so that you can analyze heating and cooling loads. Creating HVAC networks with air terminals, mechanical equipment, ducts, and pipes. Creating plumbing networks with plumbing fixtures and pipes. Creating electrical circuits with electrical equipment, devices, and lighting fixtures and adding cable trays and conduits. Creating HVAC and plumbing systems with automatic duct and piping layouts. Testing duct, piping and electrical systems. Creating and annotating construction documents. Adding tags and creating schedules. Detailing in the Autodesk Revit software. Prerequisites This student guide introduces the fundamental skills in learning the Autodesk Revit MEP software. It is highly recommended that students have experience and knowledge in MEP engineering and its terminology.