Buch, Englisch, 320 Seiten, Format (B × H): 154 mm x 233 mm, Gewicht: 633 g
Buch, Englisch, 320 Seiten, Format (B × H): 154 mm x 233 mm, Gewicht: 633 g
ISBN: 978-1-78242-173-3
Verlag: Elsevier Science & Technology
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
- 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
