The Practical Application of Electron Beam Devices in
Mineralogy and Introducing Nesquehonite (MgC03 + 3820) as
a Rare Mineral in Eastern Part of Iran.
Abstract
Electron microscopes (SEM, TEM) and electron
microprobe (EPMA) are useful research equipments that
can be used to examine the mineral raw materials and also
their industrial products and defi nite ly through the
produc ti on process of tr a nsform ing the minerals to
industrial products. These are useful equipmen ts, that can
provide all the information about weakly crystaline minerals
that could not be obtained by-X-rays methods (XRD,XRF),
Determination Thermal Analysis (DTA) o r o ptical
microscopy. Particle size distribution - shape and crystalline
size of mine rals - tex ture and recog nizing non crystalline
phases and quantit ative analysis of minerals and tbeir
products are just a few things of these equipments vast
abilites.
(2025). The Practical Application of Electron Beam Devices in
Mineralogy and Introducing Nesquehonite (MgC03 + 3820) as
a Rare Mineral in Eastern Part of Iran.. Iranian Journal of Crystallography and Mineralogy, 3(2), 95-100.
MLA
. "The Practical Application of Electron Beam Devices in
Mineralogy and Introducing Nesquehonite (MgC03 + 3820) as
a Rare Mineral in Eastern Part of Iran.", Iranian Journal of Crystallography and Mineralogy, 3, 2, 2025, 95-100.
HARVARD
(2025). 'The Practical Application of Electron Beam Devices in
Mineralogy and Introducing Nesquehonite (MgC03 + 3820) as
a Rare Mineral in Eastern Part of Iran.', Iranian Journal of Crystallography and Mineralogy, 3(2), pp. 95-100.
VANCOUVER
The Practical Application of Electron Beam Devices in
Mineralogy and Introducing Nesquehonite (MgC03 + 3820) as
a Rare Mineral in Eastern Part of Iran.. Iranian Journal of Crystallography and Mineralogy, 2025; 3(2): 95-100.
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