Введение в SolidWorks - Годфри К. Онвуболу

PRZEDMIOTEM OFERTY JEST KOD DOSTĘPOWY DO KSIĄŻKI ELEKTRONICZNEJ (EBOOK)

KSIĄŻKA JEST DOSTĘPNA NA ZEWNĘTRZNEJ PLATFORMIE. KSIĄŻKA NIE JEST W POSTACI PLIKU.

This senior undergraduate level textbook is written for Advanced Manufacturing, Additive Manufacturing, as well as CAD/CAM courses. Its goal is to assist students in colleges and universities, designers, engineers, and professionals interested in using SolidWorks as the design and 3D printing tool for emerging manufacturing technology for practical applications. This textbook will bring a new dimension to SolidWorks by introducing readers to the role of SolidWorks in the relatively new manufacturing paradigm shift, known as 3D-Printing which is based on Additive Manufacturing (AM) technology. This new textbook: Features modeling of complex parts and surfaces Provides a step-by-step tutorial type approach with pictures showing how to model using SolidWorks Offers a user-Friendly approach for the design of parts, assemblies, and drawings, motion-analysis, and FEA topics Includes clarification of connections between SolidWorks and 3D-Printing based on Additive Manufacturing Discusses a clear presentation of Additive Manufacturing for Designers using SolidWorks CAD software "Introduction to SolidWorks: A Comprehensive Guide with Applications in 3D Printing" is written using a hands-on approach which includes a significant number of pictorial descriptions of the steps that a student should follow to model parts, assemble parts, and produce drawings.

• Autorzy: Godfrey C. Onwubolu
• Wydawnictwo: Taylor & Francis
• Data wydania: 2017
• Wydanie: 1
• Liczba stron:
• Forma publikacji: ePub (online)
• Język publikacji: angielski
• ISBN: 9781498731218

BRAK MOŻLIWOŚCI POBRANIA PLIKU. Drukowanie: OGRANICZENIE DO 2 stron. Kopiowanie: OGRANICZENIE DO 2 stron.

• Cover
• Half Title
• Title Page
• Copyright Page
• Dedication
• Table of Contents
• Preface
• Acknowledgments
• Author
• Section I Introductory Engineering Design Principles with SolidWorks
• 1Introduction
• SolidWorks within the Context of Additive Manufacturing Framework
• SolidWorks within the Context of Computer-Aided Engineering Framework
• 3D Wireframes
• Constructive Solid Geometry
• Boundary Representation Scheme
• Feature-Based Parametric Modeling
• Background of SolidWorks
• Starting a SolidWorks Session
• SolidWorks User Interface
• Menu Bar Toolbar
• Menu Bar Menu
• Task Pane
• CommandManager
• FeatureManager Design Tree
• Heads-Up View Toolbar
• Drop-Down Menu
• Right-Click
• Consolidated Toolbar
• System Feedback
• Setting the Document Options
• System Options
• Document Properties
• Modifying the Drafting Standard
• Modifying the Dimension Arrows
• Modifying the Units Document Properties
• File Management
• Caution Needed during SolidWorks Sessions
• Starting a New Document in SolidWorks
• My First Part
• Useful SolidWorks Resources
• Compatibility of SolidWorks with Other Software
• Summary
• 2Geometric Construction Tools
• Introduction
• Sketch Entities
• Line
• Rectangle
• Parallelogram
• Slot
• Polygon
• Circle
• Arc
• Ellipse
• Parabola
• Spline
• Sketch Tools
• Fillet
• Chamfer
• Offset
• Convert Entities
• Trim
• Extend
• Split Entities
• Construction Geometry
• Mirror
• Stretch Entities
• Move Entities
• Rotate Entities
• Scale Entities
• Copy Entities
• Pattern
• Linear Pattern
• Circular Pattern
• Summary
• 3Features
• Introduction
• Extruded Boss/Base
• Draft, Dome, Rib
• Draft
• Dome
• Rib
• Extruded Cut
• Revolved Boss/Base
• Creating Four Holes on the Revolved Part
• Revolved Cut
• Lofted Boss/Base
• Lofted Cut
• Swept Boss/Base
• Swept Cut
• Hole Wizard
• Shell
