Integration of Conceptual Design and MOKA into CATIA v5:A Knowledge-based Application for an Aircraft Y-bolt Component
The design process comprises the Conceptual Phase,the Embodiment Phase and the Detail Design Phase in which commercial PLM/CAD systems mainly support the latter ones.This situation causes the discontinuity in the overall design information flow:Customer Needs (CNs)-Functional Requirements (FRs)-Design Parameters (DPs)-Key Characteristics (KCs)-Geometric Parameters (GPs).There is also a lack of knowledge reuse in routine design process,resulting in large cost-waste of the overall design process.Aiming to enhance the continuity of the design information flow and facilitate the knowledge reuse,this paper makes use of a knowledge-based framework to integrate conceptual design tools:Quality Function Deployment (QFD),Axiomatic Design (AD),Failure Mode and Effects Analysis (FMEA) and the MOKA methodology into CATIA v5 system.A knowledge-based application (KBA) on the large aircraft y-bolt component design is presented as a case study to validate the proposed framework.The result shows how this novel integrated framework and KBA system could benefit designers in a practical way.
QFD AD FMEA KBA MOKA CATIA v5
Pai Zheng Víctor Hugo Torres José Ríos Gang Zhao
School of Mechanical Engineering and Automation, Beihang University, Beijing 100191, China Department of Mechanical and Manufacturing Engineering, Universidad Politécnica de Madrid,Madrid 280
国际会议
香港
英文
974-980
2012-12-11(万方平台首次上网日期,不代表论文的发表时间)