Electrical Steels Volume 2: Performance and applications
Author: Professor Anthony John Moses, et al.
Product Code: PBPO157B
Stock Status: Pre-order
The arrival date is March 2019
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£106.25 Pre-order price
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£125.00 Full price
Volume 2 describes performance and outlines applications of electrical steels. Topics covered include:
• Localised characteristics of electrical steels; practical properties of electrical steels; other electrical steels and prediction of losses in electrical steels.
• Application of electrical steels in transformer cores; applications of electrical steels in rotating electrical machines; non-sinusoidal magnetisation and applications and magnetic building factors in electrical steel cores.
• Use of amorphous ribbon and nano-materials in transformer cores; electrical machine core vibration and noise; approaches to predictions and measurements of flux density and loss distributions in electrical machine cores.
• The application of international standards to magnetic alloys and steels; electrical steels and renewable energy systems; environmental impact of electrical steels; and typical performance data of commercial electrical steels.
The companion Volume 1 covers the fundamentals and basic concepts of electrical steels.
You might also be interested in Electrical Steels Volume 1: Fundamentals and basic concepts or Electrical Steels 2 Volume set
About the Authors
Anthony Moses is Emeritus Professor of Magnetics at Cardiff University, UK where he was previously Director of the Wolfson Centre for Magnetics. His research focuses on aspects of the production, characterization, and application of soft magnetic materials. He has authored more than 500 papers. He previously served as Chairman of the U.K. Magnetics Society and Chair of the International Organizing Committee of the Soft Magnetic Materials (SMM) series of conferences.
Keith Jenkins worked at the British Steel Electrical Steels Research Department, Orb Works for over 35 years in a variety of technical and research functions, where he built up a wide network of contacts with other electrical steel makers, transformer and motor manufacturers, including Nippon Steel (Japan), Posco (Korea), ThyssenKrupp (Germany), AK Steel (USA), Siemens and ABB (Europe), RollsRoyce (UK). Recently he has been an honorary visiting professor at the Magnetics and Materials Group at Cardiff University’s School of Engineering.
Philip Anderson is a Senior Lecturer in the Magnetics and Materials Group at Cardiff University’s School of Engineering. He has 25 years of research experience focussing on the on the development, application and characterisation of soft magnetic materials. He is a member of the British and International Standards Committees on Magnetic Alloys and Steels together with the International Organising Committees of several major magnetics conference series.
Hugh Stanbury joined the Electrical Steels Research Department of the British Steel Corporation after graduating in Physics from Imperial College. He progressed to Technical Manager of Orb Electrical Steels, Cogent Power and was responsible for the development of their United Kingdom Accreditation Service Magnetics Standards Laboratory. He currently serves as chair of the British Standards Institution Technical Committee for Magnetic Alloys and Steels and is a former Chair of the International Electrotechnical Commission Technical Committee for Magnetic Alloys and Steels.
An essential reading for researchers in academia and industry working in the field; experts in manufacturing of electrical steels. Also aimed at advanced students; engineers and scientists in electrical energy generation and distribution sectors in general.
This information is provisional and will be updated prior to publication
Chapter 1: Localised Characteristics of Electrical Steels
Chapter 2: Practical Properties of Electrical Steels
Chapter 3: Other Electrical Steels
Chapter 4: Prediction of Losses in Electrical Steels
Chapter 5: Application of electrical steels in transformer cores
Chapter 6: Applications of electrical steels in rotating electrical machines
Chapter 7: Non-sinusodial Magnetisation and Applications
Chapter 8: Magnetic building factors in electrical steel cores
Chapter 9: Use of amorphous ribbon and nano-materials in transformer cores
Chapter 10: Electrical machine core vibration and noise
Chapter 11: Approaches to predictions and measurements of flux density and loss distributions in electrical machine cores
Chapter 12: The application of international standards to magnetic alloys and steels
Chapter 13: Electrical steels and renewable energy systems
Chapter 14: Environmental impact of electrical steels
Chapter 15: Typical performance data of commercial electrical steels