Introdución da cerámica de carburo de boro

A cerámica de carburo de boro é un material inorgánico non metálico con carbono e boro como compoñentes principais, e a súa fórmula química é B4C. Desde o seu descubrimento a principios do século XX, este material atraeu moita atención polas súas propiedades físicas e químicas únicas. As cerámicas de carburo de boro teñen unha dureza extremadamente alta, superada só por diamante e nitruro de boro cúbico, o que a fai importante no campo dos materiais resistentes ao desgaste. Tamén presenta unha excelente resistencia á corrosión, estabilidade ás altas temperaturas e propiedades de baixa densidade, atributos que o fan ideal para a fabricación de chalecos antibalas, boquillas, rodamentos e outros compoñentes mecánicos que requiren unha alta resistencia ao desgaste. A cerámica de carburo de boro tamén se pode preparar nunha variedade de formas e tamaños a través de diferentes procesos para satisfacer as necesidades de diferentes industrias.

Características das cerámicas de carburo de boro

As cerámicas de carburo de boro son coñecidas polas súas excelentes características de rendemento, comezando pola súa dureza e resistencia ultra elevadas, o que as fai resistentes á abrasión severa e á raiadura, polo que son idóneas para o seu uso en ferramentas de corte e abrasivos. En segundo lugar, o material posúe unha excelente estabilidade química e é menos probable que reaccione con produtos químicos como ácidos e álcalis, mesmo en ambientes extremos, polo que é moi utilizado en certos compoñentes clave da industria química. Ademais, a superior estabilidade térmica das cerámicas de carburo de boro e a súa capacidade para manter a estabilidade estrutural e da propiedade a temperaturas extremadamente altas convértenas nun dos materiais fundamentais nas industrias aeroespacial e nuclear. Por último, cabe destacar as súas propiedades lixeiras que, pola súa baixa densidade, fan da cerámica de carburo de boro unha opción ideal para escenarios de aplicación que requiren un peso lixeiro pero de alta resistencia. En conxunto, estas características dan á cerámica de carburo de boro unha ampla gama de aplicacións.

(High Hardness Hexagonal B4C armor Plate Boron Carbide Ceramic Body protection Tile)

Specification of High Hardness Hexagonal B4C armor Plate Boron Carbide Ceramic Body protection Tile

The High Hardness Hexagonal B4C Shield Plate is a boron carbide ceramic tile developed for advanced body and lorry protection. This material integrates severe solidity with lightweight buildings, making it ideal for high-impact protection applications. Boron carbide (B4C) ranks 3rd in hardness after ruby and cubic boron nitride, accomplishing a Mohs solidity of 9.5. Its hexagonal crystal structure boosts architectural stability, ensuring resistance to cracks under tension. Home plate’s density varies in between 2.5 and 2.6 g/cm ³, considerably lighter than steel or alumina ceramics, reducing weight for wearable or mounted systems.

The shield plate runs effectively in temperatures as much as 1,800 ° C, preserving efficiency in extreme thermal atmospheres. Its reduced thermal conductivity reduces warmth transfer, shielding underlying frameworks. The product’s compressive toughness exceeds 2,800 MPa, allowing it to endure high-velocity projectiles and shrapnel. Tests verify its capacity to stop armor-piercing rounds and fragments from nitroglycerins, fulfilling military-grade requirements.

B4C ceramic floor tiles work with composite armor systems. They are commonly layered with products like polyethylene or metals to soak up residual power after impact. This multi-layer strategy enhances overall durability without including bulk. The hexagonal shape enables tight interlocking when tiled, producing seamless insurance coverage and eliminating powerlessness. Surface polishing guarantees smooth combination with backing products, minimizing rubbing and stress focus.

Manufacturing makes use of warm pushing or sintering to achieve near-theoretical density, reducing pores that compromise framework. Raw boron carbide powder is purified to 99%+ purity, making sure consistency. Final products undertake ultrasonic testing to detect problems, guaranteeing each plate satisfies rigorous quality requirements. Custom sizing is offered, with density choices from 5mm to 25mm for differing danger levels.

Applications consist of armed forces body armor, helicopter seats, armored automobiles, and safety checkpoint obstacles. The material’s chemical inertness stops rust from wetness, acids, or solvents, making certain long-lasting reliability. Electrically non-conductive buildings make it secure for usage near sensitive electronic devices. Handling needs treatment due to brittleness throughout machining, but pre-cut layouts streamline installment.

This B4C shield plate uses a balance of defense, weight efficiency, and environmental resilience. It is relied on by protection and safety sectors worldwide for important missions.

