Analysis of ablation debris from natural and artificial iron meteorites
Abstract
Artificial ablation studies were performed on iron and nickel-iron samples using an arc-heated plasma of ionized air. Experiment conditions simulated a meteoroid traveling about 12 km/sec at an altitude of 70 km. The artificially produced fusion crusts and ablation debris show features very similar to natural fusion crusts of the iron meteorites Boguslavka, Norfork, and N'Kandhla and to magnetic spherules recovered from Mn nodules. X-ray diffraction, electron microprobe, optical, and scanning electron microscope analyses reveal that important mineralogical, elemental, and textural changes occur during ablation. Some metal is melted and ablated. The outer margin of the melted rind is oxidized and recrystallizes as a discontinuous crust of magnetite and wustite. Adjacent to the oxidized metallic ablation zone is an unoxidized metallic ablation zone in which structures such as Widmannstatten bands are obliterated as the metal is transformed to unequilibrated alpha 2 nickel-iron. Volatile elements are vaporized and less volatile elements undergo fractionation.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- May 1977
- Bibcode:
- 1977STIN...7725033B
- Keywords:
-
- Ablation;
- Cosmic Dust;
- Electron Microscopes;
- Iron Meteorites;
- Meteoritic Composition;
- Widmanstatten Structure;
- Metallography;
- Thermodynamic Properties;
- X Ray Diffraction;
- Space Sciences (General)