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Peter Campbell, B.Sc.,
M.A., Ph.D. |
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Dr. Peter Campbell has been recognized for his
expertise in the technology, application and marketing of permanent
magnet materials for over 30 years. His global perspective comes from living and
working in Europe, the United States and Asia.
Today, Dr. Campbell provides this broad experience for selected
permanent magnet producers and users throughout the world, on
assignments which range from business development to new product (and
process) strategy and implementation. |
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Telephone: (+1) 919-274-6362
Facsimile: (+1) 919-882-9840
E-mail:
drpeterc@earthlink.net
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5315 Stonegate Drive
North Myrtle Beach
SC 29582, U.S.A.
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RESUMÉ
EXPERIENCE | EDUCATION
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Experience
VICE PRESIDENT, Magnequench, Inc., Singapore Science Park, Singapore.
1999—2005
Magnequench, Inc. is the dominant global producer of rare
earth-iron-boron powder for high energy bonded permanent magnets, and Dr. Campbell
was Vice President of Technology and Sales for this company.
He opened and ran the Magnequench Technology Center in Research Triangle
Park, North Carolina from 2000, and relocated this facility to Singapore in
2004. He was responsible for
corporate research and development activities related to Magnequench's
powder and magnet businesses, for applications engineering to tailor the
company's products to meet the needs of magnet producers and users, and for
the worldwide sales of Magnequench powders.
PRESIDENT, Princeton Electro-Technology, Inc., Boca Raton, FL.
1985—2000
Princeton Electro-Technology, Inc. is the consulting firm which Dr.
Campbell founded in March, 1985, specializing in new product and market
development for magnetic materials and their devices. As an
internationally recognized expert in permanent magnets, he organized and
presented an annual Technology Short Course and Workshop on Permanent
Magnet Design, and runs the magnetweb.com
website providing comprehensive directories and design information for
permanent magnet producers and users.
PRESIDENT, PA Technology, Inc., Princeton, NJ.
1981—1985
PA Consulting is a major international management and technology
consulting firm, with offices in the United States, Europe, the Far East
and Australia. Dr. Campbell was President of its North American Technology
Division. He originally joined PA Technology to establish an electrical
engineering consulting practice within the company.
ASSISTANT PROFESSOR, University of Southern California, Los Angeles,
CA.
1977—1981
An Assistant Professor of Electrical and Mechanical Engineering, Dr.
Campbell ran a research group in electrical machines. He taught
post-graduate and undergraduate courses in Electrical Engineering, and
conducted private consulting for many industrial clients.
ASSISTANT LECTURER, University of Cambridge, Cambridge, England.
1973—1977
An Assistant Lecturer of Electrical Engineering in the University
Engineering Department at Cambridge, Dr. Campbell was responsible for
directing research in electrical machines. He taught undergraduate courses
in many fields of engineering, and consulted for several companies.
FELLOW of Downing College, University of Cambridge, England.
1973—1977
Concurrently, Dr. Campbell was elected a Fellow of Downing College,
Cambridge. His principal responsibility was to tutor those of Downing's
students who were enrolled in the University's engineering program.
Education
B.Sc.(Hons) 1970 Electrical Engineering, University of Warwick, England.
M.A. 1974 University of Cambridge, England.
Ph.D. 1975 Electrical Engineering, University of Warwick, England.
Personal
Born in London, England, now a United States Citizen.
Interests include golf, tennis, and skiing.
Publications
(just since 1990)
Technical and economic justification for replacement of
ferrite with bonded NdFeB in the major growth applications. Bonded Magnet
News, March 31 2007, No.37, 72-81. Tokyo: The Japan Association of Bonded
Magnet Materials.
Developments with melt spun RE-Fe-B powder for bonded
magnets (with D.N. Brown, Z. Chen and P. Guschl). Journal of Magnetism
and Magnetic Materials, August 2006, 303, e371-e374.
Rare Earth-Fe-B powder coating for improvements in
corrosion resistance, flux aging loss, and mechanical strength of bonded
magnets (with P.C. Guschl). IEEE Transactions on Magnetics, October 2005, MAG-41,
3859-3861.
A comparative study on the microstructure and magnetic
properties of melt-spun RE2Fe14B/α-Fe and RE2Fe14B/Fe3B
(RE = Nd, Pr) nanocomposites (with Z. Chen, D. Brown, B-M. Ma, Y.Q. Wu and
M.J. Kramer). IEEE Transactions on Magnetics, October 2005, MAG-41,
3862-3864.
Flywheel magneto generator (with D.J. Miller). U.S.
Patent 6,791,225, September 14, 2004.
R2Fe14B-type isotropic powders for
bonded magnets (with D.N. Brown, Z.M. Chen, P.C. Guschl, D.J. Miller and B-M.
Ma). 18th. International Workshop on High Performance Magnets and their
Applications, August 2004, 67-75, Annecy (France).
The dependence of magnetic properties and hot workability
of rare earth-iron-boride magnets upon composition (with D.N. Brown, B.
Smith and B-M. Ma. IEEE Transactions on Magnetics, July 2004, MAG-40,
2895-2897.
In situ magnetization of isotropic permanent
magnets (with Y. Zhilichev and D. Miller). IEEE
Transactions on Magnetics, September 2002, MAG-38, 2988-2990.
Neo magnets boost fuel economy (with A.C. Morcos).
Machine Design, September 5, 2002.
