3D Printing with Fusion 360 : Design for Additive Manufacturing, and Level up Your Simulation and Print Preparation Skills

3D Printing with Fusion 360 Design for Additive Manufacturing, and Level up Your Simulation and Print Preparation Skills

Improve your Autodesk Fusion competence around 3D printing workflows by learning how to repair broken STLs, design for additive manufacturing, position and support parts, and slice them Key Features Use Autodesk Fusion to import and repair external designs and create native lightweight designs for 3...

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Detalles Bibliográficos
Otros Autores: Ozel, Sualp, author (author)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Birmingham, England : Packt Publishing [2023]
Edición:First edition
Materias:
Three-dimensional printing.
Computer-aided design.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009786738206719
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright and Credits
  • Foreword
  • Contributors
  • Table of Contents
  • Preface
  • Part 1: Design for Additive Manufacturing (DFAM) and Fusion 360
  • Chapter 1: Opening, Inspecting, and Repairing CAD and Mesh files
  • Technical requirements
  • Opening and Uploading workflows for CAD models and Mesh files
  • Inserting Mesh workflows for STL, OBJ, and 3MF files
  • Inspecting Mesh bodies and repairing them
  • Summary
  • Chapter 2: Editing CAD/Mesh Files with DFAM Principles in Mind
  • Technical requirements
  • Introduction to design history with Fusion 360
  • Parametric Modeling
  • Direct modeling
  • Recognizing CAD features and editing them
  • Working with Mesh files natively in Fusion 360
  • Editing inserted Mesh bodies as mesh bodies
  • Editing inserted Mesh bodies after converting them into solid bodies
  • Editing inserted Mesh bodies by recreating them as solid bodies
  • Summary
  • Chapter 3: Creating Lightweight Parts, and Identifying and Fixing Potential Failures with Simulation
  • Technical requirements
  • Getting Started with Automated modeling
  • Utilizing Shape Optimization
  • Structural simulation to detect and fix common failures
  • Summary
  • Chapter 4: Hollowing and Latticing Parts to Reduce Material and Energy Usage
  • Technical requirements
  • Hollowing parts
  • Creating drainage holes
  • Creating internal lattice structures
  • Summary
  • Part 2: Print Preparation - Creating an Additive Setup
  • Chapter 5: Tessellating Models and Exporting Mesh Files to Third-Party Slicers
  • Technical requirements
  • Common mesh file formats and their differences
  • STL format
  • OBJ format
  • 3MF format
  • Tessellation, a critical step for 3D printing with non-Fusion 360 slicers
  • Tessellating a solid body
  • Tessellating a body with a volumetric lattice
  • Exporting mesh files or sending models to your slicer.
  • Exporting models directly to third-party slicers
  • Exporting models directly to non-Fusion 360 slicers
  • Exporting models out of Fusion 360
  • Summary
  • Chapter 6: Introducing the Manufacture Workspace for Print Preparation
  • Technical requirements
  • Using the derive workflow to manage model changes for print preparation
  • Creating Manufacturing Models for 3D Printing
  • Common part modifications for 3D Printing
  • Summary
  • Chapter 7: Creating Your First Additive Setup
  • Technical requirements
  • Fusion 360 preferences and settings for 3D printing
  • Machine selection and creating an additive setup
  • Print settings and creating an additive setup
  • Part 3: Print Preparation - Positioning Parts, Generating Supports, and Toolpaths
  • Chapter 8: Arranging and Orienting Components
  • Technical requirements
  • Positioning Components Manually
  • Orienting Components Automatically
  • Arranging Components Automatically
  • Summary
  • Chapter 9: Print Settings
  • Technical requirements
  • Overview of print settings for Fused Filament fabrication
  • General
  • Body Presets
  • Overview of print settings for SLA and DLP
  • Assigning unique print settings to bodies
  • Summary
  • Chapter 10: Support Structures
  • Technical requirements
  • Volume and bar supports for FFF printing
  • Bar supports for SLA and DLP printing
  • Base plate supports for SLA and DLP printing
  • Summary
  • Chapter 11: Slicing Models and Simulating the Toolpath
  • Technical requirements
  • Generating an additive toolpath
  • Simulating an additive toolpath
  • Generating G-code
  • Summary
  • Part 4: Metal Printing, Process Simulation, and Automation
  • Chapter 12: 3D Printing with Metal Printers
  • Technical requirements
  • Introduction to Metal 3D printing
  • 3D printing with metal powder bed fusion machines
  • Setter supports for a successful sintering process
  • Summary.
  • Chapter 13: Simulating the MPBF Process
  • Technical requirements
  • Setting up a process simulation
  • Interpreting the results
  • Compensating for distortions and updating the setup
  • Summary
  • Chapter 14: Automating Repetitive Tasks
  • Technical requirements
  • Using apps from the Autodesk App Store
  • Customizing presets and using templates
  • Automating additive workflows with scripting
  • Summary
  • Index
  • Other Books You May Enjoy.

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