Sleeve versus antifriction bearings: selection of the optimal bearing for induction motors

The decision between which hearing type to utilize is not always easy or even obvious. There is no choice in bearing selection on small motors (less than 200 hp), where only antifriction bearings (AFBs) are readily available. Likewise, a choice does not always exist on larger motors in excess of 200...

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Veröffentlicht in:	IEEE transactions on industry applications 2002-07, Vol.38 (4), p.909-920
Hauptverfasser:	Finley, W.R., Hodowanec, M.M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Antifriction bearings Ball bearings Bearing Bearings Chemical industry Costs Guidelines Hearing Induction motors Maintenance Motors Optimization Petroleum Purchasing Rolling bearings Rotors Shafts
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creator	Finley, W.R. Hodowanec, M.M.
description	The decision between which hearing type to utilize is not always easy or even obvious. There is no choice in bearing selection on small motors (less than 200 hp), where only antifriction bearings (AFBs) are readily available. Likewise, a choice does not always exist on larger motors in excess of 2000 hp, where various design requirements leave only the sleeve bearing (or tilting pad bearing) as a viable option. On intermediate size motors, a choice will have to be made. In general, AFBs are less expensive, and result in a more compact motor. However, there are potential disadvantages associated with AFBs. The "best" bearing decision depends on the details of the particular application. This paper explores the advantages/disadvantages of both types of bearings. Additionally, it provides guidelines to help select the best bearing for the application. Judicious selection of bearings will result in motor purchasing savings without sacrificing process reliability.
doi_str_mv	10.1109/TIA.2002.800592
format	Article
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There is no choice in bearing selection on small motors (less than 200 hp), where only antifriction bearings (AFBs) are readily available. Likewise, a choice does not always exist on larger motors in excess of 2000 hp, where various design requirements leave only the sleeve bearing (or tilting pad bearing) as a viable option. On intermediate size motors, a choice will have to be made. In general, AFBs are less expensive, and result in a more compact motor. However, there are potential disadvantages associated with AFBs. The "best" bearing decision depends on the details of the particular application. This paper explores the advantages/disadvantages of both types of bearings. Additionally, it provides guidelines to help select the best bearing for the application. 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There is no choice in bearing selection on small motors (less than 200 hp), where only antifriction bearings (AFBs) are readily available. Likewise, a choice does not always exist on larger motors in excess of 2000 hp, where various design requirements leave only the sleeve bearing (or tilting pad bearing) as a viable option. On intermediate size motors, a choice will have to be made. In general, AFBs are less expensive, and result in a more compact motor. However, there are potential disadvantages associated with AFBs. The "best" bearing decision depends on the details of the particular application. This paper explores the advantages/disadvantages of both types of bearings. Additionally, it provides guidelines to help select the best bearing for the application. 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subjects	Antifriction bearings Ball bearings Bearing Bearings Chemical industry Costs Guidelines Hearing Induction motors Maintenance Motors Optimization Petroleum Purchasing Rolling bearings Rotors Shafts
title	Sleeve versus antifriction bearings: selection of the optimal bearing for induction motors
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