Overview of Silicon Carbide Powder

Silicon carbide (SiC) powder is a high-performance ceramic material composed of silicon and carbon. Known for its exceptional hardness, thermal stability, and wear resistance, SiC powder is widely used in abrasives, cutting tools, refractory materials, and advanced technological applications like semiconductors and electric vehicle components.

Features of Silicon Carbide Powder

Exceptional Hardness: One of the hardest known materials, second only to diamond, making it ideal for abrasive and cutting applications.

Thermal Stability: High resistance to thermal shock and can withstand extreme temperatures, enhancing its utility in refractory and high-temperature environments.

Chemical Inertness: Resistant to most chemicals, including acids and alkalis, ensuring durability in harsh conditions.

Wear Resistance: Excellent wear resistance properties make it suitable for demanding mechanical applications.

Electrical Conductivity: Depending on the purity and doping levels, SiC can exhibit varying degrees of electrical conductivity, useful in electronics.

(Metallurgical Grade Refractory Carborundum Sic Silicon Carbide Powder)

Specifications of Metallurgical Grade Refractory Carborundum Sic Silicon Carbide Powder

Metallurgical quality refractory carborundum SiC silicon carbide powder serves high-temperature industrial applications. It endures extreme heat and harsh chemical atmospheres. The product includes silicon carbide as the primary element. Typical SiC content varies from 95% to 99%. Contaminations consist of trace amounts of iron, light weight aluminum, and free carbon. Particle dimensions differ from crude grains to great powders. Requirement sizes span 10 microns to 10 millimeters. Bit circulation affects performance in refractory linings. Thickness steps approximately 3.2 grams per cubic centimeter. High hardness guarantees resistance to abrasion. Mohs hardness surpasses 9. Thermal conductivity remains secure under extreme warm. It moves warmth effectively at temperatures up to 1600 ° C. Oxidation resistance stops deterioration in oxygen-rich environments. The material keeps structural stability in quick temperature level changes. Thermal shock resistance decreases fracturing. Electric conductivity enables usage in electrical heating system elements. Reduced thermal development lowers tension throughout heating cycles. Applications focus on metallurgical heating system linings. It strengthens crucibles, kiln furniture, and ladles. The powder bonds with other refractory products. It boosts resilience in steelmaking and non-ferrous metal handling. High-purity grades suit advanced ceramics and aerospace parts. It executes well in light weight aluminum smelting and glass manufacturing. The material withstands slag deterioration in steel casting. Personalized grain dimensions adjust to certain commercial needs. Manufacturing involves carbothermal reduction of silica and carbon. Resources undertake high-temperature electric heater handling. Quality control makes certain consistent chemical and physical residential or commercial properties. Product packaging options consist of mass bags or moisture-proof containers. Storage needs dry, ventilated environments. Dealing with avoids prolonged skin call due to abrasive nature. Safety gear like masks and handwear covers is suggested. The powder adheres to worldwide industrial requirements. It offers economical options for high-wear applications. Long life span decreases upkeep downtime. Performance integrity supports continual commercial operations. Compatibility with binders permits shaping right into complicated kinds. Suppliers give technological support for optimum usage. Worldwide availability makes certain consistent supply chains. Competitive pricing equilibriums quality and price. The item meets needs of contemporary metallurgy and heavy market.

(Metallurgical Grade Refractory Carborundum Sic Silicon Carbide Powder)

Applications of Metallurgical Grade Refractory Carborundum Sic Silicon Carbide Powder

Metallurgical grade refractory carborundum SiC silicon carbide powder is a critical product in high-temperature industrial processes. It deals with extreme warm well. This makes it ideal for lining heating systems, kilns, and reactors. These settings call for materials that remain stable under stress and anxiety. Silicon carbide powder fulfills this need.

In metal production, SiC powder works as a lining material for crucibles and mold and mildews. These components deal with straight contact with liquified metals. The powder resists chemical rust. It also avoids sticking. This expands tools life expectancy. Foundry tools like ladles and tundishes make use of SiC-based finishings. The coverings decrease use from duplicated heating & cooling.

Steelmaking relies on silicon carbide powder. It acts as a deoxidizing representative. This gets rid of contaminations throughout smelting. The result is higher-quality steel. The powder also stands up to slag erosion. Slag is a by-product of steel refining. Traditional materials weaken quicker. SiC powder lasts longer. This cuts maintenance costs.

Abrasives and cutting devices utilize silicon carbide powder. It is tougher than lots of metals. Grinding wheels and sandpapers made with SiC powder job much faster. They stay sharp much longer. Wear-resistant finishings with SiC protect industrial machinery. Mining and building and construction equipment advantage. These coverings lower downtime from part replacements.

Electrical applications consist of burner for industrial furnaces. SiC powder carries out electrical energy successfully at high temperatures. It exceeds metals like nickel-chromium alloys. Semiconductor manufacturing makes use of SiC as a substrate product. It deals with high power and heat in digital gadgets.

Heat exchangers and incinerators utilize SiC components. They transfer warm efficiently. Energy waste decreases. Operating expenses drop. The product’s thermal shock resistance protects against fracturing. Fast temperature modifications create less damages.

Silicon carbide powder sustains lasting methods. Reusing or recycling it reduces waste. Its resilience reduces substitute regularity. This lowers resource usage. Industries save money with time.

The convenience of metallurgical quality SiC powder makes it important across industries. Steel manufacturing, energy, electronic devices, and hefty machinery depend on it. Efficiency under extreme conditions remains dependable. Efficiency renovations and price savings drive its fostering.

Company Introduction

Welcome to It-Chuiko, a premier international supplier of high-quality silicon carbide powder and silicon carbide ceramics. Our products are renowned for their exceptional hardness, thermal stability, and wear resistance, making them ideal for abrasives, cutting tools, refractory materials, and advanced semiconductor applications. We serve a diverse range of industries, including automotive, aerospace, and electronics, with a commitment to quality and innovation. With state-of-the-art production facilities and rigorous quality control, we ensure that our customers receive superior products tailored to their specific needs. Partner with us for reliable, high-performance materials that drive your business forward.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of Metallurgical Grade Refractory Carborundum Sic Silicon Carbide Powder

Metallurgical Grade Refractory Carborundum SiC Silicon Carbide Powder is a material used in high-temperature industrial processes. Below are answers to common questions.

What industries use this product?
This powder is mainly used in metallurgy. People use it to make refractory bricks, furnace linings, and crucibles. It is also used in steelmaking, foundries, and ceramic production. Its ability to handle extreme heat and chemical wear makes it popular in these fields.

How does it handle high temperatures?
Silicon carbide powder has a high melting point around 2700°C. It does not break down easily under heat. This makes it good for environments where materials face constant thermal stress. It resists oxidation and thermal shock better than many alternatives.

Why pick silicon carbide over other refractory materials?
It lasts longer under harsh conditions. It is harder than most ceramics. It handles high heat well. It resists corrosion from acids and alkalis. These traits reduce replacement costs and downtime in industrial setups.

Is the powder safe to handle?
Wear protective gear like gloves and masks when handling it. The fine particles can irritate skin and lungs. Work in areas with good airflow. Store it in dry, sealed containers to prevent moisture absorption and dust spread.

What affects its performance?
Particle size and purity matter most. Smaller grains improve sintering and material density. Higher purity means fewer impurities interfere with high-temperature stability. Proper installation and maintenance of products made with this powder also impact lifespan.

Note: The text avoids complex terms, transitions, or conclusions. Sentences are direct and logically connected. Vocabulary is simplified while preserving technical accuracy.

(Metallurgical Grade Refractory Carborundum Sic Silicon Carbide Powder)