Overview of High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate

Silicon Nitride Ceramics are high-performance materials known for their excellent mechanical properties, including strength, toughness, and resistance to wear, corrosion, and thermal shock, making them ideal for demanding applications in various industries.

Features of High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate

Exceptional hardness and wear resistance.

Superior mechanical strength and fracture toughness.

Excellent thermal stability and resistance to thermal shock.

High corrosion resistance in aggressive environments.

Low density contributing to lightweight components.

(High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate)

Specifications of High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate

This silicon nitride plate handles extreme heat well. It also resists thermal shock effectively. Sudden temperature changes won’t crack it. That makes it reliable for tough jobs. Si3N4 ceramic is the base material. This material is very strong. It stays tough even at high temperatures. It doesn’t melt easily. It resists wear and chemicals too.

The plate is very dense. That means almost no pores. Density is high. This helps its strength. Its surface is very smooth. You get a fine finish. This is good for precision uses. The material is very pure. Impurities are minimal. This ensures consistent performance. Color is usually dark grey or black.

Standard sizes are available. Common thicknesses are 0.5mm, 1.0mm, 2.0mm. Larger or custom sizes are possible. We can cut it to your shape. Holes or features can be added. The plate handles high temperatures easily. It works well above 1000°C. Thermal shock resistance is a key feature. Rapid heating or cooling is fine. It won’t break like other ceramics.

Its strength stays high when hot. It doesn’t weaken much. Electrical insulation is excellent. It won’t conduct electricity. This is useful in electronics. It resists corrosion strongly. Acids and alkalis don’t damage it. Wear resistance is also high. It lasts longer under friction.

This plate fits many demanding uses. Semiconductor tools need it. Furnace parts use it well. Sensor carriers benefit from it. Welding fixtures rely on it. Aerospace components require it. Metallurgical processes utilize it. Any hot, harsh environment suits it. This material offers a dependable solution.

(High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate)

Applications of High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate

This silicon nitride plate handles extreme heat changes without cracking. It’s tough stuff. Silicon nitride ceramics resist sudden temperature swings incredibly well. Think rapid heating or cooling cycles. This thermal shock resistance makes them perfect for demanding industrial jobs.

Many semiconductor processes need this material. High temperature wafer chucks hold silicon wafers securely during intense heat treatments. Silicon nitride plates provide that stable, non-reactive surface. They survive the furnace environment repeatedly. Semiconductor etching and deposition equipment also rely on these plates. They handle corrosive gases and plasma without degrading.

Power electronics benefit too. Electric vehicle components get very hot. Silicon nitride substrates mount power modules effectively. They manage heat beautifully. This keeps electronics running cooler and more reliably. Circuit boards carrying high currents use silicon nitride bases. They prevent dangerous overheating and electrical failures.

LED manufacturing uses these plates. They hold delicate LED components during high-temperature soldering. The stable plate prevents warping. Sensitive LED parts stay perfectly aligned. This ensures bright, long-lasting lights.

Aerospace and automotive testing need reliable materials. Silicon nitride plates serve as durable heater platforms. They withstand repeated thermal cycling in test chambers. Sensors often mount directly onto them. They provide accurate readings in harsh conditions. Jet engine sensor bases utilize this material. It endures the extreme environment near the turbine.

Metal casting and heat treatment furnaces use silicon nitride setters. They carry heavy metal parts through intense heat cycles. These plates last much longer than metal alternatives. They don’t contaminate the workpieces either. Foundries appreciate the durability and cost savings over time.

Chemical processing equipment employs these plates. They resist attack from strong acids and alkalis. Reactor parts made from silicon nitride handle corrosive chemicals at high temperatures safely. They offer a long service life where other materials fail quickly.

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.

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5 FAQs of High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate

What makes silicon nitride plates resist sudden temperature changes?
These plates handle extreme heat shifts well. Silicon nitride expands very little when heated. It also contracts minimally when cooled. This property prevents internal stress cracks. The material stays strong through rapid heating or cooling cycles.

How hot can these silicon nitride plates get?
They operate reliably at very high temperatures. Silicon nitride plates work continuously above 1200°C (2192°F). Some grades handle even higher peaks. They maintain strength and shape under intense heat.

Why use silicon nitride instead of metal?
Silicon nitride offers key advantages over metals. It doesn’t melt or deform at extreme temperatures metals fail. It resists corrosion from harsh chemicals much better. It also acts as an electrical insulator, unlike metals.

Are these plates strong enough for industrial use?
Yes, silicon nitride plates are exceptionally strong. They possess high mechanical strength and toughness. This makes them durable under heavy loads and vibration. They resist chipping and cracking in demanding environments.

What industries use these thermal shock resistant plates?
Many high-temperature industries rely on them. Common uses include semiconductor processing equipment. They are vital in furnace parts and heat treatment fixtures. Aerospace and energy sectors also use them extensively.

(High Temperature Ceramic Plate Thermal Shock Resistant Silicon Nitride Si3n4 Substrate)