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

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

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

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

This 1600 Level Cylindrical Alumina Porcelain Rod is made for challenging semiconductor work. It makes use of high-grade 99% Alumina (Al2O3). This high pureness gives excellent performance. The pole deals with severe heat up to 1600 degrees Celsius. This is crucial in warm semiconductor procedures.

Its shape is an accurate cyndrical tube. This makes it simple to fit into makers. The surface is very smooth. This smoothness avoids contamination. Keeping points tidy is crucial in semiconductor job. The pole is likewise really difficult. It withstands wear and scraping well. This suggests it lasts longer.

Thermal shock resistance is a large and also. It can go from very hot to cooler rapidly. The rod does not break conveniently. This reliability issues in fast-changing process steps. Electrically, it’s a top insulator. It stops electric currents efficiently. This prevents unwanted existing circulation in delicate tools.

This rod works perfectly in semiconductor furnaces. It’s terrific for wafer handling parts. Probes and insulation parts benefit from it also. It performs well in CVD and diffusion systems. These systems require materials that hold up. The pole does this work.

It handles harsh gases and plasmas without trouble. This is common in semiconductor fabs. The material stays steady. It does not react with most chemicals. This maintains procedures consistent. Dimensional security is one more key point. It keeps its shape and size under warm. Precision is maintained.

Using this pole brings actual advantages. It reduces particle generation. Less contamination means far better chip returns. Its lengthy life reduces just how typically you alter components. This saves cash and time. Efficiency stays trustworthy run after run. High purity guarantees no unwanted doping. This safeguards the fragile semiconductor products. The rod is simply a reputable, high-performance solution for requiring thermal and electrical insulation tasks.

(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 severe warmth in semiconductor manufacturing. It stands up to temperature levels reaching 1600 degrees Celsius. This is important for high-temperature processes. The product is 99% pure alumina (Al2O3). High purity avoids contamination of sensitive silicon wafers. Contamination damages chips.

Its round shape functions well for shafts and pins. It supplies outstanding electric insulation. This prevents undesirable currents in devices. Its thermal insulation homes are strong. This protects surrounding parts from intense heat.

In wafer handling, this pole is important. It forms wafer boats holding lots of wafers. It places wafers inside heating systems. It works as architectural pins in susceptors holding wafers throughout slim movie procedures. It deals with wafers thoroughly.

The pole functions as insulation in vital locations. It separates heating units in furnaces and diffusion systems. It shields parts from extreme plasma in etching and deposition tools. Its high temperature resistance is vital right here. It preserves security under thermal stress and anxiety.

It supplies sturdy insulation for thermocouples determining temperature level. Accuracy is important. It functions well in harsh chemical environments. It resists assault from acids, bases, and hostile gases typical in fabs. This ensures long service life.

Its mechanical strength is excellent. It keeps shape under load at high temperatures. Low thermal development stops splitting throughout quick home heating or cooling cycles. Integrity is key for semiconductor tools. Downtime is pricey. This rod supplies consistent performance. It helps keep high yields.

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 5 FAQs about the 1600 Degree Cylindrical 99% Alumina Ceramic Rod Shaft Al2O3 Insulation Stick for Semiconductor:

What temperature can this alumina rod handle?
This rod withstands temperatures up to 1600 degrees Celsius. It keeps its shape and strength at extreme heat. Semiconductor processes need this high heat resistance.

Why use alumina ceramic in semiconductors?
Alumina ceramic doesn’t conduct electricity. It’s an excellent electrical insulator. This prevents stray currents in sensitive semiconductor tools. High purity alumina avoids contamination.

How pure is the Al2O3 material?
The material is 99% pure alumina (Al2O3). High purity ensures minimal impurities. Impurities can cause problems in semiconductor manufacturing. This purity level meets industry demands.

What sizes are these rods available in?
The rods are cylindrical shafts. Diameter and length vary. Common sizes exist. Custom sizes are often possible. Check specific product listings for available dimensions.

Where exactly is this rod used?
This rod is used inside semiconductor furnaces and processing equipment. It acts as insulation. It supports components. It positions wafers. It handles high heat and electrical isolation tasks reliably.

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