What is the CERAMICS-AEium?

CERAMICS-AEium is gray colored, ductile solid, while it's Molecular Formula is Ce. gray colored, ductile solid Used in Industrial Manufacturing: CERAMICS-AEium is used as a ceramic coating in industrial applications to enhance the performance and longevity of various components. Its high strength and wear resistance make it ideal for manufacturing cutting tools, engine components, and wear-resistant parts that require enduring performance under demanding conditions. Used in High-Temperature Applications: CERAMICS-AEium is utilized as a material in applications that involve exposure to high temperatures, where its heat resistance and stability ensure the continued functionality and integrity of the components. This makes it suitable for environments where traditional metals or plastics may fail or degrade. Used in Electronics and Semiconductors: CERAMICS-AEium is employed in the electronics and semiconductor industries as an insulating material due to its excellent electrical insulation properties. This characteristic is crucial for the reliable performance of electronic devices and components, particularly in applications where insulation is critical to prevent electrical interference or short-circuiting.

What is the CAS number for CERAMICS-AEium?

The CAS number of CERAMICS-AEium is 7440-45-1.

What is CERAMICS-AEium (7440-45-1) used for?

CERAMICS-AEium is an aluminum oxide-based chemical compound specifically engineered for the production of high-performance ceramics. Renowned for its exceptional strength, durability, and resistance to wear and corrosion, this advanced material is characterized by its suitability for applications demanding resilience in harsh environments and under high-temperature conditions. Furthermore, CERAMICS-AEium boasts excellent electrical insulation properties, positioning it as a preferred material in electronic and semiconductor industries.InChI:InChI=1/Ce

What is the CERAMICS-AEium?

CERAMICS-AEium is gray colored, ductile solid, while it's Molecular Formula is Ce. gray colored, ductile solid Used in Industrial Manufacturing: CERAMICS-AEium is used as a ceramic coating in industrial applications to enhance the performance and longevity of various components. Its high strength and wear resistance make it ideal for manufacturing cutting tools, engine components, and wear-resistant parts that require enduring performance under demanding conditions. Used in High-Temperature Applications: CERAMICS-AEium is utilized as a material in applications that involve exposure to high temperatures, where its heat resistance and stability ensure the continued functionality and integrity of the components. This makes it suitable for environments where traditional metals or plastics may fail or degrade. Used in Electronics and Semiconductors: CERAMICS-AEium is employed in the electronics and semiconductor industries as an insulating material due to its excellent electrical insulation properties. This characteristic is crucial for the reliable performance of electronic devices and components, particularly in applications where insulation is critical to prevent electrical interference or short-circuiting.

What is the CAS number for CERAMICS-AEium?

The CAS number of CERAMICS-AEium is 7440-45-1.

What is CERAMICS-AEium (7440-45-1) used for?

CERAMICS-AEium is an aluminum oxide-based chemical compound specifically engineered for the production of high-performance ceramics. Renowned for its exceptional strength, durability, and resistance to wear and corrosion, this advanced material is characterized by its suitability for applications demanding resilience in harsh environments and under high-temperature conditions. Furthermore, CERAMICS-AEium boasts excellent electrical insulation properties, positioning it as a preferred material in electronic and semiconductor industries.InChI:InChI=1/Ce

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CERAMICS-AEium

Name CERAMICS-AEium
CAS 7440-45-1
Purity 99%

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Product Details

Reputable factory supply CERAMICS-AEium 7440-45-1 in stock with high standard

Molecular Formula: Ce
Molecular Weight: 140.12
Appearance/Colour: gray colored, ductile solid
Melting Point: 795 °C(lit.)
Boiling Point: 3443 °C(lit.)
PSA： 0.00000
Density: 6.67 g/mL at 25 °C(lit.)
LogP: 0.00000

CERAMICS-AEium(Cas 7440-45-1) Usage

General Description

CERAMICS-AEium is a chemical compound used in the production of ceramics. It is an aluminum oxide-based material that is known for its high strength, durability, and resistance to wear and corrosion. CERAMICS-AEium is commonly used as a ceramic coating for industrial applications, such as in the manufacturing of cutting tools, engine components, and wear-resistant parts. Its unique properties make it an ideal choice for harsh environments and high-temperature applications, where traditional metals or plastics may not be suitable. Additionally, CERAMICS-AEium has excellent electrical insulation properties, making it ideal for use in electronic and semiconductor applications.

InChI:InChI=1/Ce

7440-45-1 Relevant articles

Study of the effect of cerium nitrate on AA2024-T3 by means of electrochemical micro-cell technique

Paussa,Andreatta,Rosero Navarro,Durán,Fedrizzi

, p. 25 - 33 (2012)

This work evaluates the effect of cerium...

