Scandium

CAS #: 7440-20-2

Molecular Formula: Sc

EC No.: 231-129-2

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Product Details

Scandium metal is a soft, silver white metal with a density of 2.98g/cm3 (square crystal), a melting point of 1541 ℃, and a boiling point of 2830 ℃. The chemical properties are also very active and can react with hot water to generate hydrogen gas. Inert gas needs to be used for protection, otherwise scandium will quickly form a dark yellow or gray oxide layer, losing its shiny metallic luster. Scandium is slightly yellowish or pink when oxidized by air, and is prone to weathering and slowly dissolves in most dilute acids. However, in strong acids, an impermeable passivation layer is easily formed on the surface, so it does not react with a 1:1 mixture of nitric acid (HNO3) and hydrofluoric acid (HF).

Applications:

1. As a target material for LCD sputtering.

2. It can also be used as an activator for certain fluorescent materials.

3. It can also be used as a special alloy additive [yttrium scandium alloy, magnesium scandium alloy, scandium aluminum alloy, etc.].

Product Series

Product

Product Code

Security Data

Technical Data

Scandium Metal 99.9%

ET-ScM-01

Scandium.pdf

Scandium 99.9%.pdf

Scandium Metal 99.99%

ET-ScM-02

Scandium 99.99%.pdf

Properties (Theoretical)

Molecular Weight	44.96
Appearance	Silvery
Melting Point	1541℃
Boiling Point	2830℃
Density	2985 kg/m3
Resistivity	61.0 microhm-cm @ 22 °C
Electronegativity	1.3 Paulings
Fusion Heat	3.80 Cal/gm mole
Heat of Vaporization	81 K-Cal/gm atom at 2831 °C
Poisonby	0.279
Specific Heat	0.133 Cal/g/K @ 25 °C
Tensile Strength	N/A
Thermal Conductivity	0.158 W/cm/K @ 298.2 K
Thermal Expansion	rt) (?, poly) 10.2 µm/(m·K)
Vickers Hardness	N/A
Young's Modulus	74.4 GPa

Health & Safety Information

Signal Word	N/A
Risk Statement	N/A
Dangerous Code	N/A
Preventive Instructions	P210-P280-P240-P241-P370+P378a
Flash Point	Not applicable
Risk Code	N/A
Safety Statement	N/A
RTECS Number	N/A
Transportation Information	NONH
WGK Germany	NONH

Packaging Specifications:

Standard packaging: 50 kg/drum, 500 kg/pallet, ton bags

Sample packaging: 500 g/bag, 1 kg/bottle

Scandium

After separating scandium from other rare earth elements through ion exchange or solvent extraction technology, metal scandium can be prepared by metal thermal reduction method. The lithium thermal reduction of rare earth chlorides is different from the Calciothermic reaction of rare earth chlorides. The reduction process of the former is carried out in the gas phase. The lithium thermal reduction reactor is divided into two heating zones, and the reduction and distillation processes are carried out in the same equipment. Anhydrous Scandium chloride is placed in the upper titanium reactor crucible (also known as ScCl3 Still room), the reducing agent lithium is placed in the lower crucible, and then the stainless steel reaction tank is vacuumized to 7Pa before heating. When the temperature reaches 1000 ℃, maintain for a certain period of time to allow ScCl3 vapor to fully react with lithium vapor, and the reduced metal scandium solid particles fall into the lower crucible. After the reduction reaction is completed, only heat the lower crucible and distill LiCl into the upper crucible. The reduction reaction process usually takes about 10 hours. In order to obtain pure scandium metal, the reducing agent lithium metal needs to use 99.97% high-purity lithium and anhydrous ScCl3 from secondary distillation.

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