Anisotropy of Amorphous Metal Induced by High Temperature Stress Application
スポンサーリンク
概要
- 論文の詳細を見る
Effect of uniaxial stress application to Fe-Si-B amorphous metal has been investigated below and above glass transition temperature. Uniaxial stress effect was characterized, as a magnetic permeability measurement, by using Magnetic Permeability Resonance (MPR) method. The values of horizontal and vertical permeabilities from stress applied direction were measured. Amorphous metal, which is heat treated at near glass transition temperature, showed significant anisotropy of permeabilities with stress application. This anisotropy is the result from atomic structural change, which is caused by viscosity flow under amorphous state.
- Faculty of Engineering, Mie Universityの論文
- 1992-12-21
Faculty of Engineering, Mie University | 論文
- Approximate Method of Elastic Buckling Strength Analysis for Irregular Frames
- Elastic Buckling Strength of Steel Frames Connected to Core Wall
- Calculations of Energy Shift of the Conduction Band-Edge in Doped and Compensated GaP
- Estimation of the Glass Transition Pressure of Liquids under Very High Pressure by Viscoelastic Analysis
- Information Extraction from Electronic Mail