| Description |
1 online resource (421 pages) : illustrations (some color) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Series |
Woodhead Publishing in Mechanical Engineering |
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Woodhead Publishing in mechanical engineering.
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| Note |
Print version record. |
| Summary |
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 manufacturing. As the technology of engineering design is in transition from paper drawings to solid models, its education must address the challenge of covering both technologies. Geometry of design integrates drafting technology based on experience with engineering design education. This workbook has evolved from the course "Computer-Aided Graphics and Design at the University of Florida, and many pages of this textbook can be used for student assignments. In order to help students to familiarize themselves with the manufacturing field experience, most assignments are to be submitted in the form of complete working drawings of the parts and assembly. The first three chapters introduce basic engineering drawing definitions and practices. The following four chapters cover design and descriptive geometry, and subsequent chapters move on to dimensions, assembly line design and surface development |
| Contents |
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. |
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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. |
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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. |
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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. |
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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. |
| Subject |
Computer-aided design.
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Computer-Aided Design |
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Conception assistée par ordinateur.
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computer-aided designs (visual works)
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computer-aided design (process)
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TECHNOLOGY & ENGINEERING -- Engineering (General)
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TECHNOLOGY & ENGINEERING -- Reference.
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Computer-aided design
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| Added Author |
Kumar, Ashok V., author.
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Snider, Harold F., author.
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| Other Form: |
Print version: Kim, Nam-Ho. Geometry of design : a workbook. Cambridge, England : Woodhead Publishing, ©2014 xi, approximately 421 pages Woodhead Publishing in mechanical engineering. 9781782421733 |
| ISBN |
9781782421740 (electronic bk.) |
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1782421742 (electronic bk.) |
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1782421734 |
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9781782421733 |
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9781782421733 |
| Standard No. |
AU@ 000056058552 |
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CHBIS 010547599 |
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CHNEW 001012663 |
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CHVBK 341784796 |
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DEBBG BV043216228 |
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DEBBG BV043617262 |
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DEBSZ 427902223 |
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DEBSZ 431910073 |
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DEBSZ 463022289 |
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DEBSZ 482373342 |
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DKDLA 820120-katalog:999926366005765 |
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NLGGC 401009815 |
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