An advanced FEA based force induced error compensation strategy in milling

Wei Huang; Svetan Ratchev; Shulong Liu; Adib A. Becker

doi:10.1016/j.ijmachtools.2005.06.003

An advanced FEA based force induced error compensation strategy in milling

Wei Huang
, Svetan Ratchev
, Shulong Liu
, Adib A. Becker

Institute for Research in Applicable Computing (IRAC)

Research output: Contribution to journal › Article › peer-review

172 Citations (Scopus)

Abstract

The study introduces a multi-level machining error compensation approach focused on force-induced errors in machining of thin-wall structures. The prediction algorithm takes into account the deflection of the part in different points of the tool path. The machining conditions are modified at each step when the cutting force and deflection achieve a local equilibrium. The machining errors are predicted using a theoretical flexible force-deflection model. The error compensation is based on optimising the tool path taking into account the predicted milling error. The error compensation scheme is simulated using NC simulation package and is experimentally verified.

Original language	English
Pages (from-to)	542-551
Journal	International Journal of Machine Tools and Manufacture
Volume	46
Issue number	5
DOIs	https://doi.org/10.1016/j.ijmachtools.2005.06.003
Publication status	Published - 1 Apr 2006

Keywords

CAD/CAM

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http://linkinghub.elsevier.com/retrieve/pii/S0890695505001471

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title = "An advanced FEA based force induced error compensation strategy in milling",

abstract = "The study introduces a multi-level machining error compensation approach focused on force-induced errors in machining of thin-wall structures. The prediction algorithm takes into account the deflection of the part in different points of the tool path. The machining conditions are modified at each step when the cutting force and deflection achieve a local equilibrium. The machining errors are predicted using a theoretical flexible force-deflection model. The error compensation is based on optimising the tool path taking into account the predicted milling error. The error compensation scheme is simulated using NC simulation package and is experimentally verified.",

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AU - Becker, Adib A.

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Y1 - 2006/4/1

N2 - The study introduces a multi-level machining error compensation approach focused on force-induced errors in machining of thin-wall structures. The prediction algorithm takes into account the deflection of the part in different points of the tool path. The machining conditions are modified at each step when the cutting force and deflection achieve a local equilibrium. The machining errors are predicted using a theoretical flexible force-deflection model. The error compensation is based on optimising the tool path taking into account the predicted milling error. The error compensation scheme is simulated using NC simulation package and is experimentally verified.

AB - The study introduces a multi-level machining error compensation approach focused on force-induced errors in machining of thin-wall structures. The prediction algorithm takes into account the deflection of the part in different points of the tool path. The machining conditions are modified at each step when the cutting force and deflection achieve a local equilibrium. The machining errors are predicted using a theoretical flexible force-deflection model. The error compensation is based on optimising the tool path taking into account the predicted milling error. The error compensation scheme is simulated using NC simulation package and is experimentally verified.

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DO - 10.1016/j.ijmachtools.2005.06.003

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JO - International Journal of Machine Tools and Manufacture

JF - International Journal of Machine Tools and Manufacture

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ER -

An advanced FEA based force induced error compensation strategy in milling

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Keywords

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