Thermal Analysis of Iron Sulfides at the Temperature Range of β-transformation
スポンサーリンク
概要
- 論文の詳細を見る
The measurements of specific heat was performed at the temperature range of β-transformation in iron sulfides with various sulfur contents x ranging from x=1 to x=1.12. A peak in specific heat versus temperature curve is found at 315℃, and this temperature as well as the jump in specific heat, 0.05 cal gr. ^<-1> deg. ^<-1> in value, is almost independent of sulfur contents. The mechanism of transformation is discussed, based upon the theory of ferrimagnetism, and it is concluded that the present experimental results accord well with the theoretical ones.
- 社団法人日本物理学会の論文
- 1954-08-25
著者
-
Tsuya Noboru
The Research Institute For Iron Steel And Other Metals
-
Hirone Tokutaro
The Research Institute For Iron Steel And Other Metals
-
MAEDA Seijiro
The Research Institute for Iron, Steel and Other Metals
-
Chiba Shu
The Research Institute For Iran Steel And Other Metals Tohoku University
-
Maeda Seijiro
The Research Institute For Iron Steel And Other Metals Tohoku University
-
Maeda Seijiro
The Research Ins'itute For Iron Sicel And Other Metals Tohoku University
関連論文
- On the Magnetostriction of Au_2Mn at High Magnetic Fields
- On the Magnetocrystalline Anisotropy of Iron Selenide Fe_7Se_8
- On the Magnetocrystalline Anisotropy of Iron Selenide Fe_7Se_8
- Magnetocrystalline Anisotropy of Pyrrhotite
- Megnetocrystalline Anisotropy of Pyrrhotite
- On the Subaqueous Condensation of the Magnetic Field with Explosives
- On the Collective Electron Model of Ferromagnetism
- Diffusion of Iron Group Elements in Silver
- Diffusion of Nickel in Silver
- Diffusion of Cobalt into Iron-Cobalt Alloy
- Diffusion of Cadmium into Single Crystals of Copper
- Attenuation of the Ultrasonic Waves in Metals. I : Aluminium
- Ultrasonic Attenuation in Al and Al-Cu Alloys at Low Temperature
- Attenuation of the Ultrasonic Waves in Metals. II : Stainless Steel
- On the Changes of Electrical Properties in Cold-Worked Metal
- On the Magnetic Anisotropy of a Pyrrhotite Crystal
- On the Magnetic Anisotropy of a Pyrrhotite Crystal
- Formation of Superlattice in Face-Centered Cudic Lattice with a Special Reference to the Copper-Platinum System
- The Change of Curie Temperature of Ordered Au_4Mn and of Indium Heusler Alloy by Hydrostatic Pressure
- The Change of Curie Temperature of Ordered Au_4Mn and the Indium Heusler Alloy by Hydrostatic Pressure
- Magnetic Properties of Iron Phosphide Fe_2P
- Thermal Analysis of Iron Sulfides at the Temperature Range of β-transformation
- On the Magnetostriction of Au_2Mn at High Magnetic Fields
- On the Magnetic Properties of the System MnSb-CrSb
- On the Λ-shaped Ferrimagnetism of FeS_
- Thermal Analysis of Iron Sulfides at the Temperature Range of α-transformation
- On the Ferrimagnetism of Iron Selenides
- An Automatically Recording Magnetic Balance
- A Method of Automatic Measurement of Specific Heat
- Internal Stress due to Cooling of the Cylindrical Steel Ingots. II
- On the Magnetic Properties of Chromium Sulfides
- Dependence of the Intermetallic Diffusion Coefficient upon Concentration
- On the Sintering Velocity of Powdered Metals. I : A Mixture of Nickel Powder and Copper Powder
- A Machanism of Spin-Lattice Relaxation in Ferromagnetic Substances
- Diffusion of Cobalt into Silver
- On the Magnetic Properties of Nickel-Arsenide Type Crystals
- On the Properties of Chromium Sulphides and Iron Sulphides. I
- On the Theory of Antiferromagnetism. I : Itinerant Electron Model
- Internal Stress due to Quenching in Cylindrical Steel Ingots
- The Electrical Conductivity of Magnetite
- On the Magnetic After Effect due to the Irreversible Displacement of Domain Boundary (II) : The dependency on temperature and tension.
- On the Magnetic After-Effect due to the Irreversible Displacement of the Domain Boundary (III).
- On the Magnetic After-Effect Due to the Irreversible Displacement of the Domain Boundary. V
- On the Discontinuous Displacement of Magnetic Domain Boundary of the Ferromagnetic Substance Due to Tension
- On the Magnetic Anisotropy of Single Crystal of Chromium Telluride