• Fillet Tool
• Defining a Constant Radius Fillet
• Defining a Variable Radius Fillet
• Defining a Face Fillet
• Defining a Full Round Fillet
• Chamfer Tool
• Defining a Chamfer Using an Angle and a Distance
• Defining a Chamfer Using Two Distances
• Defining a Chamfer Using a Vertex
• Linear Pattern
• Circular Pattern
• Mirror
• Editing Features
• Tutorials
• Tutorial 3.1: Simple Part 1
• Tutorial 3.2: Simple Part 2
• Tutorial 3.3: Simple Part 3
• Tutorial 3.4: Simple Part 4
• Tutorial 3.5: Simple Part 5
• Tutorial 3.6: Simple Part 6
• Tutorial 3.7: Simple Part 7
• Tutorial 3.8: Simple Part 8
• Tutorial 3.9: Simple Part 9
• Tutorial 3.10: Simple Part 10
• PatternsAdvanced Methods
• Sketch-Driven Pattern
• Curve-Driven Pattern
• Table-Driven Pattern
• Reference Planes
• Tutorial 3.1: Planes: Using Three Vertices
• Tutorial 3.2: Planes: Angled Reference Plane
• Tutorial 3.3: Planes: Parallel Planes to Top Plane
• Tutorial 3.4: Planes: Inclined Plane
• Creating Patterns
• Types of Pattern
• Creating the Revolved Boss/Base
• Shelling
• Extruding a Thin Feature
• Creating a Slot
• Creating the Linear Pattern
• Creating a Circular Pattern of a Linear Pattern
• Summary
• 4Part ModelingCSWA Preparations
• Introduction
• Tutorial 4.1a: Widget
• Tutorial 4.1b: Widget
• Tutorial 4.2
• Tutorial 4.3a
• Tutorial 4.3b
• Tutorial 4.4
• Tutorial 4.5a
• Tutorial 4.5b
• Tutorial 4.6a
• Tutorial 4.6b
• Tutorial 4.7a
• Tutorial 4.7b
• Summary
• 5Advanced Part ModelingCSWA Preparations
• Introduction
• Advanced Part Modeling Tutorials
• Tutorial 5.1: Block with Hook
• Tutorial 5.2: Housing
• Tutorial 5.3: Spacer
• Tutorial 5.4: Oarlock Socket
• Tutorial 5.5: Link
• Tutorial 5.6: Double Link
• Tutorial 5.7: Inclined Stop
• Tutorial 5.8: Model with Notched Offset Section View
• Tutorial 5.9: Part Models for Assembly
• Summary
• Projects
• Bibliography
• 6Creating Revolved, Swept, and Lofted Parts
• Revolved Boss/Base
• Practical Examples
• Engine Cylinder
• Pulley
• Swept Boss/Base
• Practical Examples
• Spring
• O-Ring
• Threaded Cap
• Lofted Boss/Base
• Practical Examples
• Impeller
• Aircraft Wing
• Practical Swept Feature: Elbow Casting for Steam Valve
• Practical Swept Feature: Lathe Tailstock
• Summary
• 7Part Modeling with Equation-Driven Curves
• Introduction
• Equation-Driven Curves
• Problem 1
• Integral Calculus Solution for Area
• SolidWorks Solution for Area
• Part Design Using the SolidWorks Equation-Driven Curves
• Effect of Changing the Axis of Rotation
• Problem 2
• Integral Calculus Solution for Area
• SolidWorks Solution for Area
• Part Design Using the SolidWorks Equation-Driven Curves
• Problem 3
• Integral Calculus Solution for Volume
• SolidWorks Solution for Area
• Part Design Using the SolidWorks Equation-Driven Curves
• Problem 4
• Integral Calculus Solution for Area
• SolidWorks Solution for Area
• Problem 5
• Integral Calculus Solution for Area
• SolidWorks Solution for Area
• Part Design Using the SolidWorks Equation-Driven Curves
• Summary
• Bibliography
• 8Assembly ModelingCSWA Preparations
• Introduction
• Starting the Assembly Mode of SolidWorks
• Inserting Components in the Assembly Document
• Mates
• Assembly Modeling Methodology
• Project
• Planning the Assembly
• Starting the Assembly Mode of SolidWorks
• Inserting Components in the Assembly Document
• Assembling the Components
• Assembling the First Two Components (Base and Vertical Shaft) of the Assembly
• Assembling the Yoke
• Assembling the Bearing Housing
• Assembling the Bearings
• Assembling the Screws and Nuts
• Assembly Analysis
• Exploded View
• Animate Exploded View
• Tutorials
• Tutorial 8.1
• Tutorial 8.2
• Tutorial 8.3
• Large Assemblies
• Summary
