Overview of aluminum nitride ceramics

Aluminum Nitride Ceramic is an advanced ceramic material with aluminum nitride as the main component. It has been widely used in electronics, optics, and mechanics due to its unique properties.

Features of aluminum nitride ceramics

High thermal conductivity: Aluminum nitride ceramics have relatively high thermal conductivity, usually between 170-260 W/m·K, which makes it an excellent heat dissipation material. It is especially suitable for electronic devices that require efficient heat dissipation, such as substrate materials for power semiconductor devices.

Good electrical insulation: Despite its high thermal conductivity, aluminum nitride ceramics are excellent insulators of electricity, which can effectively prevent current leakage and ensure the safe operation of electronic components.

Low dielectric constant and dielectric loss: These characteristics make aluminum nitride ceramics very suitable for use in high-frequency circuits because it can reduce energy loss during signal transmission.

High temperature resistance: Aluminum nitride ceramics can maintain structural stability and strength at extremely high temperatures. Its melting point is about 2800°C, so it is suitable for applications in high temperature environments.

Low thermal expansion coefficient: Compared with semiconductor materials such as silicon, aluminum nitride has a lower thermal expansion coefficient, which means it has better dimensional stability when the temperature changes, which helps improve packaging reliability.

Corrosion resistance: Aluminum nitride ceramics have good chemical stability to most molten metals and are not easily oxidized or corroded, allowing them to perform well in harsh environments.

High mechanical strength: Although not as hard as some other types of ceramic materials, aluminum nitride ceramics still provide enough mechanical strength to allow them to be used in many structural applications.

(MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder)

Specifications of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder is a high-performance ceramic powder designed for advanced industrial applications. The chemical composition is Ti4AlN3, combining titanium, aluminum, and nitrogen. This material belongs to the MAX phase ceramics family, known for unique properties blending metallic and ceramic characteristics.

The powder appears gray-black. It offers high purity levels above 99.5%, ensuring reliable performance. Particle sizes range from 1 to 10 micrometers, adjustable based on customer needs. The density is approximately 4.2 g/cm³. The melting point exceeds 3000°C, making it suitable for extreme heat environments. It has a Vickers hardness of 8-10 GPa, providing resistance to wear. Thermal stability remains strong up to 1400°C in inert atmospheres. Electrical conductivity is higher than traditional ceramics, enabling use in electronic components.

Applications span multiple industries. Aerospace components benefit from its heat resistance and lightweight properties. Automotive systems use it for engine parts and coatings to reduce friction. Electronics manufacturers apply it in heat sinks and conductive films. Energy sectors utilize it in turbine coatings and nuclear reactor components. Cutting tools coated with Ti4AlN3 Powder last longer under high-stress conditions.

Safety guidelines require careful handling. Direct contact with skin or eyes should be avoided. Protective gloves and goggles are necessary during use. Storage conditions must stay dry and cool, away from moisture and oxidizing agents. Proper ventilation prevents dust accumulation.

The powder is compatible with standard ceramic processing methods like hot pressing and spark plasma sintering. Custom particle size distributions are available. Research institutions and industrial manufacturers widely adopt this material for innovation in high-tech fields. Performance consistency meets strict quality standards. Technical support is provided for integration into specific applications.

(MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder)

Applications of MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder is a high-performance ceramic compound. It combines properties of metals and ceramics. This material shows excellent thermal stability, oxidation resistance, and electrical conductivity. It is also highly machinable compared to traditional ceramics. These features make it suitable for demanding industrial applications.

In aerospace engineering, Ti4AlN3 Powder is used for components exposed to extreme heat. Turbine blades, engine parts, and thermal barriers benefit from its ability to withstand temperatures over 1000°C. It reduces wear and extends the lifespan of machinery. The material’s lightweight nature helps improve fuel efficiency in aircraft.

Electronics manufacturers use Ti4AlN3 Powder in heat sinks and conductive coatings. Its high electrical conductivity allows efficient heat dissipation in microchips and circuits. This prevents overheating in devices like smartphones and computers. The powder is also applied as a thin film in semiconductors to enhance performance.

The energy sector relies on Ti4AlN3 Powder for advanced coatings in nuclear reactors and solar panels. It resists radiation damage and corrosion in reactor environments. Solar cells coated with this material show improved durability under UV exposure. The powder’s stability supports long-term energy generation in harsh conditions.

Medical devices benefit from Ti4AlN3 Powder’s biocompatibility and strength. It is used in surgical tools, implants, and prosthetics. The material resists bodily fluid corrosion and reduces infection risks. Its smooth surface minimizes friction in joint replacements.

Industrial cutting tools coated with Ti4AlN3 Powder last longer under high-stress operations. Drills, milling inserts, and grinding wheels maintain sharpness even at elevated temperatures. This reduces downtime and production costs in manufacturing.

Ti4AlN3 Powder is also researched for use in next-generation batteries and sensors. Its layered structure allows efficient ion transport in solid-state batteries. Sensors made with this material detect gases and temperature changes accurately.

The versatility of Ti4AlN3 Powder makes it critical in advancing technology across industries. Its unique properties address challenges in high-temperature, corrosive, and mechanically demanding environments.

Company Introduction

Advanced Ceramics founded on October 17, 2014, is a high-tech enterprise committed to the research and development, production, processing, sales and technical services of ceramic relative materials and products.. Since its establishment in 2014, the company has been committed to providing customers with the best products and services, and has become a leader in the industry through continuous technological innovation and strict quality management.

Our products includes but not limited to Silicon carbide ceramic products, Boron Carbide Ceramic Products, Boron Nitride Ceramic Products, Silicon Carbide Ceramic Products, Silicon Nitride Ceramic Products, Zirconium Dioxide Ceramic Products, Quartz Products, etc. 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 MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

What is Titanium Aluminum Nitride Ti4AlN3 Powder? Titanium Aluminum Nitride Ti4AlN3 Powder belongs to the MAX phase ceramics family. These materials combine metallic and ceramic properties. The powder has a layered structure with alternating nitride and metal layers. It offers high strength, good thermal conductivity, and strong electrical conductivity. It works well in extreme environments due to its stability.

What are the main properties of Ti4AlN3 Powder? The powder handles high heat and resists oxidation. It stays stable under temperatures over 1000°C. It is tough and resists wear. It conducts electricity better than most ceramics. These traits make it useful for advanced engineering tasks.

Where is Ti4AlN3 Powder commonly used? The powder fits aerospace, electronics, and industrial applications. It coats engine parts to protect against heat. It acts in heat sinks for electronics. It reinforces cutting tools and machinery components. Its versatility supports high-performance uses.

How should Ti4AlN3 Powder be stored and handled? Keep the powder in airtight containers. Store it in dry, cool places away from moisture. Avoid contact with water or reactive chemicals. Wear gloves and masks when handling. Follow safety rules to prevent inhalation or skin contact.

Can Ti4AlN3 Powder be customized for specific needs? Manufacturers adjust particle size and purity levels. Surface treatments or coatings are possible. Suppliers tailor orders based on project requirements. Contact them directly for exact specifications.

(MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder)