Quantitative Optimization of Workpiece-fixture System's Clamping Forces

The paper discusses the stability of workpiece-fixture system and quantitative optimization of clamping forces during precise machining. Based on the force screw theory and the minimum norm principle, a mathematical model is formulated to calculate the entire passive forces acting on the workpiece....
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Autor*in:	Lu Jiping [verfasserIn] Zuo Jianhua [verfasserIn] Ma Ning [verfasserIn] Zhang Faping [verfasserIn] Qian Hanbo [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2011

Schlagwörter:	workpiece-fixture system stability clamping forces optimization

Übergeordnetes Werk:	In: International Journal of Computational Intelligence Systems - Springer, 2017, 4(2011), 3
Übergeordnetes Werk:	volume:4 ; year:2011 ; number:3

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.2991/ijcis.2011.4.3.15

Katalog-ID:	DOAJ040395634

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callnumber-first	Q - Science
author	Lu Jiping
spellingShingle	Lu Jiping misc QA75.5-76.95 misc workpiece-fixture misc system stability misc clamping forces misc optimization misc Electronic computers. Computer science Quantitative Optimization of Workpiece-fixture System's Clamping Forces
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topic_title	QA75.5-76.95 Quantitative Optimization of Workpiece-fixture System's Clamping Forces workpiece-fixture system stability clamping forces optimization
topic	misc QA75.5-76.95 misc workpiece-fixture misc system stability misc clamping forces misc optimization misc Electronic computers. Computer science
topic_unstemmed	misc QA75.5-76.95 misc workpiece-fixture misc system stability misc clamping forces misc optimization misc Electronic computers. Computer science
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title	Quantitative Optimization of Workpiece-fixture System's Clamping Forces
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title_sort	quantitative optimization of workpiece-fixture system's clamping forces
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title_auth	Quantitative Optimization of Workpiece-fixture System's Clamping Forces
abstract	The paper discusses the stability of workpiece-fixture system and quantitative optimization of clamping forces during precise machining. Based on the force screw theory and the minimum norm principle, a mathematical model is formulated to calculate the entire passive forces acting on the workpiece. Furthermore, a new methodology to optimizing clamping forces is put forward, on the criteria of keeping the stability of workpiece during cutting process. By this way, the intensity of clamping forces is decreased dramatically, which is the most beneficial in improving machining quality of thin-walled machined parts. Finally, a case study is made to support and validate the proposed model.
abstractGer	The paper discusses the stability of workpiece-fixture system and quantitative optimization of clamping forces during precise machining. Based on the force screw theory and the minimum norm principle, a mathematical model is formulated to calculate the entire passive forces acting on the workpiece. Furthermore, a new methodology to optimizing clamping forces is put forward, on the criteria of keeping the stability of workpiece during cutting process. By this way, the intensity of clamping forces is decreased dramatically, which is the most beneficial in improving machining quality of thin-walled machined parts. Finally, a case study is made to support and validate the proposed model.
abstract_unstemmed	The paper discusses the stability of workpiece-fixture system and quantitative optimization of clamping forces during precise machining. Based on the force screw theory and the minimum norm principle, a mathematical model is formulated to calculate the entire passive forces acting on the workpiece. Furthermore, a new methodology to optimizing clamping forces is put forward, on the criteria of keeping the stability of workpiece during cutting process. By this way, the intensity of clamping forces is decreased dramatically, which is the most beneficial in improving machining quality of thin-walled machined parts. Finally, a case study is made to support and validate the proposed model.
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title_short	Quantitative Optimization of Workpiece-fixture System's Clamping Forces
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