- Inbunden (Hardback)
- Antal sidor
- CRC Press Inc
- N, A 8, black and white 492 Illustrations 14-Ebook replaced 49 Tables black and white
- N/A; 8/14- Ebook replaced; 49 Tables, black and white; 492 Illustrations, black and white
- 254 x 184 x 31 mm
- Antal komponenter
- 1406 g
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Mechanical Design of Electric Motors
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Bloggat om Mechanical Design of Electric Motors
Wei Tong, Ph.D, PE is chief engineer at Kollmorgen Corporation, a subsidiary of Danaher Corporation, Radford, Virginia, USA. He is an internationally recognized expert on mechanical-electrical-thermal systems. A fellow of the American Society of Mechanical Engineers and a registered professional engineer in the state of Virginia, USA, Dr. Tong holds 28 US patents and 16 foreign patents. He presently serves as an associate editor of ASME Journal of Heat Transfer and International Journal of Rotating Machinery.
Preface List of Symbols Introduction of Electric Motors History of Electric Motors Motor Design Characteristics Classifications of Electric Motors Motor Design and Operation Parameters Sizing Equations Motor Design Process and Consideration Motor Failure Mode IP Code Rotor Design Rotor in Induction Motor Permanent Magnet Rotor Rotor Manufacturing Process Rotor Dynamic Balancing Interference Fit Stress Analysis of Rotor Rotordynamic Analysis Rotor Burst Containment Analysis Shaft Design Shaft Materials Shaft Loads Shaft Design Methods Engineering Calculations Shaft Design Issues Stress Concentration Torque Transmission through Mechanical Joints Fatigue Failure: Alternative Loading Shaft Manufacturing Methods Shaft Misalignment between Motor and Driven Machine Shaft Coupling Stator Design Stator Lamination Magnet Wire Stator Insulation Manufacturing Process of Stator Core Stator Encapsulation and Impregnation Stator Design Considerations Mechanical Stress of Stator Motor Frame Design Types of Motor Housing Testing Methods of Casted Motor Housing Eedbell Manufacturing Motor Assembly Methods Fastening System Design Anti-Corrosion of Electric Motor and Components Motor Bearing Bearing Classification Bearing Design Bearing Fatigue Life Bearing Failure Mode Bearing Noise Bearing Selection Bearing Performance Improvement Motor Power Losses Power Losses in Windings Due to Electric Resistance in Copper Wires Eddy Current and Magnetic Hysteresis Losses Mechanical Friction Losses Windage Losses Stray Load Losses Motor Cooling Introduction Conductive Heat Transfer Techniques Natural Convection Cooling with Fins Forced Air Cooling Techniques Liquid Cooling Techniques Phase-Change Cooling Techniques Radiative Heat Transfer Other Advanced State-of-the-Art Cooling Methods Motor Vibration and Acoustic Noise Vibration and Noise in Electric Motor Fundamentals of Vibration Electromagnetic Vibrations Mechanical Vibrations Vibration Measurements Vibration Control Fundamentals of Acoustic Noise Noise Types and Measurements for Rotating Electric Machines Motor Noise Abatement Techniques Motor Testing Motor Testing Standards Testing Equipment and Measuring Instruments Testing Load Level Testing Methods Off-Line Motor Testing Online Motor Testing Modeling, Simulation, and Analysis of Electric Motors Computational Fluid Dynamics and Numerical Heat Transfer Thermal Simulation with Lumped-Circuit Modeling Thermal Analysis using Finite Element Method Rotordynamic Analysis Static and Dynamic Stress/Strain Analysis Fatigue Analysis Torsional Resonance Analysis Motor Noise Prediction Buckling Analysis Thermally-Induced Stress Analysis Thermal Expansion and Contraction Analysis Innovative and Advanced Motor Design High Temperature Superconducting Motor Radial-Flux, Multi-Rotor, or Multi-Stator Motor Axial-Flux, Multi-Rotor, or Multi-Stator Motor Hybrid Motor Conical Rotor Motor Transverse-Flux Motor Reconfigurable Permanent Magnet Motor Variable Reluctance Motor Permanent Magnet Memory Motor Adjustable and Controllable Axial Rotor/Stator Alignment Motor Piezoelectric Motor Advanced Electric Machines for Renewable Energy Micromotor and Nanomotor References