- •1. TABLE OF CONTENTS
- •DI:2. BASIC DESIGN
- •DI:2.1 REFERENCES
- •DI:3. COMMERCIAL
- •3.1 REFERENCES
- •DI:4. PRODUCT DESIGN
- •DI:4.1 LEGAL DESIGN AXIOMS
- •4.2 REFERENCES
- •DI:5. SPECIFICATIONS
- •5.1 REFERENCES
- •DI:6. DESIGN METHODS
- •DI:6.1 BLACK BOX DESIGN
- •DI:6.2 REFERENCES
- •DI:7. CONCEPTUAL DESIGN
- •DI:7.1 GENERATION OF CONCEPTS
- •DI:7.1.1 Brain Storming
- •DI:7.1.1.1 - Practice Problems
- •DI:7.1.2 Diagramming
- •DI:7.1.2.1 - Practice Problems
- •DI:7.1.3 Patents
- •DI:7.2 CONCEPT EVALUATION
- •DI:7.2.1 Decision Matrix
- •7.3 REFERENCES
- •DI:8. HUMAN FACTORS/ERGONOMICS
- •DI:8.1 ERGONOMICS
- •DI:8.2 SAFETY
- •DI:8.2.1 Environment
- •DI:8.2.2 MIL-STD 882B - System Safety Program Requirements
- •DI:8.3 HUMAN STRENGTH AND PROPORTIONS
- •DI:8.4 EQUIPMENT INTERFACES
- •8.5 REFERENCES
- •DI:9. MANAGEMENT
- •DI:9.1 PRACTICE PROBLEMS
- •9.2 REFERENCES
- •DI:10. DESIGN TEAMS
- •DI:10.1 TEAM PROFILES
- •DI:10.1.1 Personalities
- •DI:10.1.1.1 - Personality Traits
- •DI:10.1.1.2 - Personality Types
- •DI:10.1.2 Team Composition
- •DI:10.1.3 Team Success
- •10.2 REFERENCES
- •DI:11. ADMINISTRATION
- •11.1 REFERENCES
- •DI:12. CONCURRENT ENGINEERING
- •DI:12.1 OVERVIEW
- •DI:12.2 DOING CONCURRENT ENGINEERING
- •DI:12.3 FUTURE TOOLS FOR CONCURRENT ENGINEERING
- •DI:12.4 SOFTWARE CONCURRENT ENGINEERING
- •DI:12.5 METHODS
- •12.6 REFERENCES
- •DI:13. DESIGN FOR X (DFX)
- •DI:13.1 OVERVIEW
- •DI:13.2 DESIGN FOR ASSEMBLY (DFA)
- •DI:13.2.1 Design rule summary
- •DI:13.2.2 Rules for Manual/Automatic Assembly
- •DI:13.2.3 Reducing the Number of Parts
- •DI:13.2.4 Feeding and Orienting Parts
- •DI:13.2.4.1 - Part Tangling/Nesting
- •DI:13.2.4.2 - Handling Parts
- •DI:13.2.4.3 - Orienting Parts
- •DI:13.2.4.4 - Locating and Aligning Parts
- •DI:13.2.4.5 - Part Symmetry
- •DI:13.2.4.6 - Part Shape, Size and Thickness
- •DI:13.2.5 Mating Parts
- •DI:13.2.6 Adjustments
- •DI:13.2.7 Modular Assemblies
- •DI:13.2.8 Standard Parts
- •DI:13.2.9 Part Fixtures and Jigs
- •DI:13.2.10 Bottom Up Layered Assemblies
- •DI:13.2.11 Examples
- •DI:13.3 DESIGN FOR MANUFACTURING (DFM)
- •DI:13.4 DESIGN FOR RECYCLING (DFR)
- •DI:13.4.1 Reduce Materials and Energy
- •DI:13.4.2 Consolidated Parts
- •DI:13.4.3 Ease Of Disassembly
- •DI:13.4.4 Recycling Markings
- •DI:13.5 REFERENCES
- •DI:13.6 SAMPLE QUESTIONS
- •DI:13.7 AXIOMATIC DESIGN
- •DI:13.7.1 Suh’s Methodology
- •DI:13.7.1.1 - The Information Axiom
- •DI:14. DRAFTING
- •DI:14.1 CONVENTIONAL DRAFTING
- •DI:14.1.1 Manual Drafting
- •DI:14.1.2 Turning Three Dimensions Into Two (Multi View Drawings)
