Silicon carbide is a popular material in the industry due to its excellent mechanical, elektrisch, en thermische eigenschappen. One variation of SiC is recrystallized silicium carbide (RSiC), which has a unique microstructure that gives it even better properties compared to other SiC variants.

Properties of RSiC

Microstructure

RSiC has a unique microstructure consisting of interlocking, plate-like grains that are perpendicular to the surface of the material. This microstructure gives RSiC excellent mechanical properties, such as high strength, taaiheid, en slijtvastheid. The microstructure also provides RSiC with a low coefficient of thermal expansion, which makes it suitable for high-temperature applications.

Mechanical Properties

RSiC has excellent mechanical properties due to its microstructure. It has a high buigsterkte, which means it can withstand bending and twisting without breaking. RSiC also has a high fracture toughness, which means it can resist cracks and fractures. Aanvullend, RSiC has a high hardness, which makes it resistant to wear and abrasion.

Thermal Properties

RSiC has excellent thermal properties, making it suitable for high-temperature applications. It has a high thermal conductivity, which means it can transfer heat quickly and efficiently. RSiC also has a low coefficient of thermal expansion, which means it can withstand large temperature changes without cracking or breaking.

Elektrische eigenschappen

RSiC is a good electrical insulator, which makes it suitable for electrical applications. It has a high resistivity, which means it can resist the flow of electricity. RSiC also has a high dielectric strength, which means it can withstand high voltages without breaking down.

Production of RSiC

Grondstoffen

RSiC is made from a mixture of siliciumcarbide poeder, koolstof, and a binder material. The silicon carbide powder is usually a mixture of alpha and beta phases. The carbon is typically in the form of graphite, and the binder material is usually a resin or wax.

Fabrication Techniques

RSiC can be fabricated using several techniques, inbegrepen slip casting, extrusie, and injection molding. Slip casting involves pouring the mixture into a mold and allowing it to dry. Extrusion involves forcing the mixture through a die to create a specific shape. Injection molding involves injecting the mixture into a mold under high pressure.

Sintering Process

After fabrication, the RSiC is sintered in a furnace at high temperatures. The sintering process causes the silicon carbide powder to recrystallize, forming the unique microstructure of RSiC. The sintering process also removes the binder material, leaving behind a pure RSiC material.

Applications of RSiC

Kiln Furniture

RSiC is commonly used in the ceramic industry as kiln furniture. Kiln furniture refers to the tools and supports used to hold and shape ceramic products during firing. RSiC is ideal for kiln furniture because of its high strength, thermische stabiliteit, and resistance to thermal shock.

Semiconductor Industry

RSiC is used in the halfgeleiderindustrie for the production of silicon wafers. RSiC is used as a support structure for the silicon wafers during processing. RSiC’s high thermal conductivity and low coefficient of thermal expansion make it ideal for this application.

Aerospace Industry

RSiC is used in the aerospace industry for high-temperature applications. It is used in rocket nozzles, heat shields, and other components that must withstand extreme temperatures. RSiC’s high strength, thermische stabiliteit, and resistance to thermal shock make it ideal for this application.

Chemical Industry

RSiC is used in the chemical industry for the production of corrosive chemicals. RSiC is used as a lining material for reaction vessels and pipes. RSiC’s high chemical resistance and thermal stability make it ideal for this application.

Armor Plates

RSiC is used in the production of armor plates for military and law enforcement applications. RSiC’s high strength and hardness make it an ideal material for bullet-resistant armor.

Advantages and Disadvantages of RSiC

Voordelen

1. Uitstekende mechanische eigenschappen
2. Excellent thermal properties
3. Good electrical insulation properties
4. Hoge chemische bestendigheid
5. Lage thermische uitzettingscoëfficiënt
6. High wear resistance and hardness

Nadelen

1. Expensive compared to other SiC materials
2. Difficult to produce in large quantities
3. Difficult to machine due to its hardness

Conclusie

Recrystallized silicon carbide (RSiC) is a unique material with excellent mechanical, thermisch, en elektrische eigenschappen. RSiC’s unique microstructure gives it even better properties compared to other SiC materials. RSiC is used in a variety of applications, including kiln furniture, halfgeleiderindustrie, aerospace industry, chemical industry, and armor plates. While RSiC is more expensive and difficult to produce compared to other SiC materials, its excellent properties make it an ideal material for high-temperature and high-stress applications.