Tetrataenite

 Tetrataenite is a native metal composed of chemically-ordered L1₀-type FeNi, recognized as a mineral in 1980.^[4][5] The mineral is named after its tetragonal crystal structure and its relation to the iron-nickel alloy, taenite.^[6] It is one of the mineral phases found in meteoric iron.^[7][2][8]

Tetrataenite
Silvery-bright tetrataenite crystals
General
Category	Native element minerals
Formula (repeating unit)	FeNi
Strunz classification	1.AE.10
Crystal system	Tetragonal
Crystal class	Domatic (m) (same H-M symbol)
Space group	Pm
Unit cell	22.92 ų
Identification
Formula mass	57.27 gm
Color	gray white, silver white
Crystal habit	Granular - Common texture observed in granite and other igneous rock
Cleavage	none
Fracture	malleable
Mohs scale hardness	3.5
Luster	metallic
Streak	gray
Diaphaneity	opaque
Density	8.275
Common impurities	Co,Cu,P
References	[1][2][3] [1] [2]

FormationEdit

Tetrataenite forms naturally in iron meteorites that contain taenite that are slow-cooled at a rate of a few degrees per million years, which allows for ordering of the Fe and Ni atoms.^[9][10] It is found most abundantly in slow-cooled chondrite meteorites,^[11] as well as in mesosiderites.^[9] At high (as much as 52%) Ni content and temperatures below 320 °C (the order-disorder transition temperature), tetrataenite is broken down from taenite and distorts its face centered cubic crystal structure to form the tetragonal L1₀ structure.^[12][10]

The L1₀ phase can be synthetically produced by neutron- or electron-irradiation of FeNi below 593 K or by hydrogen-reduction of nanometric NiFe₂O₄, but only on a small scale.^[10]

In 2015, it was reported that tetrataenite was found in a terrestrial rock - a magnetite body from the Indo-Myanmar ranges of northeast India.^[10]

Crystal StructureEdit

Tetrataenite has a highly ordered crystal structure,^[12] appearing creamy in color and displaying optical anisotropy.^[13] Its appearance is distinguishable from taenite, which is dark gray with low reflectivity.^[10] FeNi easily forms into a cubic crystal structure, but does not have magnetic anisotropy in this form. Three variants of the L1₀ tetragonal crystal structure have been found, as chemical ordering can occur along any of the three axes.^[4]

Magnetic PropertiesEdit

Tetrataenite displays permanent magnetization, in particular, high coercivity.^[5] It has a theoretical magnetic energy product, the maximum amount of magnetic energy stored, over 335 kJ m⁻³.^[5]

ApplicationsEdit

Tetrataenite is a candidate for replacing rare-earth permanent magnets such as samarium and neodymium since both iron and nickel are earth-abundant and inexpensive.

This article uses material from the Wikipedia article  Metasyntactic variable, which is released under the  Creative Commons Attribution-ShareAlike 3.0 Unported License.