Physics
Scientific paper
Mar 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996lpi....27..477h&link_type=abstract
Lunar and Planetary Science, volume 27, page 477
Physics
Cooling Rates, Meteorites: Iif, Meteorites: Iron
Scientific paper
With only five members, group IIF is one of the smallest groups of iron meteorites. Their high Ni concentrations give them an ataxitic texture which inhibits determination of their metallographic cooling rates using traditional techniques. Cooling rates based on alpha-bandwidths show a wide range suggesting that these irons did not cool in a common core. We find that the previously determined alpha-bandwidth cooling rates are in error due to the presence of massive schreibersite blebs in the alpha-spindles on which the cooling rates are based. We have therefore redetermined the metallographic cooling rates of the five group IIF iron meteorites based on alpha-bandwidths of alpha-lamellae devoid of schreibersite. We have determined metallographic cooling rates based on three sets of observations: (1) Ni profiles in the taenite rims surrounding alpha-lamellae, (2) Ni profiles in the outer edge of alpha-lamellae, and (3) bandwidths of alpha-lamellae. We find cooling rates of approximately 10 K/My for all five members of group IIF. Low overall Ni concentrations observed in the alpha-lamellae may, however, indicate a lower cooling rate at low temperatures. The metallographic cooling rates suggest that the IIF iron meteorites cooled slowly in a central core.
Haack Henning
Rasmussen Lars K.
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