- •DI:14.1.2.1 - The Glass Box
- •DI:14.1.3 Lines
- •DI:14.1.4 Holes
- •DI:14.1.5 Special Cases
- •DI:14.1.5.1 - Aligned Features
- •DI:14.1.5.2 - Incomplete Views
- •DI:14.1.6 Section Views
- •DI:14.1.6.1 - Full Sections
- •DI:14.1.6.2 - Offset Section
- •DI:14.1.6.3 - Half Section
- •DI:14.1.6.4 - Cut Away Sections
- •DI:14.1.6.5 - Revolved Section
- •DI:14.1.6.6 - Removed Section
- •DI:14.1.6.7 - Auxiliary Section
- •DI:14.1.6.8 - Thin Wall Section
- •DI:14.1.6.9 - Assembly Section
- •DI:14.1.6.10 - Special Cases
- •DI:14.1.6.11 - Fill Patterns
- •DI:14.1.7 Auxiliary Views
- •DI:14.1.7.1 - Secondary Auxiliary Views
- •DI:14.1.7.2 - Partial Auxiliary Views
- •DI:14.1.8 Descriptive Geometry
- •DI:14.1.9 Isometric Views
- •DI:14.1.10 Special Techniques
- •DI:14.2 NOTATIONS
- •DI:14.2.1 Basic Dimensions and Tolerances
- •DI:14.2.2 Geometric Dimensioning and Tolerancing (GD & T)
- •DI:14.2.2.1 - Feature Control Symbols
- •DI:14.2.2.2 - Symbols and Meaning
- •DI:14.2.2.3 - Datums
- •DI:14.2.2.4 - Modifiers
- •DI:14.3 WORKING DRAWINGS
- •DI:14.3.1 Drawing Elements
- •DI:14.3.1.1 - Title Blocks
- •DI:14.3.1.2 - Drawing Checking
- •DI:14.3.1.3 - Drawing Revisions
- •DI:14.3.1.4 - Bill of Materials (BOM)
- •DI:14.3.2 Drawing Types
- •DI:14.3.2.1 - Assembly Drawings
- •DI:14.3.2.2 - Subassembly Drawings
- •DI:14.3.2.3 - Exploded Assembly Drawings
- •DI:14.3.2.4 - Detailed Drawings
- •DI:14.4 PRACTICE PROBLEMS
- •14.5 REFERENCES
- •DI:15. COMPUTER AIDED DESIGN (CAD)
- •DI:15.1 DESIGN
- •DI:15.2 CAD HISTORY
- •DI:15.3 BASIC REQUIREMENTS OF CAD SYSTEMS
- •DI:15.4 EDITING AND CREATING
- •DI:15.4.1 2D Curves and Lines
- •DI:15.4.2 Surfaces
- •DI:15.5 USER INTERPRETATION OF THE GEOMETRIC MODEL
- •DI:15.6 USER DIRECTED CHANGES TO THE GEOMETRIC MODEL
- •DI:15.6.1 Modern Hardware for CAD Systems
- •DI:15.7 SELECTING A CAD SYSTEM
- •DI:15.7.1 An Example Plan for Selecting a CAD system
- •DI:15.7.2 A Checklist of CAD/CAM System Features
- •DI:15.8 DESIGN
- •DI:15.8.1 Graphical User Interfaces
- •DI:15.9 PRACTICE PROBLEMS
- •DQ:16. GEOMETRICAL MODELLING OF PARTS
- •DQ:16.1 OVERVIEW
- •DQ:16.2 GEOMETRIC MODELS
- •DQ:16.2.1 Elemental Depiction:
- •DQ:16.2.2 Surface Description
- •DQ:16.2.3 Solid - Swept
- •DQ:16.2.4 Solid - B-Rep (Boundary Representation)
- •DQ:16.2.5 Solid - CSG
- •DQ:16.2.6 Tessellated Models
- •DQ:16.2.7 Features
- •DQ:16.3 SOLID MODELERS
- •DO:16.4 MASS PROPERTIES
- •DO:16.5 NON-MANIFOLD PARTS
- •DO:16.6 NUMERICAL ACCURACY
- •DO:16.7 PRACTICE PROBLEMS
- •DM:17. GEOMETRICAL MODELLING FOR DESIGN
- •DG:18. CAD FILE FORMATS
- •DG:18.1 GRAPHICS FORMATS
