Year 2015,
Volume: 17 Issue: 1, 32 - 37, 01.06.2015
Abstract
The properties and mechanism of energy dissipation of elastic vibrations MnCu alloys containing less than 50% Mn and its relationship between the crystal and magnetic structures are investigated. It is obtained that the magnetostriction constant, λ=4×104, is found higher than the corresponding characteristic of thypical ferromagnetic material
References
- [1]. Udovenko, B.A., Polyakova, H.A., Turmambekov, T.A., Structure and damping properties of manganese-copper alloys. Физика Металлов и Металловедение, 11.0.142-149, (1991)
- [2]. Udovenko, B.A., Polyakova, H.A., Turmambekov, T.A., Стадийность процесса формирования мартенситной структуры и демпфирующих свойств при отжиге сплавов MnCu. Физика Металлов и Металловедение, 77, 134-140, (1994).
- [3]. Farkas, D.M., Yamashita, Т., Perkins, J., On the energetic of fliccering contrast observed in ТЕМ images of an aged 53Cu-45Mn-2Al allay, Acta Met. Mat., 38, 1883-1995, (1990).
- [4]. Street, R., Smith, J.H., Elasticity and Antiferromagnetizm of metallic antiferromagnetics, Journal de Physique et de Radium, 20, 82-87 (1959).
- [5]. Cochart, A.W., Magnetomechanical damping magnetic properties of metals and alloys, American Society for metals, Cleveland, OH., 251-279, (1959)..
- [6]. Cochart, A.W., The origin of damping in highstrength ferromagnetic allays, Trans. Of American Soc. Of mechanical Engineers, Journal of Applied Mechanics, 75, 196-200, (1959).
- [7]. Smith, C.W., Binchak, L.R., Internal stress distribution theory of magnetomechanical Hysteresis-An Extention to include Effects of magnetic Field and applied stress, Journal of:Applied Physics, 40, 5174-5178, (1969).
- [8]. Laddha S., Van Aken D.C., On the application of magnetomechanical models to Explain Damping in an antiferromagnetic Coppermaganess Allay. Metallurgical and Material Transaction A., 26, 957-964, (1995).
Year 2015,
Volume: 17 Issue: 1, 32 - 37, 01.06.2015
Abstract
Bu araştırmada, % 50 den az Mn içeren MnCu alaşımlarının elastik vibrasyonundaki enerji dağılım mekanizmaları ve özellikleri incelenmiş ve bunun kristal ve manyetik yapısı ile ilişkileri incelenmiştir. Bulunan magnetostriction sabitinin (λ=4×104), tipik demirmanyetik malzemelerinin karakteristiklerine göre daha yüksek olduğu bulunmuştur
References
- [1]. Udovenko, B.A., Polyakova, H.A., Turmambekov, T.A., Structure and damping properties of manganese-copper alloys. Физика Металлов и Металловедение, 11.0.142-149, (1991)
- [2]. Udovenko, B.A., Polyakova, H.A., Turmambekov, T.A., Стадийность процесса формирования мартенситной структуры и демпфирующих свойств при отжиге сплавов MnCu. Физика Металлов и Металловедение, 77, 134-140, (1994).
- [3]. Farkas, D.M., Yamashita, Т., Perkins, J., On the energetic of fliccering contrast observed in ТЕМ images of an aged 53Cu-45Mn-2Al allay, Acta Met. Mat., 38, 1883-1995, (1990).
- [4]. Street, R., Smith, J.H., Elasticity and Antiferromagnetizm of metallic antiferromagnetics, Journal de Physique et de Radium, 20, 82-87 (1959).
- [5]. Cochart, A.W., Magnetomechanical damping magnetic properties of metals and alloys, American Society for metals, Cleveland, OH., 251-279, (1959)..
- [6]. Cochart, A.W., The origin of damping in highstrength ferromagnetic allays, Trans. Of American Soc. Of mechanical Engineers, Journal of Applied Mechanics, 75, 196-200, (1959).
- [7]. Smith, C.W., Binchak, L.R., Internal stress distribution theory of magnetomechanical Hysteresis-An Extention to include Effects of magnetic Field and applied stress, Journal of:Applied Physics, 40, 5174-5178, (1969).
- [8]. Laddha S., Van Aken D.C., On the application of magnetomechanical models to Explain Damping in an antiferromagnetic Coppermaganess Allay. Metallurgical and Material Transaction A., 26, 957-964, (1995).
There are 8 citations in total.
Details
| Other ID | JA22CV83VM |
|---|---|
| Journal Section | Research Articles |
| Authors | |
| Publication Date | June 1, 2015 |
| Submission Date | June 1, 2015 |
| Published in Issue | Year 2015 Volume: 17 Issue: 1 |