• 9Part and Assembly DrawingsCSWA Preparations
• Introduction
• Orthographic Projection
• Drawing Sizes
• Creating a SolidWorks Drawing Template
• Document Properties
• Sheet Properties
• Title Block
• Saving the Template
• Part Drawing of Adjustable Shaft Support
• Screw: Standard Views
• Vertical Shaft: Standard Views
• Yoke: Standard Views
• Bearing Housing: Standard Views
• Bearing: Standard Views
• Assigning Properties through File > Properties
• Assigning Properties through Configuration Manager
• Adjustable Shaft Support Assembly Drawing
• Exploded View
• Balloons
• BoM
• Inserting Section Views
• Inserting a Section View
• Half-Section View
• Section View
• Summary
• Projects
• Section II Intermediate Engineering Design Principles with SolidWorks
• 10Reverse Engineering Using Auto Trace and FeatureWorks
• Reverse Engineering
• SolidWorks Reverse Engineering Tools
• Create Auto Trace Tool
• Methodology for Importing and Extracting Image Features
• Phase 1: Import Image
• Phase 2: Image Extraction
• Phase 3: Image Repair
• Phase 4: Extrude Features
• FeatureWorks Tool
• FeatureWorks Product Overview
• FeatureWorks Software Capabilities
• FeatureWorks Add-In
• FeatureWorks Options
• FeatureWorks PropertyManager
• Problem Description
• Automatic Feature Recognition Methodology
• Import Geometry
• Import Diagnostics
• Automatic Feature Recognition
• Interactive Feature Recognition Methodology
• Summary
• Bibliography
• 11Top-Down Design
• Introduction
• Designing from Layout
• Layout of the Cabinet
• Create Shared Values
• Sketch the 2D Profile of the Power Supply
• Dimension the 2D Profile of the Power Supply
• Gaps for the Power Supply Profile
• Sketch the 2D Profile of the Cooling Unit
• Dimension the 2D Profile of the Cooling Unit
• Gaps for the Cooling Unit
• Sketch the 2D Profile of the Microcontroller
• Gaps for the Microcontroller
• MicrocontrollerInsert Component
• Cooling UnitInsert Component
• Power SupplyInsert Component
• Housing-Insert Component
• Designing from Part Outline
• Part Model
• Modeling In-Context
• Mold Design Using Top-Down Approach
• Summary
• 12Surface Modeling
• Generalized Methodology for Free-Form Surface Design
• Control Polygon
• Lofting B-Splines Using Control Polygon
• Free-Form Surface Design
• Effect of Modifying Control Polygon on Free-Form Surface
• Extruded Surface: Type I
• Revolved Surface: Type I
• Knitting Multiple Surfaces
• Thicken Feature
• Fill Surface
• Extruded Surface: Type II
• Revolved Surface: Type II
• Swept Surface
• Loft Surface
• Free-Form Surface Design: Boundary Surface
• Summary
• 13Toolboxes and Design Libraries
• Introduction
• SolidWorks Toolbox Add-Ins
• How to Use SolidWorks Design Library and Toolbox
• Features Available in the Toolbox via CommandManager
• Features Available in the Toolbox via Design Library
• Structural Steel
• Beam Calculator
• Grooves
• O-Ring Grooves: Retaining Ring Grooves
• Creating Standard Parts Using SolidWorks Design Library and Toolbox
• Adding Set Screws to the Collar of a Shaft
• Gear Design Using SolidWorks
• Types of Gears
• Design Methodology for Gears
• SolidWorks Solution Procedure
• Spur Gear Design
• Problem Description
• SolidWorks Solution Procedure
• Support
• Shaft
• Pinion
• Gear
• Assembly Modeling
• Animation
• Helical Gear Design
• Initial Sizing
• Support (Housing) Sizing
• Gear
• Support
• Assembly Modeling
• Animation
• Bevel Gear Design
• Problem Description
• SolidWorks Solution
• Pinion
• Gear
• Assembly
• Summary
• Basic Gear Kinematics
• 14Animation with Basic Motion
• Different Types of Motion Studies
• Modeling of Linkages
• Assembly Modeling of Linkages
• MotionManager Interface
• Summary
• 15Animation with SolidWorks Motion
• Types of Motion Study
• Deciding Which Type of Study to Use
• Differentiating between Animation, Basic Motion, and Motion Analysis
• SolidWorks Motion Overview
• SolidWorks Motion Add-In
• Four-Bar Linkage Mechanism and Slider-Crank Mechanism
• Problem Description
• SolidWorks Parts and Assembly
• Using SolidWorks Motion
• Methodology for Motion Analysis Using SolidWorks Motion
• Defining Bodies
• Driving Joints
• Turning Off Gravity
• Running Motion Analysis
• Kinematic Analysis
• Interference Check
• Dynamic Analysis
• Validating the Results
• Summary
• Bibliography
• 16Rendering
• Introduction
• Surface Model
• Zebra Stripes
• Inserting Zebra Stripes Tool
• Including Zebra Stripes Effects on a Part
• Removing Zebra Stripes Effects
• Curvature
• Inserting Curvature Tool
• PhotoWorks Toolbar
• Inserting PhotoWorks Tool
• Summary
• Section III Engineering Design Practice with SolidWorks
• 17Mold Design
• Mold Design Background
• Mold Design Tools Overview
• Mold Design Methodology
• Enhancements in SolidWorks for Mold Design
• Summary
• 18Sheet Metal PartsI
• Sheet Metal Manufacturing Processes
• Deep Drawing
• Sheet Metal Part Design Methodology Using Insert Bends
• Insert a Rip Feature
• Insert the Sheet Metal Bends
• Insert the Edge Flange Features
• Insert the Hem Features
• Insert Ventilation Features
• Inserting the Holes Using Hole Wizard
• Sheet Metal Part Design Methodology Using Base Flange
• Summary
• 19Sheet Metal PartsII
• Comparing Sheet Metal Design Methods
• Advantages of the Base Flange Approach
• Tutorials on Base Flange Approach for Sheet Metal Design
• Sheet Metal User Interface
• Tutorial 19.1: General Sheet Metal Part
• Tutorial 19.2: P1
• Tutorial 19.3: P2
• Tutorial 19.4: Hanger Support
• Tutorial 19.5: Jogged Sheet Metal Part
• Tutorial 19.6: Lofted Sheet Metal
• Tutorial 19.7: P9
• Tutorial 19.8: General Sheet Metal
• Tutorial 19.9: Hanger
• Tutorial 19.10: CSWP-SMTL
• Summary
• 20Weldments
• Introduction
• Creating Parts with a 3D Sketch
• Tutorials
• Tutorial 20.1: Bent Tube
• Tutorial 20.2: Bent Tube
• Tutorial 20.3: Handlebar Tube
• Weldments Toolbar
• Structural Member
• Trimming the Structural Members
• Adding End Caps to Structural Members
• Adding Gussets to Structural Members
• Adding Fillet Beads to Structural Members
• Weldment of Parts
• Assembly versus Solid Bodies
• Summary
• 21Routings in Piping and Tubing
• Introduction
• Activating the SolidWorks Routing Add-Ins
• Some Backgrounds
• Customizing Routing Templates
• Adding Parts to the Routing Library
• Illustration 1
• Starting a Route
• Creating the Route
• Illustration 2
• Route Drawing
• 22Power Transmission Elements
• Gears and Power Transmission
• Spur Gears
• Creating Gears Using SolidWorks
• Problem Description
• Support Plate Sizing
• Gear Assembly Modeling Using SolidWorks
• Support Plate Model
• Create a Linear Pattern of Extrude2
• Pin Model
• Assembly of the Support Plate, Pin, and Gears
• Assembly of the Support Plate and Two Pins
• Adding Gears to the Assembly of the Support Plate and Two Pins
• Ordinary Mating
• Mechanical Mating
• Animation
• Rack and Pinion Gears
• Problem Description
• Gear Assembly Modeling Using SolidWorks
• Insert Shaft in Assembly
• Subassembly of Shaft and Inserted Pinion from Design Library
• Insert Rack in Assembly
• Ordinary Mating
• Mechanical Mating
• Animation
• Belts and Pulleys
• Problem Description
• Belt and Pulley Assembly Modeling Using SolidWorks
• Subassembly of Support Plate and Pin
• Inserting Timing Belt Pulley
• Mating
• Inserting the Belt
• Animation
• Chain Drive: Chains and Sprockets
• Problem Description
• Chain and Sprocket Assembly Modeling Using SolidWorks
