- tribological, structural, anti-corrosion and anti-gl****-sticking
properties of
CrNbSiTa
Zr high
entropy alloy coatings". Thin
Solid Films. 717: 138448. Bibcode:2021TSF...
- Ru, Rh, Co, Ni, Ce), M3Si2 (Hf, Th, U), MSi (
Ti,
Zr, Hf, Fe, Ce, Th, Pu) and MSi2 (
Ti, V,
Nb, Ta,
Cr, Mo, W, Re). The Kopp–Neumann law applies; heat...
- In a
broader sense, it is also used for
similar compounds where Na,
Zr and/or
Si are
replaced by
isovalent elements.
NASICON compounds have high ionic...
- W,
Ferry M,
Sorrell CC (2012). "Abnormal
grain growth of
rutile TiO2
induced by
ZrSiO4".
Journal of
Crystal Growth. 359: 83–91. arXiv:1303.2761. Bibcode:2012JCrGr...
-
structure is
adopted by not only
TiO2, but also by GeO2, RuO2, SnO2, MnO2, VO2, IrO2, and
CrO2.
Somewhat curiously,
ZrO2 and HfO2
adopt another classical...
-
austenite iron (FCC).
Alloying elements include: Al, B, C, Co,
Cr, Mo, Ni,
Nb,
Si,
Ti, W, and Y. Al (oxidation benefits) must be kept at low
weight fractions...
-
silicate – Mg
SiO3
Magnesium sulfate – MgSO4
Magnesium sulfide – MgS
Magnesium titanate – Mg
TiO3
Magnesium tungstate – MgWO4
Magnesium zirconate – Mg
ZrO3 Manganese(II)...
-
electroconductive additive. The
metals may be Co, Ga, Ge, Hf, Fe, Ni,
Nb, Mo, La, Re, Sc,
Si,
Ti, Ta, W, Y,
Zr, etc. The
conductive additive may be
lithium chloride,...
-
boron and a less
electronegative element, for
example silicon boride (
SiB3 and
SiB6). The
borides are a very
large group of
compounds that are generally...
- Titanium(IV)
hydride TiH4, a
structural analog of the
group 14
tetrahydrides Zirconium hydride ZrH4,
ZrH2 and
others Zirconium(II)
hydride ZrH2 Uranium(IV) hydride...
