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.

(Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder for Polymer)

Specifications of Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder for Polymer

Beta Grayish Environment-friendly Cubic Superfine SiC Nanoparticle Silicon Carbide Powder is designed for polymer applications. The powder has a beta-phase crystal structure. It offers high thermal stability and chemical resistance. The particles are cubic-shaped and consistent in size. The ordinary particle dimension varies in between 20-50 nanometers. This ensures simple diffusion in polymer matrices. The powder has a grayish-green shade as a result of regulated synthesis. The purity level is 99.9% or higher. Contaminations are decreased to enhance efficiency. The cubic framework offers regular mechanical buildings. The product has a density of 3.21 g/cm FIVE. It maintains architectural integrity under heats. Thermal conductivity is 120 W/m · K. This helps dissipate warmth in polymer compounds. The powder serves as an electrical insulator. It stops unwanted current leak in electronic elements. The area is 35-45 m ²/ g. High area boosts communication with polymer chains. Including this powder to polymers increases tensile strength. Put on resistance and warmth resistance are enhanced. It is suitable for commercial parts exposed to rubbing. Automotive components take advantage of boosted sturdiness. The powder deals with usual polymers like nylon and polycarbonate. Processing techniques consist of extrusion and injection molding. No chemical pretreatment is needed. Storage should remain in a dry, cool atmosphere. Straight dampness call have to be avoided. Correct handling guarantees lasting stability. The slim particle size circulation guarantees also support in the polymer matrix. This uniformity avoids weak points in the end product. In aerospace applications, the powder enhances warmth resistance of composite materials. Electronics manufacturers utilize it to insulate delicate components. The nanoparticles bond well with polymer chains without clumping. This causes smoother surface areas and better mechanical efficiency. Customers ought to wear protective gear when handling the powder to avoid inhalation.

(Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder for Polymer)

Applications of Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder for Polymer

Beta grayish eco-friendly cubic superfine SiC nanoparticle silicon carbide powder provides several advantages in polymer applications. This material combines high firmness, thermal security, and chemical resistance. Adding it to polymers enhances efficiency across sectors.

Polymers blended with SiC nanoparticles manage warmth better. The particles spread out warm evenly, quiting getting too hot. This functions well in electronics like motherboard or LED housings. Heat-sensitive components last longer and stay trustworthy.

Mechanical toughness rises when SiC nanoparticles blend into polymers. The small fragments load voids in the polymer framework. This makes products harder and much more scratch-resistant. Products like auto components or commercial devices acquire durability without adding weight.

SiC nanoparticles also enhance electric residential properties in polymers. They produce courses for electrical power to stream smoothly. This helps in antistatic coatings or conductive movies. Electronic devices and product packaging products avoid static damage safely.

UV resistance boosts when SiC nanoparticles are included in outdoor polymers. The bits block hazardous sunlight, quiting color fading or breaking. Outdoor furniture, photovoltaic panel covers, and building and construction materials stay intact longer under weather condition direct exposure.

Fire retardancy is one more vital usage. SiC nanoparticles sluggish burning by creating a protective layer when warmed. This matches cords, cable televisions, and fire-safe parts in buildings or transport.

Wear resistance gets better in polymers with SiC. The tough fragments reduce friction on surfaces. Relocating components in equipment or medical tools last much longer with much less maintenance.

Chemical security makes SiC-polymer blends perfect for rough environments. They resist acids, alkalis, and solvents. This is useful in chemical storage tanks or pipes handling corrosive liquids.

Handling SiC nanoparticles into polymers is uncomplicated. They blend equally without clumping. Producers change quantities based upon needs, maintaining manufacturing effective.

The powder’s grayish-green color suits applications where look issues. It mixes into dark or neutral-toned items without added dyes. This works for consumer goods or commercial parts needing a tidy appearance.

Expenses stay workable due to low required amounts. Small dosages of SiC nanoparticles provide huge improvements. This balances efficiency and budget for lots of projects.

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 Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder for Polymer

What is Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder?
This powder is a synthetic material made of silicon and carbon. It forms a cubic crystal structure. The particles are ultra-small, typically between 20-80 nanometers. The grayish-green color comes from trace elements. It works well in polymer applications due to its hardness and thermal stability.

Why use this powder in polymers?
Adding this powder improves polymer strength and heat resistance. It helps polymers handle high temperatures without breaking down. The nanoparticles spread evenly in the polymer matrix. This creates better mechanical performance. Industries like automotive or aerospace use it for coatings or parts needing durability.

What particle size is ideal for polymer integration?
The average particle size is 50 nanometers. Smaller particles mix better with polymers. They avoid clumping. Uniform size ensures consistent properties in the final product. Finer particles increase surface area. This boosts interactions between the powder and polymer chains.

Is this powder safe to handle?
Wear gloves and masks when handling the powder. Avoid breathing in particles. Though not highly toxic, fine powders can irritate lungs or skin. Store it in sealed containers. Work in well-ventilated areas. Follow safety guidelines for nanomaterials.

How does this powder affect polymer processing?
The powder blends smoothly into molten polymers. It doesn’t slow down production. High purity reduces contamination risks. Processing methods like injection molding or extrusion stay efficient. The powder’s stability prevents degradation during high-temperature steps.

How should this powder be stored?
Keep it in a dry, cool place away from moisture. Use airtight containers to prevent oxidation. Exposure to humidity may cause clumping. Avoid direct sunlight. Storage below 25°C ensures long-term stability.

(Beta Grayish Green Cubic Superfine SiC Nanoparticle Silicon Carbide Powder for Polymer)