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Ice-nucleating properties of clay minerals and stony meteorites

✍ Scribed by B. J. Mason

Publisher
John Wiley and Sons
Year
1960
Tongue
English
Weight
329 KB
Volume
86
Category
Article
ISSN
0035-9009

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✦ Synopsis

Abstract

The ice‐nucleating properties of clay minerals have been investigated in relation to their crystalline and surface structures. The kaolin minerals, the illites and halloysite are the most effective and important, their threshold temperatures for ice nucleation lying between βˆ’9Β°Cand βˆ’12Β°C. Minerals of the montmorillonite group and related forms are active only below βˆ’15Β°C. The relative contributions which the various clay minerals are likely to make to the ice‐nucleus content of the atmosphere are discussed in relation to their natural abundance, wind‐borne dispersion and particle size. Kaolinite is considered to be the most important source of highly efficient nuclei in confirmation of results obtained earlier by Mason and Maybank (1958).

Tests on three new specimens of stony meteorites showed them to be inactive at βˆ’17Β°C.

πŸ“œ SIMILAR VOLUMES

Ice-nucleating properties of some natura
Ice-nucleating properties of some natural mineral dusts
✍ B. J. Mason; J. Maybank πŸ“‚ Article πŸ“… 1958 πŸ› John Wiley and Sons 🌐 English βš– 586 KB

## Abstract A fairly wide range of 28 naturally‐occurring mineral dusts has been tested for ability to act as ice nuclei. 19 substances, mainly silicate minerals of the clay and mica groups, are found to be effective at βˆ’18Β°C; seven of these are active above βˆ’10Β°C. The most abundant of these is kao

Temperature-Dependent Near-Infrared Spec
Temperature-Dependent Near-Infrared Spectral Properties of Minerals, Meteorites, and Lunar Soil
✍ John L. Hinrichs; Paul G. Lucey πŸ“‚ Article πŸ“… 2002 πŸ› Elsevier Science 🌐 English βš– 416 KB

The near-IR spectral properties of minerals, meteorites, and lunar soil vary with temperature. The manner in which these materials vary is diagnostic of aspects of their composition. We quantify the spectral dependence on temperature by reporting the change in relative reflectance with temperature a