Trends in rare earth permanent magnets for automotive
applications. 42 Volt Automotive Systems, September 2002. Gorham:
Intertech Consulting.
The comparison of anisotropic (and isotropic) powders for
polymer bonded rare earth permanent magnets (with D.N. Brown and B-M Ma).
17th. International Workshop on Rare Earth Magnets and their Applications,
August 2002, 62-73. Princeton: Rinton Press.
Accurate model for pulse magnetization of anisotropic
permanent magnets (with Y. Zhilichev, D. Miller and J. Simkin). 17th.
International Workshop on Rare Earth Magnets and their Applications,
August 2002, 115-126. Princeton: Rinton Press.
A multi-axis model of magnetization for isotropic
permanent magnets (with Y. Zhilichev). IEEE
Transactions on Magnetics, July 2001, MAG-37, 2634-2636.
Upgrading your product from ferrite to Neo. NdFeB Magnets
and NdFeB Magnet Systems, May 2001. Gorham: Gorham Advanced Materials.
Improved representation of the magnetization and resulting field in
isotropic NdFeB (with D. Miller, J. Simkin and Y. Zhilichev). 16th.
International Workshop on Rare-Earth Magnets and their Applications,
September 2000, 955-962. Sendai: The Japan Institute of Metals.
Enabling the introduction of NdFeB magnets into new applications by
added-value components & assemblies. Permanent Magnet Systems 2000
Conference, September 2000. Gorham: Gorham Advanced Materials, Inc..
Neodymium-iron-boron magnets: flexibility in sensor design (with D.
Miller). Sensors, September 2000, 94-96.
Comments on energy stored in permanent magnets. IEEE
Transactions on Magnetics, January 2000, MAG-36, 401-403.
The properties required of neodymium-iron-boron magnets for their
major applications. 15th. International Workshop on Rare-Earth Magnets
and their Applications, August 1998, 681-687. Frankfurt:
Werkstoff-Informationsgesellschaft mbH.
Automotive sensors and actuators: trends and opportunities for bonded
magnets. Polymer Bonded Magnets 98, May, 1998. Gorham:
Gorham/Intertech Consulting.
The influence of "giant" magnetoresistance (and "colossal"
magnetoresistance) on the utilization of NdFeB magnetic sensors. NdFeB
97 Conference, April 1997. Gorham: Gorham/Intertech Consulting.
Magnetoresistive position sensor including an encoder wheel wherein the
magnetization extends greater than 0.5 times the pole pitch below the
surface. U.S. Patent 5,545,985, August 13, 1996.
Magnetic reluctance flowmeter (with R.A. Seto & A.G. Bersin). U.S.
Patent 5,520,058, May 28, 1996.
High density magnetization of bonded magnets for motors and encoders.
Polymer Bonded Magnets 96, April, 1996. Gorham: Gorham/Intertech
Consulting.
Servo controlled magnetic head positioner (with H. Baheri, D.L. Griffith
& J.H. Harman).U.S. Patent 5,452,153, September 19, 1995.
The design and application of high energy rare earth permanent
magnets. Electrical Manufacturing & Coil Winding Conference,
September 1995, 49-57. Imperial Beach: Electrical Manufacturing & Coil
Winding Association.
Performance characteristics of magnetoresistive sensors for
incremental magnetic encoders. 24th. Annual Symposium on Incremental
Motion Control Systems and Devices, June 1995, 103-112. Champaign:
Incremental Motion Control Systems Society.
The application of rare earth magnets to consumer products. 13th.
International Workshop on Rare-Earth Magnets and their Applications,
September 1994, 319-328. Birmingham: The University of Birmingham.
Permanent Magnet Materials and their Application, June 1994,
ISBN 0521249961 (hardback), ISBN 0521566886 (paperback). Cambridge:
Cambridge University Press.
Thermal stability of modern permanent magnets. 22nd. Annual
Symposium on Incremental Motion Control Systems and Devices, June
1993, 97-108. Champaign: Incremental Motion Control Systems Society.
Magnetoresistive sensors for high resolution position encoding. Sensors and Actuators 1993 (SP-948), March 1993, 25-33.
Warrendale: Society of Automotive Engineers, Inc.
Applications for Nd-Fe-B magnets in automobiles. 12th.
International Workshop on Rare-Earth Magnets and their Applications,
July 1992, 338-346. Perth: University of Western Australia.
"Giant" magnetostrictive TbxDy1-xFe2 for a
micropositioning actuator. 12th. International Workshop on
Rare-Earth Magnets and their Applications, July 1992, 410-419.
Perth: University of Western Australia.
The application of "giant" magnetostrictive alloys to
micropositioning actuators. 21st. Annual Symposium on
Incremental Motion Control Systems and Devices, June 1992,
81-86. Champaign: Incremental Motion Control Systems Society.
Improvements in the properties of rare-earth magnets and their
design for d.c. electric motors. 20th. Annual Symposium on Incremental
Motion Control Systems and Devices, June 1991, 98-105.
Champaign: Incremental Motion Control Systems Society.
A new Nd-Fe-B brushless d.c. motor for a digital data storage
spindle motor. 11th. International Workshop on Rare-Earth Magnets and
their Applications, October 1990, 221-30. Pittsburgh:
Carnegie-Mellon University.
Magnetoresistive sensors for rotary position encoders. IEEE
Transactions on Magnetics, September 1990, MAG-26, 2029-31.