Nam-Ho Kim & Ashok Kumar, Nam-Ho Kim, Nam-Ho (University of Florida Kim, Nam-Ho Kumar Kim, Kim Nam-Ho, Ashok Kumar... - Geometry of Design - A Workbook

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Nam-Ho Kim & Ashok Kumar, Nam-Ho Kim, Nam-Ho (University of Florida Kim, Nam-Ho Kumar Kim, Kim Nam-Ho, Ashok Kumar...

Geometry of Design - A Workbook

English · Paperback / Softback

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Description

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Informationen zum Autor Nam-Ho Kim is an Associate Professor in the Department of Mechanical and Aerospace Engineering, College of Engineering, University of Florida, USA. Harold F. Snider is a Senior Lecturer in the Department of Mechanical and Aerospace Engineering, College of Engineering, University of Florida, USA. Klappentext Geometry of design integrates drafting technology based on experience with engineering design education. Zusammenfassung Geometry of design integrates drafting technology based on experience with engineering design education. Inhaltsverzeichnis Basic engineering drawing definitions and practices; Perspective and sectional views; Geometric construction; 3-view project system; Design intent! Descriptive geometry! Parallelism and perpendicularity; Mutual perpendicular; End clearance; Dimensioning and tolerances; Assemblies; Assembly line design; Threads and fasteners; Surface development.

