Abstract
Nowadays, small and medium-sized manufacturing enterprises (SMEs) are facing intensive competition from the global market. For these SMEs, how to better manage and record the previous product development knowledge has become a core issue for them to improve their product development process, cut down development costs, and reduce lead time. In recent years, considerable effort has been placed on developing new enabling technologies for SMEs to achieve high quality and productivity, and quickly responding to changing markets to meet customer requirements. This chapter presents our work in developing a STEP-compliant online product digital library for rapid development of high value-added customized products. The chapter focuses on how to develop the product digital library for digitizing various types of customized products. This library uses the standard for the exchange product model data (STEP) as a foundation. New methods and tools are developed to model, record, and search information such as customer requirements and expectations, engineering responses, product design, decision making, and product machining processes, etc. The recorded product information and knowledge in the library can be reused for the development of new customized products.
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Keywords
- Product Data
- Digital Library
- Product Development Process
- Computer Integrate Manufacture
- Product Database
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Cai CT, Li YY, Dai YH, Liu XY (2002) Design method of application protocol of the machine parts based on STEP. Computer Integrated Manufacturing Systems 8:892–895
Chin KS, Zhao Y, Mok CK (2002) STEP-based multview integrated product modeling for concurrent engineering. International J of Advanced Manufacturing Technology 20:896–906
Gu PH, Chan K (1995) Product modeling using STEP. Computer-Aided Design 27:163–179
ISO (1994) Industrial automation systems and integration: Product data representation and exchange: Part 203: Application protocol: Configuration controlled 3D designs of mechanical parts and assemblies, Reference number: ISO 10303-203:1994(E), First edition, Switzerland.
ISO (2002) Industrial automation systems and integration: Product data representation and exchange: Part 204: Application protocol: Mechanical design using boundary representation, Reference number: ISO 10303-204:2002(E), First Edition, Switzerland.
ISO (2003) Industrial automation systems and integration: Product data representation and exchange: Part 28: Implementation methods: XML representations of EXPRESS schemas and data, Reference number: ISO 10303-28:2003(E), First edition, Switzerland.
ISO (2004) Industrial automation systems and integration: Product data representation and exchange: Part 118: Application protocol: Ship structures, Reference number: ISO 10303-118, First Edition, Switzerland.
ISO (2005) Industrial automation systems and integration: Product data representation and exchange: Part 224: Application protocol: Mechanical product definition for process planning using machining features, Reference number: ISO/DIS 10303-224, Third Edition, Switzerland.
Jasnoch U, Haas S (1996) Collaborative environment based on distributed object oriented databases. Computers in Industry 29:51–61
Lamit LG, PRO/ENGINEER® WILDFIRETM , Belmont: ThomsonBrooks/Cole, 2004 (Prickly-Paradigm: Chicago).
Li HL, Han JH, Dong JX, Wang Y (1996) Feature-based parametric modeling system for CAD/CAPP/CAM integrated system. J of Engineering and Applied Science 329–333
Li WD, Fuh JYH, Wong YS (2004) An Internet-enabled integrated system for co-design and concurrent engineering. Computers in Industry 55(1):87–103
Meng MC, Yang L, Bai LK (1997) Feature modeling system based on STEP. Computer Integrated Manufaturing System 3:34–38
Ming XG, Mak KL, Yan JQ (1998) A PDES/STEP-based information model for computer-aided process planning. Robotics and Computer Integrated Manufacturing 14:347–361
Shah JJ, Methew A (1991) Experimental investigation of the STEP Form-Feature Information Model. Computer-Aided Design 23:282–296
Shaharoun AM, Razak JA, Alam MR (1998) STEP-based geometric representation as part of product data model of a plastics part. J of Materials Processing Technology 76:115–119
Song YY, Cheng Y, Cai FZ, Xiao YB, Tang D (1999) Study on knowledge-based integrated design for manufacture of mechanical parts. J of Tsinghua University 39:21–24
Tang D, Zheng L, Li Z, Chin KS (2001) STEP-based product modeling for concurrent stamped part and die development. Computers in Industry 46:75–94
Tu YL, Xie SQ (2001) An information-modeling framework for sheet metal parts intelligent and concurrent design and manufacturing. International J of Advanced Manufacturing Technology 18(12):873–883
Tu YL, Xie SQ, Fung RYK (2007) Product Development Cost Estimation in Mass Customization. IEEE Trans on Engineering Management 54(1):29–40
Usher JM (1996) STEP-based object-oriented product model for process planning. Computers and Industrial Engineering 31:185–188
Xie SQ, Tu YL, Fung RYK, Zhou ZD (2003) Rapid One-of-a-kind Product Development via the Internet: the literature review of the state-of-the-art and a proposed platform. International J of Production Research 41(18):4257–4298
Xie SQ, Xu X (2006) A STEP-Compliant Process Planning System for Sheet Metal Parts. International J of Computer Integrated Manufacturing 19(6):627–638
Xie SQ, Xu X (2008) A STEP-Compliant Process Planning System for Compound Sheet Metal Machining. International J of Production Resdearch 46:25–50
Xie SQ, Yang WZ, Tu YL (2008) Towards a generic product modeling framework. International J of Production Research 46(8):2229–2254
Yang WZ, Xie SQ, Ai QS, Zhou ZD (2008) Recent Development on Integrated Product Modeling: a Review. International J of Production Research 46(21):6055–6085
Zha XF, Du H (2002) A PDES/STEP-based Model and System for Concurrent Integrated Design and Assembly Planning. Computer-Aided Design 34:1087–1110
Zhao W, Ma W (1999) Feature modeling for aeroengine blades according to STEP. J of Beijin University of Aeronautics and Astronautics 25:535–538
Zhou ZD, Xie SQ, Yang WZ (2007) A Case Study on STEP-enabled Generic Product Modeling Framework. International J of Computer Integrated Manufacturing 8(1):43–61
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Xie, S. (2011). A STEP-compliant Online Product Digital Library for Customized Products. In: Fogliatto, F., da Silveira, G. (eds) Mass Customization. Springer Series in Advanced Manufacturing. Springer, London. https://doi.org/10.1007/978-1-84996-489-0_9
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DOI: https://doi.org/10.1007/978-1-84996-489-0_9
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