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200 10$aRotor Balancing $eFundamentals for Systematic Processes /$fby Hatto Schneider
205   $a1st ed. 2023.
210  1$aBerlin, Heidelberg :$cSpringer Berlin Heidelberg :$cImprint: Springer Vieweg,$d2023.
215   $a1 online resource (468 pages)
311 08$aPrint version: Schneider, Hatto Rotor Balancing Berlin, Heidelberg : Springer Berlin / Heidelberg,c2023 9783662660485 
327   $aPhysical basics -- Terms and explanations -- Theory of balancing -- Theory of rotor with rigid behaviour -- Theory of rotor with compliant behaviour -- Tolerances of rotor with rigid behaviour -- Tolerances of rotor with compliant behaviour -- Procedure for balancing of rotors with rigid behaviour -- Preparation of balancing -- Description of balancing task -- Balancing machines -- Tests on balancing machines -- Balancing. Procedure for balancing rotors with compliant behaviour -- Description of the balancing task -- Balancing machines -- Tests on balancing machines -- Compensation -- Preparation and performance of balancing -- Deviations during balancing -- Protection during balancing -- Balancing in the operating condition -- Formula symbols, terms and definitions -- Documents for calculation -- Subject index -- Appendix.
330   $aBalancing of rotors is an indispensable process for the quality management, involving many steps from design to maintenance. With many developments of rotors ? with new concepts, materials and machining methods ? the challenges on balancing processes change. In search for an optimum solution for these complex tasks, no patent remedies will help, but only a sound knowledge of the theoretical background of rotor balancing, of its practical implementation and of the performance of the various balancing systems. This book is intended to support systematic familiarisation with the subject and ongoing training ? in practice as well as in theory. A focus of current ISO Standards development is on errors that occur during balancing ? intentionally created, or accidentally generated. They must be properly analysed and taken into account in order to determine the permissible readings for residual unbalances. The acceptance criteria were specified precisely so that the balancing objective ? the targeted balancing quality ? can be reliably achieved. Even today, balancing rotors with shaft-elastic behaviour often is carried out following certain established in-house rules. For this reason, the modal approach was further elaborated ? partly on the basis of DIN ISO 21940 ? Part 12, Supplement 1. The difficult choice of correction planes for the flexural modes is explained also by various examples. Target groups · Manufacturers and users of rotating machinery, in the following areas: layout, design, computation, machine procurement, work planning, manufacturing, assembly, rotor balancing, test floor, commissioning, maintenance. · Specialists for maintenance and technical acceptance. · Teacher, lecturers and students in the area of mechanical engineering. The author Dipl.-Ing. Hatto Schneider studied mechanical engineering at the Technical University Aachen, Germany. After work for three years at KFA Jülich (Germany) in the development of high-speed rotors, he joined Carl Schenk AG, Germany, for rotor balancing machines, where he headed the technical sales department for over 20 years. Today he consults in rotor balancing and gives lectures on current balancing problems. Publications on rotor balancing technology and participation in standardisation committees such as ISO, DIN, VDI and SAE prove his commitment and competence in rotor balancing.
606   $aMultibody systems
606   $aVibration
606   $aMechanics, Applied
606   $aMechanical engineering
606   $aIndustrial engineering
606   $aProduction engineering
606   $aMultibody Systems and Mechanical Vibrations
606   $aMechanical Engineering
606   $aIndustrial and Production Engineering
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615  0$aVibration.
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615  0$aMechanical engineering.
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615  0$aProduction engineering.
615 14$aMultibody Systems and Mechanical Vibrations.
615 24$aMechanical Engineering.
615 24$aIndustrial and Production Engineering.
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