new material
Quartz U-tube is a precision-engineered quartz component designed for extreme thermal resistance, superior chemical stability, and optimal fluid control in laboratory and industrial applications. Manufactured from high-purity quartz, it offers excellent durability, minimal thermal expansion, and outstanding transparency for optical and chemical processing needs. This material is widely used in analytical chemistry, gas collection systems, semiconductor fabrication, and high-temperature experimental setups, ensuring reliable performance in demanding environments.
Product Overview
Quartz U-tubes are made from high-purity quartz material, designed with excellent high-temperature resistance and chemical stability. These tubes are widely used in the photovoltaic industry, especially in heat treatment and annealing processes. The unique U-shape design of the tube allows for effective gas or liquid flow in heating furnaces and other high-temperature equipment, providing stable heat exchange performance. Quartz U-tubes can withstand temperatures up to 1000°C, making them suitable for various high-temperature and low-oxygen environments found in photovoltaic production processes.
Key Features
- High-Purity Quartz: Made from premium quartz material to ensure that no impurities are released under high-temperature conditions, preventing contamination of photovoltaic cells.
- High-Temperature Resistance: Capable of withstanding temperatures above 1000°C, ensuring smooth operation in high-temperature processes.
- Chemical Stability: Excellent resistance to corrosion, maintaining stable performance in harsh chemical environments.
- Low Thermal Expansion Coefficient: The low thermal expansion coefficient minimizes the impact of temperature fluctuations on the material, extending the tube's lifespan.
- High Thermal Conductivity: The excellent thermal conductivity of the quartz U-tube helps improve the thermal efficiency during the photovoltaic cell production process.
Applications
- Photovoltaic Industry: Primarily used in the heating furnaces and gas circulation systems during the annealing and heat treatment processes of photovoltaic cells.
- Solar Cell Manufacturing: An essential component in the high-temperature annealing processes of solar cell production, ensuring temperature stability.
- Heat Treatment & Annealing: Widely used in other high-temperature heat treatment and annealing processes in heating equipment and gas flow channels.
- Semiconductor Industry: Used in high-temperature processing and heating equipment for semiconductor materials, providing a stable process environment.
