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Microstructures and fiber-formation mechanisms of crocidolite asbestos
Jung Ho Ahn, P R Buseck
Molecular Sciences, School of (SMS)
Earth and Space Exploration, School of (SESE)
Research output
:
Contribution to journal
›
Article
›
peer-review
19
Scopus citations
Overview
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Earth & Environmental Sciences
asbestos
61%
formation mechanism
54%
defect
45%
microstructure
39%
fiber
39%
crystal
30%
dislocation
17%
riebeckite
13%
phyllosilicate
10%
basin evolution
9%
mica
8%
tensile strength
8%
chlorite
8%
transmission electron microscopy
8%
seed
7%
crystallization
6%
crack
6%
tectonics
5%
iron
5%
Physics & Astronomy
asbestos
77%
microstructure
30%
fibers
29%
defects
29%
crystals
21%
tectonics
13%
mica
10%
edge dislocations
9%
bundles
8%
silicates
8%
tensile strength
8%
seeds
8%
slip
7%
cracks
6%
crystallization
6%
iron
6%
transmission electron microscopy
5%
high resolution
5%
propagation
5%
Chemical Compounds
Crocidolite Asbestos
100%
Microstructure
35%
Fiber
33%
Fibrous Crystal
20%
Riebeckite
20%
Edge Dislocation
17%
Serpentine
14%
Chlorite
14%
Tensile Strength
8%
Crystallization
7%