Visión xeral da cerámica de nitruro de aluminio

A cerámica de nitruro de aluminio é un material cerámico avanzado co nitruro de aluminio como compoñente principal. Foi moi utilizado en electrónica, óptica e mecánica debido ás súas propiedades únicas.

Características da cerámica de nitruro de aluminio

Alta condutividade térmica: as cerámicas de nitruro de aluminio teñen unha condutividade térmica relativamente alta, normalmente entre 170-260 W/m·K, o que a converte nun excelente material de disipación de calor. É especialmente axeitado para dispositivos electrónicos que requiren unha disipación de calor eficiente, como materiais de substrato para dispositivos semicondutores de potencia.

Bo illamento eléctrico: a pesar da súa alta condutividade térmica, as cerámicas de nitruro de aluminio son excelentes illantes da electricidade, que poden evitar eficazmente a fuga de corrente e garantir o funcionamento seguro dos compoñentes electrónicos.

Baixa constante dieléctrica e perda dieléctrica: estas características fan que a cerámica de nitruro de aluminio sexa moi adecuada para o seu uso en circuítos de alta frecuencia porque pode reducir a perda de enerxía durante a transmisión do sinal.

Resistencia a altas temperaturas: a cerámica de nitruro de aluminio pode manter a estabilidade estrutural e a resistencia a temperaturas extremadamente altas. O seu punto de fusión é duns 2800 °C, polo que é axeitado para aplicacións en ambientes de alta temperatura.

Baixo coeficiente de expansión térmica: en comparación cos materiais semicondutores como o silicio, o nitruro de aluminio ten un menor coeficiente de expansión térmica, o que significa que ten unha mellor estabilidade dimensional cando cambia a temperatura, o que axuda a mellorar a fiabilidade do envase.

Resistencia á corrosión: as cerámicas de nitruro de aluminio teñen unha boa estabilidade química para a maioría dos metais fundidos e non se oxidan nin se corroen facilmente, o que lles permite funcionar ben en ambientes duros.

Alta resistencia mecánica: aínda que non é tan dura como algúns outros tipos de materiais cerámicos, as cerámicas de nitruro de aluminio aínda proporcionan resistencia mecánica suficiente para permitir que se utilicen en moitas aplicacións estruturais.

(SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube)

Specifications of SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube

The SINTYRON High Thermal Conductivity ALN Light Weight Aluminum Nitride Ceramic Insulating Tube supplies remarkable performance for demanding industrial applications. The material integrates light weight aluminum nitride ceramic with advanced sintering technology. This makes certain exceptional thermal conductivity up to 180 W/m · K. It efficiently transfers heat away from elements. Television operates accurately in temperature levels from -50 ° C to 1400 ° C. It stands up to thermal shock and keeps stability under quick temperature level changes. The ceramic framework provides high purity over 99.5%. This decreases contaminations that can affect performance. The tube provides excellent electric insulation. Its dielectric strength exceeds 15 kV/mm. This avoids existing leak in high-voltage atmospheres. The material stands up to corrosion from acids, alkalis, and molten metals. It fits severe chemical setups. The surface finish is smooth, reducing rubbing and put on during use. Requirement outer diameters range from 5 mm to 120 mm. Wall surface density alternatives period 1 mm to 20 mm. Personalized sizes are available for specialized requirements. Television is light-weight contrasted to metal options. It decreases system weight while boosting thermal monitoring. Applications include semiconductor manufacturing, laser systems, and power electronic devices. It works as a safety sheath for thermocouples and burner. The tube isolates heat-sensitive components in aerospace and automotive systems. Its non-reactive nature makes sure compatibility with vacuum settings. Machining tolerances stay within ± 0.5% for precision fitment. The product undertakes strenuous quality look for splits or defects. It fulfills sector standards for mechanical stamina and thermal endurance. Customers benefit from extensive tools life expectancy and decreased downtime. The material’s low thermal development matches metals like light weight aluminum. This avoids joint stress and anxiety in set up systems. Handling follows common ceramic safety and security procedures. Stay clear of mechanical influences to stop breaking. Clean with non-abrasive methods to preserve surface integrity. Storage space in completely dry conditions prevents moisture absorption. Television ships in protective product packaging to avoid transit damage. Technical assistance helps with material selection and design optimization. Worldwide shipping choices guarantee timely shipment for immediate jobs. Efficiency data sheets provide thorough metrics for design evaluation.

(SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube)

Applications of SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube

SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube serves vital functions throughout industries. Its high thermal conductivity allows efficient heat transfer. It operates in high-temperature environments. The product resists deterioration. It offers solid electrical insulation. These functions make it perfect for requiring applications.

In semiconductor production, television manages warmth in tools. It ensures stable efficiency during procedures like etching or deposition. Warmth buildup can harm components. Television stops this. It prolongs tool lifespan. It keeps accuracy in microelectronics production.

Power electronic devices depend on television for heat dissipation. Electric automobiles use it in battery systems and inverters. Renewable resource systems apply it in solar inverters and wind turbines. The product handles high voltages. It prevents electrical leak. This enhances security and efficiency.

LED lighting systems gain from television’s thermal monitoring. High-power LEDs generate substantial warm. The tube transfers warmth away from source of lights. It prevents overheating. This ensures consistent illumination and color. It lowers failing prices in industrial and industrial lights.

Aerospace and protection fields make use of television in radar systems and interaction tools. These applications require products that withstand severe conditions. Television operates reliably under high thermal anxiety. It resists thermal shock. This is crucial for mission-critical equipment.

Medical devices use the tube for electrical insulation in imaging systems and lasers. Accuracy and security are essential. The material’s purity prevents contamination. It carries out regularly in disinfected atmospheres.

Industrial heating unit incorporate the tube in high-temperature furnaces. It insulates heating elements. It routes heat properly. This lowers energy waste. Production processes come to be a lot more efficient.

Television’s mechanical strength sustains long-term use. It stands up to wear in rough problems. Customized sizes and shapes are offered. This adaptability fulfills certain application needs.

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 SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube

What is the SINTYRON High Thermal Conductivity ALN Ceramic Insulating Tube made of?
The tube uses aluminum nitride (ALN) ceramic. This material has high thermal conductivity. It works well for insulation in electronics or high-temperature setups. ALN ceramic resists heat better than many metals or plastics. It keeps systems stable under stress.

Por que elixir o nitruro de aluminio en lugar doutras cerámicas?
Aluminum nitride moves heat faster than alumina or beryllia. It also expands less when heated. This reduces cracking risks. ALN is safer than beryllia because it isn’t toxic. It fits devices needing quick heat removal without safety worries.

How much thermal conductivity does the ALN tube have?
The ALN ceramic offers 170-180 W/mK. This is about ten times higher than alumina. High conductivity helps spread heat fast. It stops parts from overheating. Electronics last longer and perform better because of this.

What temperatures can the ALN tube handle?
The tube works from -40°C to over 1200°C. It stays stable in extreme heat. This makes it good for semiconductors or LED manufacturing. Even in harsh conditions, it keeps its shape and insulation properties.

Where is the SINTYRON ALN tube typically used?
Common uses include electronics, automotive systems, and aerospace parts. It acts as a heat sink, insulator, or protective sleeve. Factories use it in sensors, laser parts, or power modules. It handles high heat and electrical stress reliably.

(SINTYRON High Thermal Conductivity ALN Aluminium Nitride Ceramic Insulating Tube)