We determined the structural state of six plagioclase crystals from the Kobe meteorite by measuring the separation between the 13 1 and 131 X ray diffraction peaks (Δ131 parameter) using a Gandolfi camera. The formation temperature of each plagioclase crystal was then estimated by plotting the Δ131 parameter on the relation diagram between the Δ131 parameters and temperatures of plagioclase synthesis, as proposed by Smith (1972). Three of the crystals record temperatures of just under 700 °C, while the other three crystals record much lower temperatures. The temperature estimates can be regarded as representing the crystallization temperature of plagioclase, and the highest recorded temperature is thought to correspond to the peak temperature of the thermal metamorphism, close to but not exceeding 700 °C. A thermal model of the CK chondrites is proposed on the assumption that thermal metamorphism, with 26 Al decay as a heat source, began prior to accretion of the CK parent body. The model explains the homogeneous compositions of olivine and pyroxene in CK chondrites, which are inconsistent with the petrographic type suggested by their grain sizes, and explains the occurrence of silicate darkening in almost all CK chondrites.
The authors wish to thank Prof. Hitoshi Kuwamura for the discussion. The answer to his questions is as follows: 1) We verified stress distribution was rationally modeled. 2) We corrected a mistake in this article owing to Kuwamura's discussion. 3) The elastic modulus for calculations were calculated using average density of each conditions of specimen. 4) We verified that bearing strength was logical.
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