Tool-wear effect compensation under sequential tolerance control

B. M.P. Fraticelli; E. A. Lehtihet; T. M. Cavalier

doi:10.1080/002075499191715

Tool-wear effect compensation under sequential tolerance control

B. M.P. Fraticelli, E. A. Lehtihet, T. M. Cavalier

Marcus Department of Industrial and Manufacturing Engineering

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

24 Scopus citations

Abstract

The production of functional parts requires component dimensions and other geometric features to be produced within their tolerances. In order to achieve the allowable variation in the final dimensions of the part, it is necessary to reduce the variation of manufactured dimensions. Sequential tolerance control, which is predicated on the ability to measure the output of prior operations, has been developed to compensate for the effect of non-repeatable (random) variation in process outputs. Random variation, however, is not the only disturbance that affects a process. Cutting tools wear with time, creating a gradual loss of cutting tool material that introduces a systematic variation in the output of the machining operation. This paper proposes the use of acquired measurement information to compensate for both random and systematic (tool wear) variation where appropriate.

Original language	English (US)
Pages (from-to)	639-651
Number of pages	13
Journal	International Journal of Production Research
Volume	37
Issue number	3
DOIs	https://doi.org/10.1080/002075499191715
State	Published - Feb 1999

All Science Journal Classification (ASJC) codes

Strategy and Management
Management Science and Operations Research
Industrial and Manufacturing Engineering

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10.1080/002075499191715

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title = "Tool-wear effect compensation under sequential tolerance control",

abstract = "The production of functional parts requires component dimensions and other geometric features to be produced within their tolerances. In order to achieve the allowable variation in the final dimensions of the part, it is necessary to reduce the variation of manufactured dimensions. Sequential tolerance control, which is predicated on the ability to measure the output of prior operations, has been developed to compensate for the effect of non-repeatable (random) variation in process outputs. Random variation, however, is not the only disturbance that affects a process. Cutting tools wear with time, creating a gradual loss of cutting tool material that introduces a systematic variation in the output of the machining operation. This paper proposes the use of acquired measurement information to compensate for both random and systematic (tool wear) variation where appropriate.",

author = "Fraticelli, {B. M.P.} and Lehtihet, {E. A.} and Cavalier, {T. M.}",

note = "Funding Information: This research is based on work supported by National Science Foundation Grant No. DMI-9622620.",

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AU - Fraticelli, B. M.P.

AU - Lehtihet, E. A.

AU - Cavalier, T. M.

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AB - The production of functional parts requires component dimensions and other geometric features to be produced within their tolerances. In order to achieve the allowable variation in the final dimensions of the part, it is necessary to reduce the variation of manufactured dimensions. Sequential tolerance control, which is predicated on the ability to measure the output of prior operations, has been developed to compensate for the effect of non-repeatable (random) variation in process outputs. Random variation, however, is not the only disturbance that affects a process. Cutting tools wear with time, creating a gradual loss of cutting tool material that introduces a systematic variation in the output of the machining operation. This paper proposes the use of acquired measurement information to compensate for both random and systematic (tool wear) variation where appropriate.

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Tool-wear effect compensation under sequential tolerance control

Abstract

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