• Subassembly of Support Plate and Pin
• Inserting Timing Belt Pulley
• Mating
• Inserting the Chain
• Animation
• Bevel Gear Box Design
• Problem Description
• Input
• Pinion
• Output
• Gear
• Assembly Modeling
• Summary
• 23Cam Design
• Introduction
• Types of Cams
• Types of Followers
• Creating Cams Using the Traditional Method
• Creating Cams in SolidWorks
• Problem Definition
• SolidWorks Toolbox Add-Ins
• To Access the SolidWorks Cams Tool
• Cam-Circular Setup
• Cam-Circular Motion
• Cam-Circular Creation
• Cam Model Modification
• Creating a Hub
• Creating a Hub Using the Cam-Circular Dialog
• Creating a Hole for a Key Using the Hole Wizard
• Type
• Position
• Cam Shaft Assembly
• Spring
• Cam Follower Bracket
• Face Filleting
• Cam Bracket
• Roller
• Cam Shaft
• Handle
• Pin
• Assembly of Cam Shaft Components
• 24Mechanism Design Using Blocks
• Introduction
• Blocks Toolbar
• Problem Description
• Creating Sketches of a Mechanism
• Crank
• Piston Rod
• Piston Tank
• Saving the Sketches as Different Block Files
• Inserting the Block into the Layout Environment
• Applying Relations to the Blocks
• Converting Blocks into Parts
• Extruding the Parts
• Crank
• Creating a Boss to Coincide with the Upper Circle on the Crank
• Piston Rod
• Piston Tank
• Summary
• 25Die Design
• Scope of Die Design
• Components of a Die Set
• Pierce and Blank Die
• Part Design
• Scrap Strip
• Design of Die Holder of a Die Set
• Design of Punch Holder of a Die Set
• Design of Guide Post
• Design of Bushing
• Design of Die Block
• Summary
• 26Aluminum Extrusion from Manufacturers’ Internet Websites
• Accessing Manufacturers’ AutoCAD 2D Aluminum Section Profiles
• Creating SolidWorks Sketch from AutoCAD 2D Section Profile
• Creating SolidWorks Structural Elements Using AutoCAD 2D Section Profile
• Creating SolidWorks Structural Machine Frame Using AutoCAD 2D Section Profile
• Bibliography
• 27Geneva Wheel Mechanism
• Historical Background
• Introduction
• Principles of Operation of the Geneva Drive
• Advantages and Disadvantages
• Geometry of the External Geneva Mechanism
• Kinematics of the External Geneva Drive
• SolidWorks Modeling and Simulation of Geneva Wheel Mechanism
• Summary
• Project
• Bibliography
• 28Event-Based Motion Analysis
• Introduction
• Event-Based Motion View
• Tasks
• Triggers
• Actions
• Summary
• Bibliography
• 29Electrical Routing
• Introduction
• Creating the Housing
• Creating the Electrical Harness
• Creating the Route Using the Auto Route
• Bibliography
• 30Customized Internal and External Threads
• Customized Internal Threads
• Cosmetic Threads
• Customized External Threads
• Problem Description
• SolidWorks Solution
• Insert and Extruded Base Feature
• Creating a Sketch for Extruded Cut Feature
• Insert and Extruded Cut Feature
• Inserting the Shell Feature
• Creating a Part-Revolved Thin Cut Feature
• Creating Path for External Threads
• Creating Profile for External Threads
• Creating External Threads
• Editing Features
• Unified Thread Standard
• Basic Profile
• Designation
• Calculating the Major Diameter of a Numbered Screw Greater than or Equal to 0
• Unified Miniature Screw Thread Series
• Calculating the Major Diameter of a Numbered Screw Greater than or Equal to 0
• Design Equations for Unified Thread Standard
• External Threads
• Internal Threads
• Bibliography
• 31Sustainability Design for Parts
• Introduction
• SolidWorks Solution Procedure
• Problem Description
• Activate the Sustainability Application
• Selecting a Material
• Setting the Manufacturing and Use Options
• Comparing Similar Materials
• Summary
• 32Geometric Dimensioning and Tolerancing
• Introduction
• Tolerance Study Using SolidWorks
