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Computer-Based Design and Manufacturing: An Information-Based Approach

Emad Abouel Nasr Ali K. Kamrani

Resumen/Descripción – provisto por la editorial

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Institución detectada Año de publicación Navegá Descargá Solicitá
No detectada 2007 SpringerLink

Información

Tipo de recurso:

libros

ISBN impreso

978-0-387-23323-9

ISBN electrónico

978-0-387-23324-6

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Información sobre derechos de publicación

© Springer Science+Business Media, LLC 2007

Tabla de contenidos

Product Development Life Cycle

The product development life cycle can be defined as a sequence of all the required activities that a company must perform to develop, manufacture and sell a product. These activities include marketing, research, engineering design, quality assurance, manufacturing, and a whole chain of suppliers and vendors. This chapter provides the concept of product development life cycle, the importance of product development during the product development life cycle, the major phases of product development process, benchmarking, the systematic procedure of generating concepts, and finally a complete case study for understanding the presented concepts.

Palabras clave: Product Development; Product Development Process; Concurrent Engineering; Concept Selection; Solution Principle.

Part I - Product Design | Pp. 3-30

Product Life Cycle Cost Model

This Chapter discussed the important characteristics of the manufacturing environment, the computer role in manufacturing systems, the elements of Cost Breakdown in manufacturing systems, cost estimating in manufacturing, the objectives and methods of cost estimating in the manufacturing environment, the detailed computerized method that is used in cost estimating, and computer-aided cost estimating (CACE).

Palabras clave: Cost Estimate; Preventive Maintenance; Maintenance Action; Product Life Cycle; Operational Facility.

Part I - Product Design | Pp. 31-58

Computer-Based Design and Features

Palabras clave: Numerical Control; Feature Recognition; Part Design; Engineering Drawing; Material Requirement Planning.

II - Feature-Based Design and Tecniques | Pp. 61-70

Methodologies of Feature Representations

This chapter presents discussions related to feature representation methodologies. It includes feature’s definition, wirepame modeling, surface modeling, boundary representation (B-rep), constructive solid geometry (CGS), and definition of interacting features . These methods are used to facilitate the feature recognition process.

Palabras clave: Solid Modeling; Boundary Representation; Feature Recognition; Assembly Planning; Bezier Curve.

II - Feature-Based Design and Tecniques | Pp. 71-100

Feature Extraction Techniques

This chapter presents a brief review of previous work on the related topics of feature representation and recognition. Section 5.1 describes previous research efforts in the area of feature representation. Section 5.2 describes previous research in the area of feature recognition.

Palabras clave: Feature Recognition; Constructive Solid Geometry; Process Planning System; Prismatic Part; Initial Graphic Exchange Specification.

II - Feature-Based Design and Tecniques | Pp. 101-124

Initial Graphics Exchange Specifications (IGES)

This chapter presents discussions related to a standard product data format of an object which is considered the most important tool toward the standardization of product data and at the same time towards the compatible exchange of information among various CAD and CAM systems. IGES format is addressed in detail as one of the popular standard formats.

II - Feature-Based Design and Tecniques | Pp. 125-130

Intelligent Feature Recognition Methodology

In this chapter, algorithms for extracting entities form IGES file are developed. Also, feature extraction algorithms are presented. In the next chapter, classifications of the interacting features are developed. Interacting feature extraction algorithms are also presented.

Palabras clave: Outer Loop; Common Edge; Internal Loop; External Loop; Round Corner.

II - Feature-Based Design and Tecniques | Pp. 131-179

Feature Interaction Methodology

In this chapter, a methodology for feature interaction of prismatic parts for CAM applications is developed and presented. Classification of interacting features is also addressed.

Palabras clave: Production Rule; Single Feature; Feature Recognition; Feature List; Hole Blind.

II - Feature-Based Design and Tecniques | Pp. 181-201

Mapping the Extracted Manufacturing Features to Process Planning

In this chapter, mapping all the extracted manufacturing features to the process planning point of view as an application of CAM is presented. In the next chapter, implementation of all developed algorithms is presented through examples for demonstration purposes.

Palabras clave: Machine Operation; Machine Sequence; Machine Direction; Twist Drill; Hole Blind.

III - Feature-Based Process Planning and Techniques | Pp. 205-214

Intelligent Feature Recognition Methodology (IFRM) Implementation

This chapter presents the implementation of the intelligent feature recognition methodology (IFRM). Basically, IFRM consists of two major stages: CAD interface and feature recognition program. The designed part is created by using a Mechanical Desktop 6 power pack® CAD system that supports B-rep and IGES translators. However, any CAD system can be used. The feature recognition program is developed using Windows-based Microsoft Visual C++ 6 on a PC environment. Finally, illustrative examples are presented for demonstration purposes.

Palabras clave: Feature Recognition; Machine Information; Merging Rule; Free Form Feature; IGES File.

III - Feature-Based Process Planning and Techniques | Pp. 215-277