On the Possible Effect of the Vacancy Concentration on the Correlation Factor for Tracer Diffusion via Vacancy Mechanism
スポンサーリンク
概要
- 論文の詳細を見る
The effect of the vacancy concentration on the correlation factor has beeninvestigated quantitatively. For a given vacancy concentration C., the number ofcorrelated jumps of a vacancy, n., can be defined, and this nttmber is used for thecalculation of the correlation factor. The deviation of the correlation factorfrom the value corresponding to an infinitely dilute vat;ancy concentrationis less than 1'3 for C,=10 ' and less than O.2% for C,=l0 '. For usual ex-perimental conditions, the correlation factor ma.y be regau'ded as temperatureindependent.
- 社団法人日本物理学会の論文
- 1978-10-15
著者
-
Koiwa Masahiro
The Research Institute For Iron Steel And Other Metals
-
KOIWA Masahiro
The Research Institute for Iron,Steel and Other Metals,Tohoku University
関連論文
- Internal Friction Peaks of Cold Worked Dilute Copper Alloys
- Interstitial Order-Disorder Transformation in the Ti-O Solid Solution : III. A Statistical Theory
- An In-situ Electron Microscope Observation of Hydride Precipitation and Dissolution in Titanium
- A Lattice Location Study of Oxygen in Vanadium by 1-MeV Deuteron Channeling
- Atomic Short Range Order in Cu_3Mn Studied by TOF Neutron Diffraction
- Ageing Characteristics of Cu-Be-Al Alloys
- Interstitial Superlattice of Ti_6O and Its Transformation
- Abnormal Plastic After-Effect in Twisted Copper
- Neutron Irradiation Hardening of Boron-Doped Copper
- On the Twist Effect of V-H Alloys Associated with the Precipitation of Hydrides
- Interstitial Order-Disorder Transformation in the Ti-O Solid Solution : II. A Calorimetric Study
- Role of Dislocation Rearrangement in the Elastic Modulus Recovery of Deformed Copper
- Interstitial Order-Disorder Transformation in the Ti-O Solid Solution. : III. A Statistical Theory
- On the Possible Effect of the Vacancy Concentration on the Correlation Factor for Tracer Diffusion via Vacancy Mechanism
- Interstitial Order-Disorder Transformation in the Ti-O Solid Solution. : II. A Calorimetric Study