항공기체구조의 정밀조립 및 동시설계 기술|RISS 상세보기

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항공기체구조의 정밀조립 및 동시설계 기술 = Accurate Assembly and Concurrent Design of Airframe Structures

한글로보기

https://www.riss.kr/link?id=A105040772

저자

박문식 ; Park, Mun-Sik
발행기관
대한기계학회
학술지명
대한기계학회논문집A(Transactions of the KSME, A)
권호사항

Vol.24 No.4 [2000]
발행연도
2000
작성언어
Korean
주제어

정밀조립 ; 조립지그 ; 동시공학 ; 절충공학데이텀 ; 전사제품정의 ; 프레임조립 ; 주특성 ; 부품대부품인덱싱 ; 공정능력지수 ; 통계적공정관리 ; 치공구인덱스계획
등재정보
SCOPUS,KCI등재,ESCI
자료형태
학술저널
발행기관 URL
http://www.ksme.or.kr
수록면

811-823(13쪽)
DOI식별코드
https://doi.org/10.22634/ksme-a.2000.24.4.811
제공처
ScienceON
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다국어 초록 (Multilingual Abstract)

In design and manufacturing airframe structures which are composed of a lot of sub-assemblies and large complex profile shapes it is difficult to reduce so called hardware variations. Accordingly cost increasing factors for manufacturing airframe parts are much more than other machine parts because of the variability of fabricated details and assemlies. To improve cost and quality, accurate assembly methods and DPD techniques are proposed in this paper which are based upon using CAD/CAM techniques, the concept of KC's and the coordinated datum and index throughout the design, tooling, manufacturing and inspection. The proposed methods are applied to produce fuselage frame assemblies and related engineering aspects are described regarding the design of parts and tools in the context of concurrent digital definition. First articles and consequent mass production of frame assemblies shows a great improvement of the process capability ratio from 0.7 by the past processes to 1.0 by the proposed methods in addition to the cost reduction due to the less number of tools, reduced total assembly times and the space compaction needed by massive inventory. The need to achieve better Cpk, however, and future studies to be investigated will be addressed briefly.

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In design and manufacturing airframe structures which are composed of a lot of sub-assemblies and large complex profile shapes it is difficult to reduce so called hardware variations. Accordingly cost increasing factors for manufacturing airframe part...

In design and manufacturing airframe structures which are composed of a lot of sub-assemblies and large complex profile shapes it is difficult to reduce so called hardware variations. Accordingly cost increasing factors for manufacturing airframe parts are much more than other machine parts because of the variability of fabricated details and assemlies. To improve cost and quality, accurate assembly methods and DPD techniques are proposed in this paper which are based upon using CAD/CAM techniques, the concept of KC's and the coordinated datum and index throughout the design, tooling, manufacturing and inspection. The proposed methods are applied to produce fuselage frame assemblies and related engineering aspects are described regarding the design of parts and tools in the context of concurrent digital definition. First articles and consequent mass production of frame assemblies shows a great improvement of the process capability ratio from 0.7 by the past processes to 1.0 by the proposed methods in addition to the cost reduction due to the less number of tools, reduced total assembly times and the space compaction needed by massive inventory. The need to achieve better Cpk, however, and future studies to be investigated will be addressed briefly.

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