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CAD/CAM in Practice : A Manager’s Guide to Understanding and Using CAD/CAM (1986)

Medland, A. J. ; Burnett, Piers

Dordrecht : Springer Netherlands

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ISBN: 9789401171205

Language: English

Pages: Online-Ressource , online resource

Edition: Springer eBook Collection. Humanities, Social Sciences and Law

Parallel Title: Erscheint auch als

Keywords: Science (General) ; Social sciences. ; Humanities.

Abstract: 1: CAD — What is it All About? -- Concepts and descriptions -- The design process -- The origins of CAD -- Automated drafting: creating a model -- Representations and simulations -- Analytical programs: simulating performance -- Summary: CAD defined -- 2: CAM — An Introduction -- Design and manufacture: two processes or one? -- Numerical control: the basis of CAM -- Computer-assisted part programming -- Direct numerical control -- Computer numerical control -- The future of numerical control -- Flexible manufacturing systems -- Computer-integrated manufacturing -- Group technology -- Summary: from CAD/CAM to CADAM -- 3: The Elements of a CAD System -- From mainframe to mini -- Enter the micro — distributing ‘intelligence’ -- Memory and storage devices -- Machine communicates with man: the graphics display -- Stroke-writing display systems -- Raster display systems -- Man communicates with machine: menus and input arrangements -- Light pen input -- Cursor steering input devices -- Graphics tablet input -- Choosing an input system -- Plotters and other hard copy devices -- 4: Principal Types of CAD System -- Two-dimensional modellers -- Wire-frame modellers -- Surface modellers -- Solid modelling I: boundary representation -- Solid modelling II: constructive solid geometry -- Summary: making a choice of modelling system -- 5: The Software — What CAD Can Do -- Basic drafting -- Macros -- Parametrics -- Graphic conventions -- ‘Drafting’ with primitive solids -- Transformations -- Taking things apart — sectioning -- Putting things together — segmentation and assembly -- Moving things about — simulated operations -- Automatic dimensioning -- Testing things — analytical programs -- 6: A Look Ahead -- Towards standardization? -- Horses for courses: tailor-made CAD -- Extending CAM — computer-aided everything -- Building-in more knowledge — expert systems -- Trends (and limitations) in hardware development -- New roles for CAD -- Near relations: computer graphics and simulators -- 7: Justifying CAD/CAM -- The fallacy of productivity -- Not-so-simple arithmetic -- Saving waste — consistency of information -- Saving time — availability of information -- Saving trouble — analysis of information -- Doing what could not be done before -- 8: Identifying the Needs of a Company -- Who should conduct the feasibility study? -- Geometrical information — the vital commodity -- Where does the information originate? -- How is information stored, communicated and used? -- The place of CAD/CAM in the information structure -- Setting identifiable goals -- 9: Choosing a System and Persuading the Company to Buy It -- ‘Turnkey’ systems -- Assembled systems -- Sources of information -- The politics of CAD -- Making a shortlist -- Benchmarking -- The ‘best’ system? -- Ready, get set... -- 10: Buying and Installing a System -- Implementation: the role of the CAD manager -- Planning the installation: physical factors -- Planning the installation: psychological and organizational factors -- Selling CAD to the users -- Training -- The first six months -- Appendix I: Glossary of terms and acronyms used in CAD/CAM -- Appendix II: Checklist for potential purchasers of CAD systems -- Appendix III: Suppliers of turnkey CAD systems in the UK and USA -- Select bibliography.

Abstract: Little more than a decade ago computer-aided design and manufacture (CAD/CAM) was a very esoteric field indeed, not one that was of much practical concern to a manager or industrialist unless his business was on the scale of, say, a major automobile manufacturer or in a field of high technology such as aerospace. Like so much else, this situation was revo lutionized by the invention of the silicon chip, the arrival of the micro processor and the dramatic fall in the cost of computer hardware. Today, CAD/CAM has spread down the market, and down the price scale, to the point at which it is both a feasible and an affordable technology for a wide range of small-and medium-sized companies in areas as various as architec ture and general engineering, plastic moulding and consumer electronics. But the explosion - there is no other word for it - in the variety and capabilities of CAD/CAM systems, and their spectacular climb to the top of the hi-tech hit parade, has placed the potential purchaser and user of the new technology in a difficult position. On the one hand he is assured, not least by the manufacturers of CAD/CAM equipment, that a failure to invest in it will leave his company stranded in the industrial Stone Age.

