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Lunar zirkelite - A uranium-bearing phase. (1972)

Keil, K. ; Prinz, M. ; Kurat, G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Zirkelite (simplified CaZrTiO5) containing 7-17 wt % oxides of trivalent elements (largely yttrium and the rare earths) and minor amounts of U, Th, and Pb is described from an Apollo 12 feldspathic peridotite (12036,9) and two KREEP-type norite lithic fragments separated from Apollo 14 loose fines (14163,39 and 14257,3). Quantitative electron microprobe analyses indicate that this lunar phase conforms more closely to the zirkelite formula than the zirconolite formula.

Keywords: SPACE SCIENCES

Type: Earth and Planetary Science Letters; 14; Apr. 197

Format: text

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2

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Effects of vaporization and condensation on Apollo 11 glass spherules - Implications for cooling rates. (1972)

Kurat, G. ; Keil, K.

In: Other Sources

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Publication Date: 2019-06-27

Description: Fourteen of 40 glass spherules present in a section of the Apollo 11 microbreccia 10019,22 were found to exhibit steep concentration gradients at their rims; the oxides of the relatively volatile elements Na, K, and P increase by, respectively, factors of up to 67, 16, and greater than 54 at the spherule rims in comparison to the homogeneous centers. These gradients usually extend over 25-30 microns. Furthermore, the natural surfaces of 11 unpolished glass spherules separated from the fines 10084,97, in 60-80% of all cases, show higher concentrations in Na2O, K2O, and P2O5 than the averages for the central portions of 45 independently analyzed glass spherules. It is suggested that the concentration gradients observed are diffusion gradients and are the result of the impact event which produced the glasses; in the impact melting process, splash drops of melt formed that lost volatiles by vaporization. A procedure is described to determine the cooling rate of a spherule from measured concentration gradients, provided the diffusion coefficients are known for the particular glass compositions in question.

Keywords: SPACE SCIENCES

Type: Earth and Planetary Science Letters; 14; Feb. 197

Format: text

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3

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Lithic fragments, glasses and chondrules from Luna 16 fines. (1972)

Prinz, M. ; Green, J. A. ; Keil, K. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Electron probe determination of the bulk compositions of igneous and microbreccia lithic fragments, glasses and chondrules from Luna 16 fines and of the compositions of minerals in basaltic lithic fragments. It is found that the Luna 16 fines have a composition more similar to that of Apollo 11 than to those of Apollo 12 and 14 materials. The compositions of lithic fragments, glasses and chondrules from Luna 16 core tube layers A and D are similar. The glasses are compositional analogs of the lithic fragments and are produced largely from igneous rocks. The Luna 16 chondrules have an anorthositic-noritic-troctolitic composition. Evidence for the presence of ferric iron and water-bearing minerals in the Luna 16 material is not obtained. The occurrence of a great variety of igneous rocks in the material confirms an earlier conclusion that large-scale melting or partial melting to a considerable depth and an extensive igneous differentiation must have occurred on the moon.

Keywords: SPACE SCIENCES

Type: Earth and Planetary Science Letters; 13; Jan. 197

Format: text

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4

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Chondrules of lunar origin. (1972)

Nehru, C. E. ; Kurat, G. ; Keil, K. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Chondrules and glass spherules from Apollo 14 breccia 14318, studied microscopically, and their bulk and mineral compositions, determined by electron microprobe, are described and discussed with respect to their implications. The similarity in texture of impact-produced lunar and meteoritic chondrules suggests that, if major impact events occurred on parent meteorite bodies, at least some meteoritic chondrules may have formed by impact melting and splattering. Several other conclusions are discussed.

Keywords: SPACE SCIENCES

Type: Lunar Science Conference; Jan 10, 1972 - Jan 13, 1972; Houston, TX

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