Overview of MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application

MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application is precision-engineered from 99%+ pure aluminum oxide (Al₂O₃), offering exceptional mechanical strength and thermal stability. Designed to withstand temperatures up to 1800°C, these shafts provide superior performance in demanding applications including precision machinery, chemical pumps, semiconductor equipment, and high-speed bearings.

The combination of extreme hardness (9 Mohs), low friction coefficient, and excellent corrosion resistance makes alumina ceramic shafts ideal replacements for metal components in harsh environments.

Key Features of MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application

Ultra-High Temperature Resistance – Stable operation up to 1800°C

Exceptional Wear Resistance – 5-10x longer lifespan than steel shafts

Corrosion Proof – Resistant to acids, alkalis and solvents

Lightweight – 60% lighter than steel with higher strength

Electrical Insulation – Excellent dielectric properties

Customizable – Available in various diameters, lengths and tolerances

(MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application)

Specification of MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application

MICC manufactures high-temperature alumina ceramic tubes for thermocouple protection. These tubes are made from aluminum oxide. This material is very strong and handles extreme heat well. The tubes come in three purity levels: 95%, 99%, and 99.7% alumina. Higher purity means better performance under tougher conditions.

These ceramic tubes are essential for accurate temperature measurement. Thermocouples need protection from harsh environments. The alumina tube acts like a shield. It protects the delicate thermocouple wires inside. This shielding ensures reliable readings. The tube stops physical damage, chemical attack, and electrical interference.

The material offers excellent thermal stability. MICC alumina tubes withstand temperatures up to 1600°C (2912°F). They resist sudden temperature changes. This thermal shock resistance is crucial. Industrial processes often involve rapid heating or cooling. The tube must not crack. It keeps the thermocouple sensor safe.

Electrical insulation is another key property. Alumina ceramic is a very good insulator. It prevents electrical currents from interfering with the thermocouple signal. This insulation is vital for getting precise temperature data. Contamination or signal errors are minimized.

Different purity levels serve different needs. The 95% alumina tube is a cost-effective choice. It works well for many standard applications. The 99% alumina tube offers better performance. It provides higher strength and improved thermal properties. The 99.7% high-purity tube is the top option. It delivers maximum resistance to extreme heat and corrosion. It is best for the most demanding processes.

These tubes are used in many industries. They protect thermocouples in furnaces, kilns, and reactors. They are common in steel plants, glass factories, and power generation. The ceramic ensures the thermocouple lasts longer. It also maintains measurement accuracy over time.

MICC provides various sizes and shapes. Custom dimensions are available. The tubes are designed for easy installation. They fit standard thermocouple assemblies. Reliable protection for critical temperature sensors is the result.

(MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application)

Applications of MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application

MICC high-temperature alumina ceramic tubes work very well for thermocouples. They handle extreme heat easily. These tubes are made from very pure aluminum oxide. Common purity levels are 95%, 99%, and 99.7%. Higher purity means better performance generally. The 99.7% grade offers the best resistance against heat and chemicals. This matters in tough places.

Thermocouples measure temperature in harsh conditions. These ceramic tubes protect the thermocouple wires inside. The tubes shield the wires from physical damage and chemical attack. They are incredibly strong even at very high temperatures. This strength keeps the thermocouple working safely and accurately.

A key job is electrical insulation. Alumina ceramic stops electricity very well. This insulation is vital. It prevents stray electrical signals from interfering with the thermocouple’s tiny voltage reading. Good insulation means the temperature reading stays correct. Without it, measurements become wrong.

These tubes resist heat extremely well. They handle temperatures over 1600°C easily. This high heat resistance is critical. Thermocouples often work inside furnaces or kilns. The tube must not melt or weaken. It must protect the wires reliably over long periods.

The ceramic also resists chemical corrosion. It doesn’t react easily with molten metals or aggressive furnace gases. This stability stops the tube from breaking down. It protects the thermocouple wires from contamination. Clean wires give accurate readings longer.

Different purities suit different needs. The 95% tube is cost-effective for less severe jobs. The 99% tube balances performance and price well. The 99.7% tube is best for the most demanding, high-temperature applications. It offers top performance where failure is not an option. Industries like steel making, glass production, and power generation rely on these tough ceramic tubes. They ensure thermocouples survive and deliver precise data.

Company Profile

Alumina Technology Co., Ltd,. We focus on the research and development, production and sales of alumina products, serving the electronics, ceramics, chemical and other industries. Since its establishment in 2005, 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 Alumina Boat, Alumina Crucible, Alumina Dish, Alumina Foam Filter, Alumina Plate, Alumina Rod, Alumina Bar, Alumina Balls, Filter Alumina, Nano Alumina Powder, Spherical Alumina Powder, ect. 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 MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application

What material are MICC thermocouple tubes? They are made from alumina oxide ceramic. This material is very pure. It comes in 95%, 99%, and 99.7% purity grades. High purity means better performance in extreme heat.

What temperatures can these tubes handle? They withstand very high temperatures. The 95% tube handles up to 1600°C. The 99% tube handles up to 1700°C. The highest purity 99.7% tube handles up to 1800°C. This makes them suitable for intense industrial processes.

Why does density matter? Density affects strength and insulation. Higher purity alumina means higher density. Higher density tubes are stronger. They resist thermal shock better. They provide better electrical insulation. This protects thermocouples accurately.

Why are they good for thermocouples? These tubes shield thermocouple wires. They protect from harsh furnace atmospheres. They resist corrosion. They insulate electrically. This ensures stable temperature readings. The tubes last long in tough conditions.

What sizes are available? MICC offers many sizes. Tubes come in different diameters. They come in different lengths. This fits various thermocouple types. It fits different industrial setups. Custom sizes are possible.

(MICC High-Temperature 95% 99% 99.7% Alumina Ceramic Tube Structure Ceramic for Thermocouple Application)