Description / Table of Contents: 1: CAD - What is it All About?Concepts and descriptions -- The design process -- The origins of CAD -- Automated drafting: creating a model -- Representations and simulations -- Analytical programs: simulating performance -- Summary: CAD defined -- 2: CAM - An Introduction -- Design and manufacture: two processes or one? -- Numerical control: the basis of CAM -- Computer-assisted part programming -- Direct numerical control -- Computer numerical control -- The future of numerical control -- Flexible manufacturing systems -- Computer-integrated manufacturing -- Group technology -- Summary: from CAD/CAM to CADAM -- 3: The Elements of a CAD System -- From mainframe to mini -- Enter the micro - distributing ‘intelligence’ -- Memory and storage devices -- Machine communicates with man: the graphics display -- Stroke-writing display systems -- Raster display systems -- Man communicates with machine: menus and input arrangements -- Light pen input -- Cursor steering input devices -- Graphics tablet input -- Choosing an input system -- Plotters and other hard copy devices -- 4: Principal Types of CAD System -- Two-dimensional modellers -- Wire-frame modellers -- Surface modellers -- Solid modelling I: boundary representation -- Solid modelling II: constructive solid geometry -- Summary: making a choice of modelling system -- 5: The Software - What CAD Can Do -- Basic drafting -- Macros -- Parametrics -- Graphic conventions -- ‘Drafting’ with primitive solids -- Transformations -- Taking things apart - sectioning -- Putting things together - segmentation and assembly -- Moving things about - simulated operations -- Automatic dimensioning -- Testing things - analytical programs -- 6: A Look Ahead -- Towards standardization? -- Horses for courses: tailor-made CAD -- Extending CAM - computer-aided everything -- Building-in more knowledge - expert systems -- Trends (and limitations) in hardware development -- New roles for CAD -- Near relations: computer graphics and simulators -- 7: Justifying CAD/CAM -- The fallacy of productivity -- Not-so-simple arithmetic -- Saving waste - consistency of information -- Saving time - availability of information -- Saving trouble - analysis of information -- Doing what could not be done before -- 8: Identifying the Needs of a Company -- Who should conduct the feasibility study? -- Geometrical information - the vital commodity -- Where does the information originate? -- How is information stored, communicated and used? -- The place of CAD/CAM in the information structure -- Setting identifiable goals -- 9: Choosing a System and Persuading the Company to Buy It -- ‘Turnkey’ systems -- Assembled systems -- Sources of information -- The politics of CAD -- Making a shortlist -- Benchmarking -- The ‘best’ system? -- Ready, get set.. -- 10: Buying and Installing a System -- Implementation: the role of the CAD manager -- Planning the installation: physical factors -- Planning the installation: psychological and organizational factors -- Selling CAD to the users -- Training -- The first six months -- Appendix I: Glossary of terms and acronyms used in CAD/CAM -- Appendix II: Checklist for potential purchasers of CAD systems -- Appendix III: Suppliers of turnkey CAD systems in the UK and USA -- Select bibliography.

DOI: 10.1007/978-94-011-7120-5

URL: Volltext (lizenzpflichtig)

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The Computer-Based Design Process (1986)

Medland, A. J.

Boston, MA : Springer US

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ISBN: 9781461598640

Language: English

Pages: Online-Ressource (232 p) , online resource

Edition: Springer eBook Collection. Humanities, Social Sciences and Law

Parallel Title: Erscheint auch als

Keywords: Science (General) ; Social sciences. ; Humanities.

