Affiliation:
1. Institute of Industrial Control Systems(IICS)
2. Institute of Industrial Control Systems
Abstract
Permanent magnet materials composed of transition and rare earth metals exhibit high energy products. Samarium cobalt magnets are developed and research is done to have high coercivity. Chemistry is varied from 34 to 36 weight percent of samarium in Sm1Co5 compound. Effect of chemistry and sintering treatment temperatures on final properties has been studied. Magnets are manufactured by powder metallurgical technique involving isostatic pressing and sintering in inert atmosphere at temperatures range of 1140-1170°C. Then the magnets are subject to post sintering aging treatment in temperature range of 800-900°C. It is observed that coercivity of Sm1Co5 magnet varies with aging temperature and can be improved by post sintering aging treatment.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference5 articles.
1. F.F. Westendorp, On the coercivity of SmCo5, Solid State Communications, Vol. 8, 1970, pp.139-141.
2. Koichiro Inomata, Masakazu Yamada, Samarium Cobalt Copper Iron Titanium permanent magnets, US patent no. 4211585 dated July 8, (1980).
3. T. Ojima, S. Tomizawa, T. Yoneyama and T. Hori, Magnetic properties of a new type of Rare-Earth cobalt magnets, IEEE Transaction on Magnetics, vol. MAG-13, No. 5, September 1997, p.1317.
4. Vladimir Menushhenkov, Phase transformation induced coercivity of mechanism in rare earth sintered magnets, Journal of Applied Physics, Vol. 99 (8), 08B523, (2006).
5. H. Zijlstra, Domain-wall processes in SmCo5 powders", Journal of applied physics, vol. 41, No. 12, November 1970, pp.4881-4885.
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2 articles.
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