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Erschienen in:

2021 | OriginalPaper | Buchkapitel

4. Analysis of Clamping Reasonability

verfasst von : Guohua Qin

Erschienen in: Advanced Fixture Design Method and Its Application

Verlag: Springer Singapore

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Abstract

Because the workpiece is affected by machining force, inertia force, gravity and other external forces in the machining process, some clamps are used to exert clamping forces to press the workpiece against locators.

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Vorheriges Kapitel Analysis of Workpiece Stability

Nächstes Kapitel Analysis of Workpiece Attachment/Detachment

Chetaev NG. Theoretical mechanics [M]. Moscow, 1989.

Choudhuri SA, DeMeter EC. Tolerance analysis of machining fixture locators [J]. Trans ASME J Manuf Sci Eng. 1999;121:272–81.CrossRef

Chou YC, Chandru V, Barash MM. A mathematical approach to automatic configuration of machining fixtures: analysis and synthesis [J]. Trans ASME J Eng Ind. 1989;111(11):299–306.CrossRef

DeMeter EC, Xie W, Choudhuri S, Vallapuzha S, Trethewey MW. A model to predict minimum required clamp pre-loads in light of fixture-workpiece compliance [J]. Int J Mach Tools Manuf. 2001;41:1031–54.CrossRef

Gou WX. Mechanics of materials [M]. Northwestern Polytechnical University Press, 2000. (in Chinese).

Gui XW, Fuh JYH, Nee AYC. Modeling of frictional elastic fixture-workpiece system for improving location accuracy [J]. IIE Trans. 1996;28:821–7.CrossRef

Hong M, Payandeh S, Gruver WA. Modeling and analysis of flexible fixturing systems for agile manufacturing [J]. In: IEEE International Conference on Systems, Man, and Cybernetics, 1996, Vol. 2, pp. 1231–1236.

Johnson KL. Contact mechanics [M]. Cambridge University Press, 1985.

Kang YZ. Computer Aided Fixture Design Verification [D]. Ph.D. Thesis, Worcester Polytechnic Institute, 2001.

Kashyap S, DeVries WR. Finite element analysis and optimization in fixture design [J]. Struc Optim. 1999;18:193–201.CrossRef

Lee JD, Haynes LS. Finite element analysis of flexible fixturing system [J]. Trans ASME J Manuf Sci Eng. 1987;109(134):9.

Li B, Melkote SN. Fixture clamping force optimization and its impact on workpiece location accuracy [J]. Int J Adv Manuf Technol. 2001;17(104):13.

Menassa RJ, DeVries WR. Opimization methods applied to selecting support positions in fixture design [J]. Trans ASME J Eng Ind. 1991;113:412–8.CrossRef

Pilkey WD, Wunderlich W. Mechanics of structures: variational and computational methods [M]. CRC Press, 1994.

Qin GH, Zhang WH, Wu ZX, Wan M. Systematic modeling of workpiece-fixture geometric default and compliance for the prediction of workpiece machining error [J]. Trans ASME J Manuf Sci Eng. 2007;129(4):789–801.CrossRef

Raghu A, Ferreira PM. Analysis of the influence of fixture locator errors on the compliance of work part features to geometric tolerance specifications [J]. Trans ASME J Manuf Sci Eng. 2003;125:609–6161.CrossRef

Raghu A, Melkote SN. Modeling of workpiece location error due to fixture geometric error and fixture-workpiece compliance [J]. Trans ASME J Manuf Sci Eng. 2005;127:75–83.CrossRef

Rong Y, Bai Y. Machining accuracy analysis for computer aided fixture design [J]. J Manuf Sci Eng. 1996;118:289–300.CrossRef

Rong Y, Hu W, Kang Y, Yen DW. Locating error analysis and tolerance assignment for computer-aided fixture design [J]. Int J Prod Res. 2001;39(15):3529–45.CrossRef

Tan EYT, Kumar AS, Fuh JYH, Nee AYC. Modeling, analysis, and verification of optimal fixturing design [J]. IEEE Trans Autom Sci Eng. 2004;1:121–32.CrossRef

Tao ZJ, Kumar AS, Nee AYC, Mannan MA. Modeling and experimental investigation of a sensor-integrated workpiece-fixture system [J]. Int J Comput Appl Technol. 1997;10:236–50.

Trappey AJC, Liu CR. An automatic workholding verification system [J]. Robot Comput Integ Manuf. 1992;9(4.5):321–6.

Wang MY. Tolerance analysis for fixture layout design [J]. Assem Autom. 2002;22:153–62.CrossRef

Xiong CH, Wang MY, Tang Y, Xiong YL. On prediction of passive contact forces of workpiece-fixture systems [J]. Proc Ins Mechan Eng Part B-J Eng Manuf. 2005;219(B3):309–24.CrossRef

Xiong CH, Ding H, Xiong YL. Fundamentals of Robotic Grasping and Fixturing [M]. World Scientific, 2007.

Titel: Analysis of Clamping Reasonability
verfasst von: Guohua Qin
Verlag: Springer Singapore
Buch: Advanced Fixture Design Method and Its Application
Print ISBN: 978-981-334-492-1

Electronic ISBN: 978-981-334-493-8

Copyright-Jahr: 2021
DOI: https://doi.org/10.1007/978-981-33-4493-8_4

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