Abstract: Preface -- The role of computer graphics in the design process -- Constructing the ideal system -- Acknowledgements -- 1: The Design Process -- An overview -- Computer aided design and manufacture (CAD and CAM) -- The relationship between activity, weight, control and role -- Product constraints -- Man-machine interactions -- Proposed design approach -- 2: Design Theory -- Fundamental requirements -- Spatial associations -- Functional associations -- 3: Local Space Modelling -- Logical spaces -- Interpretive geometric models -- 4: System Configuration -- Software -- Hardware -- 5: Design Records -- Hierarchical, networked and relational data bases -- Assembly records -- 6: Drawing Office Procedures -- Space allocation and role -- Application of HERMS -- Integration and control procedures -- Application examples -- 7: Mechanical Functions of Performance -- The functional design of mechanisms -- Kinematic modelling -- Dynamic modelling -- Conclusions -- 8: Future Developments -- The design base -- Tolerance modelling -- Modelling force fit -- Assemblability -- Standard parts and catalogues -- Factory layout and process control -- Electronics modelling -- References.

Abstract: The topic known as computer-aided design and manufacture has developed rapidly over the last 20 years. The range of hardware configurations and supporting software on offer to the potential user is bewildering. This extends from the inexpensive single-user micro-based system, through to the vast industrial networks which are supported by many remote mainframe machines and have been reported to service up to a thousand workstations. This advance in technology has been driven by, and in its turn has fuelled, the development of ever greater computing power and graphics capability. It is these features that all working in the field would now recognize as essential to any CADCAM system. Effort has thus been put into developing a range of structural and solid modellers which, in conjunction with the appropriate terminal configuration and ray tracing graphics technology, can construct pictures of uncanny realism. Complicated analysis programs have been developed that can calculate the stresses in complex structures and display the results as colour shaded maps upon the surface of a pictorial view of the object. If the time to process and the system cost are ignored, then the apparent ease with which these systems perform such analysis and generate such high quality images, leaves the observer awe struck.

DOI: 10.1007/978-1-4615-9864-0

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Principles of CAD : A Coursebook (1988)

Medland, A. J. ; Mullineux, Glen

Boston, MA : Springer US

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ISBN: 9781468415148

Language: English

Pages: Online-Ressource , online resource

Edition: Springer eBook Collection. Humanities, Social Sciences and Law

Parallel Title: Erscheint auch als

Keywords: Science (General) ; Social sciences. ; Humanities.

Abstract: Section 1 The Design Process -- Module 1.1 The Relationship between Geometry and Function -- Module 1.2 The Form of the Design Process -- Module 1.3 Traditional Drawing Practices -- Module 1.4 The Development of the CAD Industry -- Exercises -- Section 2 System Configuration -- Module 2.1 Workstations -- Module 2.2 Computers—Mainframes to Micros -- Module 2.3 Output Devices -- Module 2.4 Data Storage -- Module 2.5 Networked Systems -- Exercises -- Section 3 Entity Descriptions -- Module 3.1 Points, Lines and Circular Arcs -- Module 3.2 Basic Geometric Manipulations -- Module 3.3 Free-form Curves 1 -- Module 3.4 Free-form Curves 2 -- Module 3.5 Finding Intersections of Free-form Curves -- Module 3.6 Surfaces -- Exercises -- Section 4 View Transformations -- Module 4.1 Two-dimensional Transformations—Pan, Rotate and Zoom -- Module 4.2 Three-dimensional Transformation Matrices -- Module 4.3 Axial and Observer Systems -- Module 4.4 The Use of Perspective -- Module 4.5 Multi-view Presentations -- Module 4.6 Advanced Viewing Techniques -- Exercises -- Section 5 Types of CAD Modelling Systems -- Module 5.1 Two-dimensional Drafting Practice -- Module 5.2 Three-dimensional Wireframe Models -- Module 5.3 Surface Modelling -- Module 5.4 Solid Modelling -- Module 5.5 Display of Solid Models -- Exercises -- Section 6 The User Interface -- Module 6.1 User Command Language -- Module 6.2 Use of Menus -- Module 6.3 Graphics Interface Languages -- Module 6.4 Use of Parametrics -- Exercises -- Section 7 System Effectiveness and Organization -- Module 7.1 Information Flow -- Module 7.2 Establishing Design Needs -- Module 7.3 Identifying Benefits -- Module 7.4 Training for Operation -- Module 7.5 Working Environment -- Module 7.6 Design and Social Structure -- Module 7.7 System Management -- Exercises -- Section 8 Applications Programs -- Module 8.1 Analysis-centred Applications Programs -- Module 8.2 Manufacturing-centred Applications Programs -- Module 8.3 Control-centred Applications Programs -- Further Reading.

