Overview of High Thermal Conductivity Aluminum Nitride Ceramic Plate for Semiconductor Industry

High Thermal Conductivity Aluminum Nitride Ceramic Plate for Semiconductor Industry is an advanced technical ceramic renowned for its exceptional thermal conductivity and reliable electrical insulation. It is a key material in high-power electronics, LED lighting, and semiconductor processing, effectively managing heat in demanding applications where performance and reliability are critical.

Features of High Thermal Conductivity Aluminum Nitride Ceramic Plate for Semiconductor Industry

• High Thermal Conductivity: Offers excellent heat dissipation, comparable to beryllia (BeO).
• Electrical Insulation: Maintains high electrical resistivity even at elevated temperatures.
• Low Thermal Expansion: Matches the coefficient of thermal expansion of silicon, ideal for semiconductor substrates.
• Excellent Mechanical Strength: Possesses good mechanical properties for structural integrity.
• High-Temperature Stability: Performs reliably in harsh environments and at high temperatures.
• Non-Toxic: A safe alternative to beryllium oxide (BeO) ceramics.

Specification of High Thermal Conductivity Aluminum Nitride Ceramic Plate for Semiconductor Industry

This Aluminum Nitride (AlN) ceramic plate is built for tough jobs in the semiconductor world. It moves heat away super fast. This keeps high-power electronics cool and running smoothly. High thermal conductivity is its main strength. Expect values around 180 W/mK. This beats many other ceramics easily. Heat moves quickly through the plate. This prevents hot spots from forming. Components stay within safe temperature limits. Performance stays stable and reliable.

The plate is also a strong electrical insulator. It blocks electricity completely. This prevents short circuits or leaks. You can safely use it near live circuits. It handles high voltages without trouble. Electrical safety is guaranteed. This dual role is perfect for electronics. It cools effectively and isolates electrically.

Its thermal expansion closely matches silicon chips. The Coefficient of Thermal Expansion (CTE) is very low. This prevents stress when temperatures change. Chips and the plate expand and contract similarly. Connections stay secure over many cycles. Reliability improves significantly. This matching is critical for delicate semiconductor devices.

The plate is tough and durable. It resists breaking under pressure. Mechanical strength is high. It handles physical stress well. This ensures long service life. It also resists chemical corrosion. Harsh environments won’t damage it. Purity levels are extremely high. This minimizes any unwanted interactions. It won’t introduce contaminants. Surface quality is excellent. Surfaces are smooth and flat. This allows for perfect bonding. Heat transfer stays efficient.

Manufacturers use this plate for many critical jobs. It sits under high-power LED chips. It carries power modules. It supports integrated circuits (ICs). It is vital for laser diodes. It works in demanding semiconductor equipment. This plate solves serious thermal problems. It boosts performance and lifespan. It is a smart choice for advanced electronics cooling.

Applications of High Thermal Conductivity Aluminum Nitride Ceramic Plate for Semiconductor Industry

Warm monitoring is crucial in the semiconductor industry. Digital devices generate considerable warmth. Aluminum nitride ceramic plates manage this obstacle efficiently. Their vital stamina is high thermal conductivity. Warm actions via them rapidly. This residential property is essential for keeping elements cool down.

These plates are excellent warmth spreaders. They attach straight to powerful chips like CPUs and GPUs. Heat transfers efficiently from the chip right into home plate. This avoids harmful overheating. It shields sensitive electronic devices from damages. Gadget dependability improves significantly. Efficiency continues to be stable.

Precision production uses these plates as well. They work as heating elements or substratums in wafer handling. Uniform temperature level control is important below. Light weight aluminum nitride offers stable, also heating. It lessens temperature variants across the wafer surface area. This consistency results in better semiconductor items. Fewer issues take place.

Laser diode packaging benefits from these porcelains. Laser diodes generate intense warm in small locations. Aluminum nitride plates function as submounts. They draw warm away from the diode joint rapidly. This avoids thermal runaway. Diode lifespan boosts. Efficiency stays regular gradually.

Chip packaging depends on effective thermal paths. Aluminum nitride plates type part of this path. They assist channel warmth from the chip outwards. This keeps the chip cooler throughout operation. System integrity obtains an increase. The plates are electrical insulators as well. Electrical signals remain tidy and unaffected.

Company Profile

Tanki New Materials Co.Ltd. focus on the research and development, production and sales of ceramic products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2015, 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 Aerogel, Aluminum Nitride, Aluminum Oxide, Boron Carbide, Boron Nitride, Ceramic Crucible, Ceramic Fiber, Quartz Product, Refractory Material, Silicon Carbide, Silicon Nitride, ect. please feel free to contact us.

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

Shipment Methods

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

5 FAQs of High Thermal Conductivity Aluminum Nitride Ceramic Plate for Semiconductor Industry

Here are five common questions about high thermal conductivity aluminum nitride ceramic plates for the semiconductor industry:

Why is high thermal conductivity important for these plates? Semiconductor devices generate significant heat during operation. Aluminum nitride plates conduct heat very efficiently. This good heat spreading prevents overheating. It keeps device temperatures stable and reliable.

What makes aluminum nitride durable? Aluminum nitride handles extreme temperature changes well. It resists cracking from sudden heating or cooling cycles. This thermal shock resistance is crucial. Semiconductor manufacturing involves many high-temperature steps. The plates must survive repeated thermal stress without failing.

How does aluminum nitride work with semiconductor processes? Aluminum nitride is chemically stable. It doesn’t react easily with many common chemicals or gases. This inertness means it won’t contaminate sensitive semiconductor materials. It fits well into demanding fabrication environments.

Is aluminum nitride electrically insulating? Yes, aluminum nitride provides excellent electrical insulation. It prevents unwanted electrical currents from flowing through the plate itself. This insulation protects sensitive electronic components. Good electrical isolation is essential alongside the thermal management.

Are these plates cost-effective? Aluminum nitride offers a strong performance balance. Its high thermal conductivity matches or exceeds other technical ceramics. It delivers long service life under tough conditions. The combination of performance and durability provides good value for demanding semiconductor applications.