• Geometric Dimensioning and Tolerancing
• Datum Reference Frame
• Geometric Characteristic Symbols
• Applying Maximum Material Condition
• GD&T with SolidWorks
• Straightness
• Flatness
• Circularity
• Cylindricity
• Line Profile
• Surface Profile
• Parallelism
• Perpendicularity
• Angularity
• Circular Runout
• Using SolidWorks to Define Tolerances in Drawings
• Hole Locations and Joining a Shaft to a Toleranced Hole
• Summary
• 33Evaluating the Cost of Machined Parts
• Introduction
• Model for Automatic Manufacturing Cost Estimation
• Automatic Manufacturing Cost Estimation
• Changing Model Geometry
• Adding Material to the Stock Body
• Examining the CostingManager: Setup Folder
• Examining the CostingManager: Mill Operations
• Changing Material Costs
• Changing the Stock Body
• Changing the Quantity of Parts to Manufacture
• Including a Discount
• Applying Custom Operations
• Comparing Material Costs
• Adding Library Features
• Creating a Report
• Summary
• Bibliography
• 34Finite Element Analysis Using SolidWorks
• Introduction to COSMOS/SolidWorks Simulation
• What Is SolidWorks Simulation?
• Product Development Cycle
• What Is Finite Element Analysis?
• How Does FEA Work?
• Solid Elements
• Shell Elements
• Beam Elements
• Types of Engineering Analysis
• Principles of FEA
• Build the Mathematical Model
• Build the Finite Element Model
• Solve the Finite Element Model
• Analyze the Results
• SolidWorks Simulation Add-Ins
• SolidWorks Simulation CommandManager
• Study Advisor
• Fixtures Advisor
• External Loads Advisor
• Connections Advisor
• Run Advisor
• Results Advisor
• Design Scenario
• SolidWorks Simulation Toolbars
• Starting a New Study in SolidWorks Simulation
• Basic SolidWorks Simulation Steps
• FEA of a Sheet Metal Part
• Summary
• Section IV Introductory 3D Printing
• 35Overview of Additive Manufacturing
• What Is Additive Manufacturing?
• Classification of AM Processes
• FDM
• DMLS Principle
• Exposure Strategies
• Bibliography
• 36Insight Software for Fortus Production Systems
• Summary
• 37CatalystEX Software User Guide for Dimension sst 1200es
• Printing Type
• File Types
• General Tab
• 38Bead Design with Orientation Considerations
• Doughnut in Upright Position (Axis of Hole in Z-Direction)
• Doughnut Lying on Side (Axis of Hole in Y-Direction)
• 39Building Tall Parts Using Surround Support
• Summary
• 40Vacuum Forming
• Modeler Setup
• Custom Groups
• Summary
• Important Optimization Issues
• 41Design for Assembly Manufacturing
• Introduction
• Project
• Fortus 3D Production Systems Best Practice for Building Assembly Parts
• Orientation
• Offsetting
• Bottom-Up Solution Approach
• Case I: Printing Assembly of Parts
• Part A: Solid Modeling Using SolidWorks
• Part B: Saving Assembly as Part in SolidWorks
• Part C: Preprocess Assembly and Print
• Case II: Printing Individual Parts
• Summary
• 42Design Guidelines for Advanced Build Options
• Advanced Build Options
• Considerations for Choosing Build Orientation and Layer Height
• Case Study 1: Bottle_h-noThreads.Stl in ABS-M30
• Six Build Orientations Analyzed and the Cost of Each at Layer Height of 0.005 in
• Orientation Is +Z
• Orientation Is –Z
• Orientation Is –90X
• Orientation Is –90Y
• Orientation Is 30X
• Orientation Is –30X
• Case Study 2
• Summary
• 43Design for Functionality
• Introduction
• Case Study: 19-mm Female Quick-Release Buckle
• 44Mold Tooling Using Z-Corp Spectrum 510 3D Printer
• How Z-Corp Spectrum 510 3D Printer Works
• Z-Corp Spectrum 510 3D Printer
• Modeling Tips
• Mold Tooling Using Z-Corp Spectrum 510 3D Printer
• Printing with Colors
• Postprocessing
• Summary of Mold Design Using zCast
• Index

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