Farklı manyetik maddelerden yapılmış toroid nüvelerin 50 Hz'lik frekanstaki özellikleri
Files
Date
2001-10-03
Authors
Zeybek, Mürsel
Journal Title
Journal ISSN
Volume Title
Publisher
Uludağ Üniversitesi
Abstract
Yönlendirilmemiş ve tane yönelimli elektrik çelikleri, amorf ve nano-ctystal malzemeler gibi gelişmiş manyetik malzemeler manyetik çekirdeklerin üretimi için kullanılmıştır. Bu malzemeler enerji tasarrufu sağlar ve elektrikli makinelerin verimliliğini artırır. Bu çalışmada,% 3 SiFe,% 6,5 SiFe, amorf ve nanodan yapılmış toroidal yara çekirdekleri üzerinde manyetik alan yoğunluğunun manyetik alan kuvveti (BH) ve bağıl geçirgenliğin manyetik alan yoğunluğu (Ur-B) ile değişimi araştırılmıştır. -kristal malzemeler. Toroidal örnekler sırasıyla% 3 SiFe üzerinde 1.6 T, amorf üzerinde 1.4 T,% 6.5 SiFe üzerinde 1.3 T ve nano kristal çekirdek üzerinde 0.9 T'ye kadar manyetize edildi. Göreceli geçirgenlik de manyetik alan yoğunluğu ile değiştirildi. En yüksek nispi, şekilsiz numuneler,% 3 SiFe,% 6.5 SiFe ve nano-kristal üzerindeki deneysel verilerden 0.5 T'de 75112, 1.0 T'de 55872, 0.9 T'de 28134 ve 0.1 T'de 23417 olarak hesaplanan geçirgenliktir.
Advanced magnetic materials such as non-oriented and grain oriented electrical steels, amorphous and nano-ctystal materials have been used for production of magnetic cores. These materials provide energy saving and increase the efficiency of electrical machines. In the present work, the variation of magnetic field density with magnetic field strength (B-H) and relative permeability with magnetic field density (Ur-B) were investigated on the toroidal wound cores made from 3% SiFe, 6.5% SiFe, amorphous and nano-crystal materials. The toroidal samples were magnetised up to 1.6 T on 3% SiFe, 1.4 T on amorphous, 1.3 T on 6.5% SiFe and 0.9 T on nano-crystal core respectively. The relative permeability was also varied by the magnetic field density. Highest relative was permeability calculated from the experimental data on the samples amorphous, 3% SiFe, 6.5% SiFe and nano-crystal as 75112 at 0.5 T, 55872 at 1.0 T, 28134 at 0.9 T and 23417 at 0. 1 T respectively.
Advanced magnetic materials such as non-oriented and grain oriented electrical steels, amorphous and nano-ctystal materials have been used for production of magnetic cores. These materials provide energy saving and increase the efficiency of electrical machines. In the present work, the variation of magnetic field density with magnetic field strength (B-H) and relative permeability with magnetic field density (Ur-B) were investigated on the toroidal wound cores made from 3% SiFe, 6.5% SiFe, amorphous and nano-crystal materials. The toroidal samples were magnetised up to 1.6 T on 3% SiFe, 1.4 T on amorphous, 1.3 T on 6.5% SiFe and 0.9 T on nano-crystal core respectively. The relative permeability was also varied by the magnetic field density. Highest relative was permeability calculated from the experimental data on the samples amorphous, 3% SiFe, 6.5% SiFe and nano-crystal as 75112 at 0.5 T, 55872 at 1.0 T, 28134 at 0.9 T and 23417 at 0. 1 T respectively.
Description
Keywords
Histerezis eğrileri, Manyetik geçirgenlik, Toroid nüve, Hysteresis curves, Magnetic permeability, Toroidal core
Citation
Zeybek, M. (2001). Farklı manyetik maddelerden yapılmış toroid nüvelerin 50 Hz'lik frekanstaki özellikleri. Yayınlanmamış yüksek lisans tezi. Uludağ Üniversitesi Fen Bilimleri Enstitüsü.