High quality 99.9% – 99.9999% Sc Lump Scandium Metal CAS 7440-20-2

Short Description:

Chemical Name: Scandium

Synonyms: Scandium Metal, Scandium Lump

Purity: ≥99.9%, 99.9999%

CAS No. 7440-20-2

Color: silver white

Atom: 44.956

Atomic number: 21

Melting point: 1541 °C

Boiling point: 2836 °C

Density: 2.985 g/cm3

Production standard: GB/T 16476-2018

Shape: chunks, ingot, powder, sheet, wire, rod, foil or according to customer requirements.

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Product Description

Scandium, a rare transition metal with an atomic number of 21, is more than just an ordinary element in the periodic table; it holds enormous potential and is redefining performance standards in aerospace, automotive, sports equipment and more.

Pure scandium metal is easy to combine with oxygen, carbon dioxide and water when directly exposed to air, so it should be sealed with argon gas. Scandium oxide, which is white and insoluble in water, is more common to be seen in the market. Scandium has many superior physical properties, such as higher melting point (1541 ℃) than iron, nickel, rare earth lanthanum, cerium, praseodymium and neodymium, etc., second only to the high boiling points of rhenium (5627 ℃), molybdenum (5560 ℃) and cobalt (2870 ℃). At the same time, scandium, as the lightest member of the rare earth family, has the characteristics of low density, good ductility, excellent catalytic performance and so on.

Scandium metal is produced by calcium thermal reduction. The reaction equation is as follows: 2ScF3 + 3Ca → 2Sc + 3CaF2

Application

Aerospace: The aerospace sector is one of the main beneficiaries of scandium metal. Aircraft manufacturers are incorporating scandium aluminum alloys into their designs to reduce weight without compromising strength. This makes aircraft more fuel-efficient, with longer range and greater payload. The use of scandium can also enhance the fatigue resistance of components, ensuring flight safety and reliability.

Automotive: The automotive industry is also gradually realizing the potential of scandium. As manufacturers strive to meet stringent fuel efficiency standards and reduce emissions, the demand for lightweight materials is growing. Scandium can be used to produce high-performance automotive parts such as wheels, frames and engine components, thereby improving competitive advantages in performance and efficiency.

Sports equipment: Scandium’s light weight and high strength make it an ideal choice for high-performance sports equipment. From bicycle frames to golf clubs, adding scandium can improve performance and reduce weight, helping athletes perform at their best. The durability of scandium-aluminum alloys also means that equipment can withstand intensive use, providing long service life and reliability.

Defense: In the defense sector, performance and reliability are critical, and scandium metal is used in a variety of areas, including military aircraft and armored vehicles. The lightweight properties of scandium aluminum alloys allow for greater mobility and efficiency on the battlefield, while its strength also ensures protection and durability.

3D printing: The rise of additive manufacturing technology has opened up new avenues for the application of scandium. Scandium-aluminum alloys are being explored for 3D printing applications, where their unique properties can be used to create complex geometries that are both lightweight and high-strength. This innovation paves the way for new designs and applications that were previously unattainable.

Specification

Product		Scandium Lump
CAS#		7440-20-2
Batch No		FU20250420		Quantity:	100KG
Date of manufacturing		2025-04-20
Eenvironment Conditions: Temperature:22℃. Humidity: 50%
Element	Content(ppm)	Element	Content(ppm)	Element		Content(ppm)
Sc/RE	>99.999（%）	Be	0.00 (µg/g)	Fe		43.70 (µg/g)
La	0.11 (µg/g)	Br	0.00 (µg/g)	Al		33.31 (µg/g)
Ce	0.28 (µg/g)	I	0.00 (µg/g)	Mg		0.97 (µg/g)
Pr	0.60 (µg/g)	Ir	0.00 (µg/g)	Ca		10.01 (µg/g)
Nd	0.19 (µg/g)	Mo	0.74 (µg/g)	Si		11.30 (µg/g)
Sm	0.61 (µg/g)	Pd	0.00 (µg/g)	Cu		10.57 (µg/g)
Eu	0.82 (µg/g)	Rb	0.00 (µg/g)	Mn		15.68 (µg/g)
Gd	0.39 (µg/g)	Rh	0.00 (µg/g)	Ta		4.36 (µg/g)
Tb	0.37 (µg/g)	S	1.18 (µg/g)	Ni		10.52 (µg/g)
Dy	0.21 (µg/g)	Sn	0.00 (µg/g)	Cd		0.82 (µg/g)
Ho	0.67 (µg/g)	Te	0.00 (µg/g)	Cr		49.93 (µg/g)
Er	0.91 (µg/g)	V	0.00 (µg/g)	K		4.27 (µg/g)
Tm	0.82 (µg/g)	Zr	0.86 (µg/g)	Na		5.51 (µg/g)
Yb	0.78 (µg/g)	Bi	0.00 (µg/g)	P		0.45 (µg/g)
Lu	0.13 (µg/g)	Hg	0.00 (µg/g)	Pb		0.22 (µg/g)
Y	1.25 (µg/g)	In	0.00 (µg/g)	Se		0.00 (µg/g)
Th	0.32 (µg/g)	Li	0.00 (µg/g)	Ti		0.41 (µg/g)
Zn	1.35 (µg/g)	Os	0.00 (µg/g)	U		0.45 (µg/g)
Ag	0.00 (µg/g)	Pt	0.00 (µg/g)	Au		0.00 (µg/g)
B	0.54 (µg/g)	Re	0.00 (µg/g)	Ba		1.28 (µg/g)
Ru	0.00 (µg/g)	As	0.00 (µg/g)	Tl		0.00 (µg/g)
Sb	0.00 (µg/g)	Sr	0.86 (µg/g)	W		7.55 (µg/g)
Co	0.93 (µg/g)	Cs	0.00 (µg/g)	Ga		1.92 (µg/g)
Cl	5.48 (µg/g)	Ge	0.00 (µg/g)	Hf		0.00 (µg/g)
F	9.60 (µg/g)	C	141.51 (µg/g)	O		266.13 (µg/g)
N	41.10 (µg/g)	/	/	/		/

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