Cerium deposition on aluminum alloy 2024-T3 in acidic NaCl solutions

Kolics,Besing,Baradlai,Wieckowski

, p. B512-B516 (2003)

We analyzed the interaction of cerium io...

Mechanism of coke formation caused by catalytic nanochromium carbide particles from decomposition of CeCrO3

Li, Hao,Cui, Xinwei,Chen, Weixing

, p. 2578 - 2584 (2011)

Ce or CeO2 is often added to Fe-Cr-Ni ba...

8Beta-substituted-11-beta-pentyl-and 11-beta-hexyl-estra-1,3,5(10)-triene derivatives

-

, (2008/06/13)

This invention describes the new 8β-subs...

Preparation of lanthanum and cerium metals by hydrometallurgy

Hasegawa,Sano,Aoshima,Shiokawa

, p. 246 - 249 (2008/10/08)

Lanthanum and cerium metals were prepare...

7440-45-1 Process route

: 7758-88-5
cerium(III) fluoride

: 7429-90-5
aluminium

: 7440-45-1
cerium

: 7784-18-1
aluminum(III) fluoride

Conditions

Conditions	Yield
In melt; heating Al in a melt of CeF3 to 1000°C, react. stops when Al contents 1.5% Ce;;

: 7758-88-5
cerium(III) fluoride

: 7440-45-1
cerium

Conditions

Conditions	Yield
With calcium; In neat (no solvent); start of react. at 400°C, in presence of I2;; contaminations in wt.-%: 1-5 Ca, 0.1-1Mg, removal by distn. in vac.;;	93%
With Ca; In neat (no solvent); start of react. at 400°C, in presence of I2;; contaminations in wt.-%: 1-5 Ca, 0.1-1Mg, removal by distn. in vac.;;	93%
With lithium; In neat (no solvent); byproducts: LiF; in presence of I2; 78.17g CeF3, 9.6g Li, 20g subl. I2, under Ar, react. in a furnace of 1280°C, heating to 1100-1150°C after end of react. (40min); investigation of different vessel-materials;;	50-95
With C or Si; In neat (no solvent); byproducts: Ce-silicides or Ce-carbides;	0%
With calcium; In neat (no solvent); booster: I2;;
With calcium; In neat (no solvent); in presence of I2, I2:CeF3=1:2 to 1:1;;	90-95
With lithium; In neat (no solvent); in presence of I2, start of react. at 1300°C;; purity 99.92-99.93% using a mixture of 110g CeF3, 20g I2 and 14.1g Li;;
With lithium; In neat (no solvent); reduction in a closed tube at 600°C;; purity 99.93%;;
With lithium; In neat (no solvent); start of react. at 600°C;; purity 99.3 %, contaminations in wt.-%: 0.06 Mo, 0.01-0.03Fe;;
With Mg or Ca; In neat (no solvent); reduction of water-free CeF3, formation of Mg- or Ca-alloys;;
In gas; electric discharge in presence of H2;; intermediate formation of CeF indicated by MS-measurements;;
With K or Na or Ca or Mg or Al; In neat (no solvent); calculation of react.-enthalpy at 25°C;;
With Li or Na or Ca or Ba; In neat (no solvent); reduction at higher temp.;;
In gas; electric discharge in presence of He or N2; only small amounts of Ce are obtained;
With Ca; In neat (no solvent); in presence of I2, I2:CeF3=1:2 to 1:1;;	90-95
With C or Si; In neat (no solvent); byproducts: Ce-silicides or Ce-carbides;	0%
With Ca; In neat (no solvent); booster: I2;;
With Li; In neat (no solvent); byproducts: LiF; in presence of I2; 78.17g CeF3, 9.6g Li, 20g subl. I2, under Ar, react. in a furnace of 1280°C, heating to 1100-1150°C after end of react. (40min); investigation of different vessel-materials;;	50-95
With Li; In neat (no solvent); in presence of I2, start of react. at 1300°C;; purity 99.92-99.93% using a mixture of 110g CeF3, 20g I2 and 14.1g Li;;
With Li; In neat (no solvent); start of react. at 600°C;; purity 99.3 %, contaminations in wt.-%: 0.06 Mo, 0.01-0.03Fe;;
With Mg or Ca; In neat (no solvent); reduction of water-free CeF3, formation of Mg- or Ca-alloys;;

7440-45-1 Upstream products

7439-95-4
magnesium
7440-02-0
nickel
7758-88-5
cerium(III) fluoride
7429-90-5
aluminium

7440-45-1 Downstream products

154343-46-1
3-phenyl-2,5,8(1H)-quinolinetrione
115-86-6
phosphoric acid triphenyl ester
136-53-8
zinc 2-ethylhexanoate
14390-89-7
beryllium

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