(High Hardness Hexagonal B4C armor Plate Boron Carbide Ceramic Body protection Tile)

Applications of High Hardness Hexagonal B4C armor Plate Boron Carbide Ceramic Body protection Tile

High-hardness hexagonal B4C shield plates constructed from boron carbide ceramic are innovative materials made for extreme security. These plates combine phenomenal toughness with lightweight buildings. Boron carbide ranks as one of the hardest recognized materials. It surpasses products like silicon carbide and tungsten carbide in hardness. Its hexagonal crystal framework contributes to remarkable resistance against effects and abrasion. This makes it excellent for applications where stamina and weight effectiveness are critical.

B4C armor plates are commonly utilized in armed forces and defense sectors. They act as protective elements for armored lorries, airplane, and individual body shield. The product’s capacity to soak up high-velocity impacts assists shield personnel and tools from bullets, shrapnel, and explosive pieces. Its light-weight nature lowers the problem on individuals compared to conventional steel armor. This boosts mobility without compromising security.

In aerospace design, boron carbide ceramic floor tiles protect essential elements from extreme conditions. They defend against high-speed bit disintegration in spacecraft and satellite systems. The product’s thermal security allows it to hold up against temperature levels surpassing 2,000 ° C. This makes it appropriate for heat shields and engine components subjected to extreme friction and warm.

Industrial applications consist of wear-resistant parts for machinery operating in severe atmospheres. B4C plates line devices in mining, boring, and production. They extend the life-span of devices by standing up to corrosion, abrasion, and chemical damage. The ceramic’s low density guarantees marginal added weight to heavy equipment.

Law enforcement and security employees make use of boron carbide floor tiles in tactical equipment. Helmets, vests, and automobile panels incorporate these plates to boost survivability in high-risk circumstances. The material’s non-conductive buildings likewise secure against electrical threats.

B4C armor plates are made with advanced sintering processes. This ensures consistent density and architectural honesty. Customizable forms and thicknesses enable adjustment to specific security requirements. The mix of solidity, lightweight design, and thermal resistance positions boron carbide as a top choice for modern-day protective solutions.

Introdución da compañía

Advanced Ceramics, fundada o 17 de outubro de 2014, é unha empresa de alta tecnoloxía comprometida coa investigación e desenvolvemento, produción, procesamento, vendas e servizos técnicos de materiais e produtos cerámicos. Desde a súa creación en 2014, a empresa comprométese a ofrecer aos clientes os mellores produtos e servizos e converteuse nun líder na industria a través da innovación continua e rigorosa xestión tecnolóxica da calidade.

Os nosos produtos inclúen, entre outros, produtos cerámicos de carburo de silicio, produtos cerámicos de carburo de boro, produtos cerámicos de nitruro de boro, produtos cerámicos de carburo de silicio, produtos cerámicos de nitruro de silicio, produtos cerámicos de dióxido de circonio, produtos de cuarzo, etc. Non dubide en contactar connosco.(nanotrun@yahoo.com)

Formas de pago

T/T, Western Union, Paypal, tarxeta de crédito, etc.

Métodos de envío

Por aire, por mar, por expreso, segundo o soliciten os clientes.

5 FAQs of High Hardness Hexagonal B4C armor Plate Boron Carbide Ceramic Body protection Tile

What is a high hardness hexagonal B4C armor plate?
Boron carbide ceramic is a material for body protection. It combines boron and carbon atoms. This creates one of the hardest substances available. The hexagonal shape helps spread impact forces evenly. It reduces damage from bullets or fragments.

Why choose hexagonal tiles over other shapes?
Hexagonal tiles fit tightly together. This creates a seamless surface. Gaps between tiles stay minimal. Force from impacts moves across the whole plate. Cracks or breaks happen less. Square or rectangular tiles often leave weak spots.

Where is B4C armor plate typically used?
Military gear uses it for body armor and vehicle protection. Security teams apply it in shields or helmets. It works in high-risk environments needing lightweight defense. Factories handling abrasive materials also benefit. It resists wear better than steel.

How do you maintain boron carbide ceramic plates?
Clean surfaces with a dry cloth. Avoid water or chemicals. Check for cracks after impacts. Store plates flat to prevent warping. Handle edges carefully. Chipping can weaken the structure. Replace damaged tiles immediately.

Is B4C armor better than steel or other ceramics?
Boron carbide is lighter than steel. It stops bullets using less material. It outperforms alumina ceramics in hardness. It handles higher temperatures without breaking down. Costs are higher but justified for critical protection needs.

(High Hardness Hexagonal B4C armor Plate Boron Carbide Ceramic Body protection Tile)