Residual Magnetization and Magnetostriction of Nickel Single Crystals
スポンサーリンク
概要
- 論文の詳細を見る
By use of long cylindrical single crystals of pure nickel with various crystallographic orientations, magnetization and magnetostriction were measured at room temperature. It was found that the remanent magnetization I_r is given approximately by the following relation : I_r/I_s=1/√3β_1, where I_s is the saturation magnetization and β_1 is the direction cosine of the rod axis with respect to the nearest [100] direction. On the basis of this relation the magnetostriction constants and also the crystal anisotropy constants were determined. Magnetostriction curves constructed theoretically from the obtained values of magnetostriction constants agree with the experimental curves.
- 社団法人日本物理学会の論文
- 1955-11-05
著者
-
Nakamura Yoji
Faculity Of Science Kyoto University
-
Nakamura Yoji
Faculty Of Science University Of Kyoto
関連論文
- Magnetic Structure of C14-Laves Phase DyMn_2
- Neutron Diffraction Study of C14-Laves Phase TbMn_2
- Thermal Expansion of C14-Laves Phase RMn_2 (R=Y, Gd, Dy and Yb)
- Magnetic Properties of C14-Laves Phase RMn_2
- High Field Magnetization of C14-Laves Phase RMn_2 : R=Y, Gd, Tb, Dy and Yb
- Elastic Constants of Ni-Fe and Ni-Cu alloys
- Hall Effect in the Carbides of Transition Metals
- Magnetic Study of Fe_3Si and Fe_5Si_3 by Mossbauer Effect
- Volume Magnetostriction in Nickel-Iron Alloys
- The Magnetostriction Constants of Silicon Steel (II)
- The Magnetostriction Constants of Silicon Steel (I)
- The Production of Single Crystals of Metals and Alloys with any Desired Orientation by Solidification at High Temperature
- Effect of the Substructure upon Magnetic Properties of Iron-Silicon Single Crystals
- Effect of Quenched-in Vacancies on the Weak Magnetization of Nickel
- Origin of Ferrimagnetism in Compounds, Cr_5S_6 and Cr_2S_3
- Mossbauer Study of Invar-Type Iron-Nickel Alloys
- Residual Magnetization and Magnetostriction of Nickel Single Crystals
- Magnetostriction Constants of Plastically Deformed Nickel and Permalloy
- Magnetic After-Effect Due to Quenched-in Vacancies in Nickel