List of contents

  • Preface
  • Chapter 1: Basic Engineering Drawing Definitions and Practices
    • A1.0a Introduction
    • A1.1a Drawing Instruments
    • A1.1b Uppercase Vertical Lettering
    • A1.2a Isometric & Oblique Views
    • A1.2b Pictorial Sketching Exercises
    • A1.2 Isometric Sketching
    • A1.3 Oblique Sketching
    • A1.4a Elements of a Working Drawing
    • A1.4b Views, Conventions. .and Projection Systems
    • A1.4c Guide Block
    • A1.4 Six Orthographic Views of Guide Block
    • C1.1a Drawing Views, Formats, Notes
    • C1.1b Drawing Setup Variables
    • C1.1c Proe Commands and other Drawing Options
  • Chapter 2: Views Perspective and Sectional
    • A2.0a Introduction
    • A2.1a 1, 2 and 3-point Perspective
    • A2.1b Internal Perspective
    • A2.1 2-Point Perspective
    • A2.2 Visualization: Orthographic, Isometric
    • C2.1a Orthographic Views,Show and Erase and Other Drawing Options
  • Chapter 3: Geometric Construction
    • A3.0a Introduction
    • A3.1a Geometric Constructions
    • A3.1b Other Geometric Constructions
    • A3.1 Clamp Ring: Geometric Cons
    • A3.2a Sections and Symbols
    • A3.2b Sections and Concentions .Examples.
    • A3.2c Sections and Concentions .Examples.
    • A3.2 Sections: Offset, Broken-Out
    • A3.3 Sections: Half, Revolved
    • C3.1a Clamp Ring: Constraints
    • C3.1hist Design Intent History
    • L3.1a CLAMP RING; Constraints
    • Z3.1a CLAMP RING; Constraints
  • Chapter 4: 3-View Projection System Drawing: Design Intent
    • A4.0a Introduction
    • A4.1a 3-View Projection System and Rules of Visibility
    • A4.1 Visibility
    • A4.2a AUXILIARY PROJECTION Multi-Sided Projection boxes
    • A4.2 Auxiliary Views
    • A4.3a Multiple Auxiliary Views Example
    • A4.3 Multiple Aux Views
    • C4.1a SHAFT SUPPORT .Extrude feature
    • C4.1b Design Intent
    • C4.1hist Design Intent History
    • L4.1a CHANNEL GUIDE .Extrude feature
    • Z4.1a CHANNEL GUIDE .Extrude feature
  • Chapter 5: Descriptive Geometry 1
    • A5.0a Introduction
    • A5.1a Fundamental Constructions of Descriptive Geometry
    • A5.1b Fundamental Constructions of Descriptive Geometry
    • A5.1c Signature of Principal Lines and Planes
    • A5.1 Points and Lines: Classify, Slope & Bearing
    • A5.2 Lines: Parallel, Intersect, Skew, Identify Planes
    • A5.3 TL and PV of a line
    • A5.4a Viewpoints and Direction Vectors
    • A5.4 Viewpoints Direction Vectors
    • A5.5a DIHEDRAL ANGLE example
    • C5.1a SHAFT: Revolve feature
    • C5.1hist Design Intent History
    • L5.1a SHAFT. .Revolve feature
    • Z5.1a SHAFT; Revolve
  • Chapter 6: Descriptive Geometry 2
    • A6.0a Introduction
    • A6.1 EV and TS of a Plane
    • A6.2 Angle Between a Line and a Plane
    • A6.3 Bearing, Strike and Dip
    • A6.4a Sheet Metal Vocabulary
    • A6.4b Sheet Metal Example
    • A6.4c Sheet Metal Operations
    • C6.1a SWITCH COVER .Shell and Pattern functions
    • C6.1hist Design Intent History
    • L6.1a SWITCH COVER .Shell and Pattern functions
    • Z6.1a BEARING SUPPORT .Shell and Pattern functions
  • Chapter 7: Descriptive Geometry 3
    • A7.0a Introduction
    • A7.1a The CUTTING PLANE
    • A7.1 INTERSECTION of LINE and PLANE
    • J7.1 INTERSECTION of LINE and PLANE
    • X7.1 INTERSECTION of LINE and PLANE
    • A7.2 Intersection of two planes: pierce point
    • C7.1a SUNDIAL.PV, TL, EV, TS, Area. .and DIHEDRAL Angle
    • C7.1hist Design Intent History
    • L7.1a SUNDAL.PV, TL, EV, TS, Area. .and DIHEDRAL Angle
    • Z7.1a SUNDIAL.PV, TL, EV, TS, Area. .and DIHEDRAL Angle
  • Chapter 8: Parallelism and Perpendicularity
    • A8.0a Introduction
    • A8.1 Parallelism
    • A8.2 Perpendicular Lines
  • Chapter 9: Mutual Perpendicular: Assembly End Clearance
    • A9.0a Introduction
    • A9.1 Mutual Perpendicular
    • A9.2a Mixer Assembly: end Clearance
    • A9.2 Assembly end Clearance
    • C9.1a SPRAY NOZZLE: Sweep, Blend Features
    • C9.2a MUTUAL PERPENDICULAR Axial Clearance
    • C9.1hist Design Intent History
  • Chapter 10: Dimensioning and Tolerances: Assemblies
    • A10.0a Introduction
    • A10.1a Dimensioning Terms
    • A10.1b Dimensioning Guidelines
    • A10.1c Dimensioning Guidelines
    • A10.1d Methods of Tolerancing
    • A10.1e Dimensioning. Symmetric.Asym metric
    • A10.1 Dimensioning
    • A10.2a Design of Fits Hole Basis and Shaft Basis
    • A10.2 Design of Fits
    • A10.3a Clearances, (ANSI) Tolerances and Fits
    • A10.3b Clearances, (Metric) Tolerances and Fits
    • A10.3 ANSI fits, ISO fits
    • C10.1a Mixer Assembly. C 101XA01. asm Mixer Assembly Drawing.C101X01.drw
    • C10.1b .Bill of Materials.Balloons . .Assembly Sections. .Exploded Views.
    • C10.1 hist Design Intent History
  • Chapter 11: Assembly Line Design
    • A11.0a Introduction
    • A11.1a Thread Data Allowances and Tolerances
    • A11.1 Screw Assembly Design Problem
    • A11.2a Working Drawingsand Specifications
    • A11.2b Working Drawings and Specifications
    • A11 2c Assembly Line for Low Volume Production
    • A11.2d Assembly Line for Low Volume Production
    • A11.2e Bench Assembly Line
    • A11.2f Assembly Line Operations
    • C11.1a Assembly Line Layout
  • Chapter 12: Threads and Fasteners
    • A12.0a Introduction
    • A12.1a ANSI Thread Notes
    • A12.1b Screw Thread Representation
    • A12.1c MetricThread Notes
    • A12.1 Screw thread terminology
    • A12.2 Thread notes
    • A12.3a Rivets and other Standard Hardware
    • A12.4a Geometric Tolerancing
    • A12.4 GDT Feature Control Frames
    • C12.1a CONICAL COMPRESSION SPRING
    • C12.1 hist Title: Conical Spring; C 121 X01 hist.pdf Part No.: C 121 X0 1.prt
  • Chapter 13: Surface Development
    • A13.0a Introduction
    • A13.1a Finding TL by Revolution
    • A13.1 Surface Development
    • C13.1a ARCH. .Swept Blend Feature; Equation Editor
    • C13.1hist Design Intent History
    • L13.1a ARCH Swept Blend Feature; Equation Editor
    • C13.2a VORTEX ASSEMBLY .Surface Modeling .Convert Surfaces to Solids
    • C13.2hist Design Intent History
    • L13.2a VORTEX ASSEMBLY.Surface Modeling .convert Surfaces to Solids

Product details

Authors Nam-Ho Kim & Ashok Kumar, Nam-Ho Kim, Nam-Ho (University of Florida Kim, Nam-Ho Kumar Kim, Kim Nam-Ho, Ashok Kumar, Ashok (Seidman College of Business Kumar, Ashok V. Kumar, Kumar Ashok, Harold Snider, Harold (University of Florida Snider, Harold F. Snider, Harold F. (University of Florida Snider
Publisher ELSEVIER SCIENCE BV
 
Languages English
Product format Paperback / Softback
Released 02.01.2015
 
EAN 9781782421733
ISBN 978-1-78242-173-3
No. of pages 320
Series Woodhead Publishing
Subjects Humanities, art, music > Art > Interior design, design
Natural sciences, medicine, IT, technology > Technology > Mechanical engineering, production engineering

Computer-Aided Design (CAD), TECHNOLOGY & ENGINEERING / Industrial Design / General, Technical design, COMPUTERS / Design, Graphics & Media / CAD-CAM

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