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Geometry of design : a workbook /
Engineering drawing is the "instrument of communication" upon which the designer must place all information necessary to define a new product. Computer-aided design (CAD) courses often involve teaching solid modelling software, and we view CAD as an engineering communication tool for manuf...
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Cambridge, England :
Woodhead Publishing,
2014.
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| Colección: | Woodhead Publishing in mechanical engineering.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Geometry of Design; Copyright; Contents; Preface; 1 Basic engineering drawing definitions and practices; Introduction; A1.1a Drawing supplies; A1.1b Lettering: header lettering; A1.2a Isometric and 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 Isometric pictorial of guide block; A1.4 Six orthographic views of guide block; C1.1a Drawing generation: views, formats, notes; C1.1b Drawing setup variables; 2 Perspective and sectional views.
- A2.0a IntroductionA2.1a 1-, 2- and 3-point perspective: equal size boxes; A2.1b Internal perspective; A2.1 2-point perspective; A2.2 Visualization: orthographic, isometric; C2.1a Ortho views: show and erase; 3 Geometric construction; A3.0a Introduction; A3.1a Geometric construction; A3.1b Other geometric construction; A3.1 Clamp ring: geometric construction; A3.2a Sections and symbols; A3.2b Sections: examples; A3.2c Sections: examples; A3.2 Sections: offset, broken-out; A3.3 Sections: half, revolved; C3.1a Clamp ring: constraints; C3.1hist Design intent history.
- 4 3-view project system: design intentA4.0a Introduction; A4.1a 3-view projection system: visibility; A4.1 Visibility; A4.2a Auxiliary projection: 7-sided box; A4.2 Auxiliary views: angle bracket; A4.3a Multiple aux views; A4.3 Multiple aux views; C4.1a Shaft support: extrude; C4.1b Design intent; C4.1hist Design intent history; 5 Descriptive geometry 1; A5.0 Introduction; A5.1ab Fundamental constructs 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 lineA5.4a Viewpoints and direction vectors; A5.4 Viewpoints: direction vectors; A5.5a Dihedral angle: example; C5.1a Shaft: revolved feature; C5.1hist Design intent history; 6 Descriptive geometry 2; A6.0a Introduction; A6.1 EV and TS of a plane; A6.2 Angle between line and plane; A6.3 Bearing: slope, strike, dip, contours; A6.4a Sheet metal vocabulary; A6.4b Sheet metal example; A6.4c Sheet metal operations: progressive die; C6.1a Bearing support: shell and pattern features; C6.1hist Design intent history; 7 Descriptive geometry 3; A7.0a Introduction.
- A7.1a The cutting planeA7.1 Intersection of line and plane: pierce point; A7.2 Intersection of two planes: prism, line/solid; C7.1a Sundial: PV, TL, EV, TS, area, dihedral angle; C7.1hist Design intent history; 8 Parallelism and perpendicularity; A8.0a Introduction; A8.1 Parallelism; A8.2 Perpendicular lines; 9 Mutual perpendicular: 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; C9.2a Mutual perpendicular; C9.1hist Design intent history; C9.2hist Design intent history.