Abstract: Many books already exist on computer-aided design and manufacture most of which are dedicated to describing the complexities of mathematical modelling and its application to industrial problems. In the experience of the present authors, however, if the subject is to be understood within its true, industrial context it must be taught in relation to the design process. Thus, while this book discusses both modelling and industrial applications, it also tries to provide an insight into design methodology, system selection and usage, and the social relationships that exist within design and manufacturing facilities. The teaching modules which make up the book are the distillation of material used by the authors both for undergraduate courses in CAD at BruneI University, and for seminars given to industrial users. The modules are not intended to be used in isolation, but rather to serve as an introductory survey which will enable students to grasp the broad outlines of the subject. Most aspects ofthe course presented here will need to be supported by further work and reading (see 'Further Reading'). In the authors' own courses much of the geometric and modelling work described in the text is supported by tutorial activities using the university department's commercial and research CAD/CAM systems. These include the Computervision-CADDS4X and Personal Systems.

Description / Table of Contents: Section 1 The Design ProcessModule 1.1 The Relationship between Geometry and Function -- Module 1.2 The Form of the Design Process -- Module 1.3 Traditional Drawing Practices -- Module 1.4 The Development of the CAD Industry -- Exercises -- Section 2 System Configuration -- Module 2.1 Workstations -- Module 2.2 Computers-Mainframes to Micros -- Module 2.3 Output Devices -- Module 2.4 Data Storage -- Module 2.5 Networked Systems -- Exercises -- Section 3 Entity Descriptions -- Module 3.1 Points, Lines and Circular Arcs -- Module 3.2 Basic Geometric Manipulations -- Module 3.3 Free-form Curves 1 -- Module 3.4 Free-form Curves 2 -- Module 3.5 Finding Intersections of Free-form Curves -- Module 3.6 Surfaces -- Exercises -- Section 4 View Transformations -- Module 4.1 Two-dimensional Transformations-Pan, Rotate and Zoom -- Module 4.2 Three-dimensional Transformation Matrices -- Module 4.3 Axial and Observer Systems -- Module 4.4 The Use of Perspective -- Module 4.5 Multi-view Presentations -- Module 4.6 Advanced Viewing Techniques -- Exercises -- Section 5 Types of CAD Modelling Systems -- Module 5.1 Two-dimensional Drafting Practice -- Module 5.2 Three-dimensional Wireframe Models -- Module 5.3 Surface Modelling -- Module 5.4 Solid Modelling -- Module 5.5 Display of Solid Models -- Exercises -- Section 6 The User Interface -- Module 6.1 User Command Language -- Module 6.2 Use of Menus -- Module 6.3 Graphics Interface Languages -- Module 6.4 Use of Parametrics -- Exercises -- Section 7 System Effectiveness and Organization -- Module 7.1 Information Flow -- Module 7.2 Establishing Design Needs -- Module 7.3 Identifying Benefits -- Module 7.4 Training for Operation -- Module 7.5 Working Environment -- Module 7.6 Design and Social Structure -- Module 7.7 System Management -- Exercises -- Section 8 Applications Programs -- Module 8.1 Analysis-centred Applications Programs -- Module 8.2 Manufacturing-centred Applications Programs -- Module 8.3 Control-centred Applications Programs -- Further Reading.

DOI: 10.1007/978-1-4684-1514-8

URL: Volltext (lizenzpflichtig)

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