Overview of 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor

1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor is precision-engineered from 99%+ pure aluminum oxide (Al₂O₃), offering outstanding mechanical strength and thermal stability. With a maximum operating temperature of 1800°C, these rings are widely used in high-wear applications such as bearings, seals, insulators, and semiconductor processing equipment. Their exceptional hardness and corrosion resistance make them ideal for demanding industrial environments.

Key Features of 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor

Extreme Temperature Resistance – Stable up to 1800°C with minimal thermal expansion

Superior Wear Resistance – Harder than steel, ensuring long service life

Excellent Electrical Insulation – High dielectric strength for electronic applications

Chemical Inertness – Resists acids, alkalis, and corrosive gases

Precision Machined – Tight tolerances for consistent performance in mechanical assemblies

(1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor)

Specifications of 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor

This 1600 level round alumina ceramic rod fits demanding semiconductor tasks. It’s made from 99% pure Al2O3. This high purity makes certain exceptional chemical stability. The rod resists assault from lots of extreme chemicals used in chip making. Its structure also provides fantastic electrical insulation. This protects against unwanted current leak in sensitive equipment.

The pole manages extreme warm well. It stands up to constant use up to 1600 degrees Celsius (2912 ° F). This makes it excellent for high-temperature semiconductor furnaces and procedures. It also makes it through sudden temperature level adjustments. This thermal shock resistance protects against breaking throughout rapid heating or cooling down cycles.

Physically, this pole is a straight cyndrical tube. Sizes range from 1mm to 30mm. Sizes increase to 500mm. Custom-made sizes are typically feasible. Manufacturing concentrates on accuracy. Tolerances are limited. This makes certain regular performance and dependable fit in assemblies. The surface area is smooth. This lessens rubbing and particle generation.

Mechanical strength is high. The rod provides good flexural strength. It withstands bending forces properly. Its firmness opponents lots of steels. This supplies longevity against wear and abrasion. The material is naturally stiff. It maintains its shape under lots.

Use this pole for furnace components, insulation supports, sensing unit protection tubes, and wafer handling parts within semiconductor tools. It provides reputable insulation and thermal monitoring where lesser materials stop working. Its inert nature maintains processes tidy.

(1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor)

Applications of 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor

This alumina ceramic rod manages extreme heat. It works well up to 1600 degrees Celsius. That’s very warm. Semiconductor manufacturers need parts that will not fail under high temperatures. This pole fits completely. Its primary job is insulation. It quits electricity from streaming where it should not. This is crucial in semiconductor tools. Power must go only via specific courses on tiny chips. This rod keeps points secure.

It stays strong at white-hot temperature levels. Several metals melt or bend way before 1600C. This ceramic rod remains rigid. It won’t warp. This implies tools using it remain precise. Accuracy matters a whole lot when constructing silicon chips. Also tiny movements can spoil a chip. The rod’s shape is cylindrical. This makes it helpful for shafts and sustains within devices. Devices like wafer trainers commonly use it.

The product is 99% pure alumina. That’s Al2O3. This pureness matters. It makes the pole really resistant to chemicals. Semiconductor processes usage harsh gases and acids. The pole won’t rust easily. It additionally stays clean. It does not shed fragments. Contamination ruins fragile semiconductor wafers. This pole helps maintain points spotless.

Try to find it inside diffusion tubes. It holds wafers in place while cooking. It operates in CVD chambers as well. It places components where gases react. High-temperature heaters rely upon it. It works as insulation around heating elements. Plasma etchers use it. It insulates electrodes producing the plasma. It deals with the heat and electrical stress.

It uses outstanding thermal shock resistance. Equipment warms up and cools quickly. The pole will not split from unexpected temperature changes. This dependability is essential. Downtime in a great prices big cash. This pole helps equipments run much longer. It supplies stability. Semiconductor refines push materials hard. This alumina rod meets that challenge. It manages the warm, the electricity, and the chemicals. It maintains manufacturing moving.

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 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor

Here are five common questions about our 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shafts:

What makes these rods good for semiconductor work?
The rods are made from 99% pure Alumina (Al2O3). This high purity is critical. It prevents contamination in sensitive semiconductor processes. The material also resists chemical attack from common process gases and etchants.

How hot can these alumina rods handle?
These rods withstand temperatures up to 1600 degrees Celsius (2912°F). They maintain strength and dimensional stability at these extreme heats. This is essential inside semiconductor furnaces and high-temperature tools.

Are the rods a standard size?
We offer standard diameters and lengths. Common sizes are available for immediate shipment. Custom diameters and lengths are also possible. We manufacture to precise specifications for consistent performance.

Where exactly are these ceramic rods used?
They serve many roles in semiconductor manufacturing. Common uses include furnace furniture, wafer handling arms, insulation pins, thermocouple protection tubes, and process chamber components. Their electrical insulation and thermal stability are key benefits.

Do I need special care handling these rods?
Handle them carefully. Alumina ceramic is very hard but brittle. Avoid sharp impacts or dropping them. Thermal shock is also a risk. Avoid sudden, extreme temperature changes whenever possible. Proper handling prevents cracks or breakage.

(1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2o3 Insulation Stick for Semiconductor)