- •DG:18.2 CAD FORMATS
- •DG:18.2.1 Proprietary “Standard” Formats
- •DG:18.2.2 Standard Formats
- •DG:18.2.2.1 - IGES
- •DG:18.2.2.1.1 - Flag section (optional)
- •DG:18.2.2.1.2 - Start section
- •DG:18.2.2.2 - Global section
- •DG:18.2.2.3 - Directory entry sections
- •DG:18.2.2.4 - Parameter entry section
- •DG:18.2.2.5 - Terminate section
- •DG:18.2.2.6 - A Sample IGES File
- •DG:18.2.3 A DXF File
- •DG:18.3 PDES/STEP
- •DG:18.4 PRACTICE PROBLEMS
- •DC:19. COMPUTER AIDED ENGINEERING (CAE)
- •DC:19.1 FINITE ELEMENT ANALYSIS (FEA)
- •DC:19.2 ASSEMBLY AND KINEMATICS
- •DC:19.2.1 Tolerancing
- •DC:19.3 ASSEMBLIES
- •DC:19.4 OPTIMIZATION
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DG:18.1 GRAPHICS FORMATS
• Some Graphics formats are intended for graphical display,
GIF - (Graphics Interchange Format) A compact graphic format JPG - (Joint Photographic experts Group) A compressed format MPEG - (Motion Pictures Experts Group) Compressed Animation
• Some graphics formats are intended for output on hardcopy devices
HPGL - Hewlett Packard Graphics Language - An ASCII language devised to drive pen plotters
PostScript - A VERY popular graphics format which typically drives laser printers, but can also be displayed on devices like color screens
DG:18.2 CAD FORMATS
• Some types are
CGM - A US defense department product, related to polygon modeling CIF - For Integrated Circuit Design by layered polygon definition DMC - Digital Mapping for Customers - for transmitting maps
DXF - Primarily developed by Autodesk (for Autocad) to transfer geometry using ASCII definitions
EDIF - Electronic Design Interchange Format supports VLSI design, and is expected to incorporate Circuit Boards soon
IISF - A format Developed by Intergraph for their CAD systems
SET - Standard d’Echange et de Transfert - Made to be more compact than IGES STEP and PDES (Standard for the Exchange of Product model data and Product Data
Exchange Specification) An attempt to model other attributes of a product, in addition to geometry, such as tolerancing. This is the emerging standard, but it is not widely available yet.
VDA-FS (DIN 66301) A German approach for modelling surfaces VDA-IS - A German subset of IGES for the auto industry
UNV - Ideas Universal File
DG:18.2.1 Proprietary “Standard” Formats
•As mentioned before, these should be treated as non-standard formats, but they will increase some of the transferability of data.
•For marketing reasons most major vendors of CAD systems attempt to define their own “standards”. Examples include ‘DXF’ for Autocad, ‘CADL’ for Cadkey, ‘SAT’ for ACIS.