Dislocation Behavior in Sodium Chloride Crystals Containing CaCl_2

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概要

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• The critical shear stress for driving dislocations against dipoles (calcium ion-cation vacancy pair) is determined by the three-point bending test in sodium chloride crystals containing CaCl_2 (from 330 to 900ppm). The relationship between the stress (τ) and the concentration (X_d) of dipoles is found to be τ∝X^<2/3>_d. The concentrations of dipoles at R. T. are estimated from the ionic conductivity measurements in the region III with an assumption. The concentrations of effective calcium impurities (C') for dipole are evaluated 30 percent of the total amount of calcium impurities as doped. The degree of association of calcium ions with cation vacancies, e.g., X_d/C', is estimated as 0.8-1.0 from 530 to 300 K. The contribution of dipoles to the stress increment can be separated from that of another types of aggregates of calcium ions by taking account of the stress magnitude and the concentration.

• 社団法人日本物理学会の論文
• 1976-09-15

著者

• HAGIHARA Takeshi

  Department of Physics, Osaka Kyoiku University

• Hagihara Takeshi

  Department Of Physics

• Hagihara Takeshi

  Department Of Physics Osaka Kyoiku University

関連論文

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• Study of the Precipitation in Sodium Chloride Crystals Containing CaCl_2
• Theory of Deformation Luminescence in Colored Alkali Halide Crystals
• Dislocation Behavior in Sodium Chloride Crystals Containing CaCl_2
• Properties of Black Spot Defects in KI Crystals (II) : On Displacement Vectors and Habit Planes
• Properities of Black Spot Defects in KI Crystals

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