Quartz crucible

Quartz crucible

The Quartz Crucible, crafted from high-purity fused silica, is designed to meet the stringent requirements of high-temperature processing and material synthesis. With exceptional thermal resistance and chemical stability, it serves as a reliable vessel in semiconductor, photovoltaic, laboratory, and industrial applications. Customizable to client specifications, this product offers superior performance and durability.

Introduction
Our quartz crucibles are manufactured using precision flameworking techniques, ensuring high dimensional accuracy and excellent surface quality. Made from top-grade fused silica, they are designed for applications requiring extreme purity, thermal stability, and resistance to chemical corrosion. These crucibles are essential components in processes such as crystal growth, metal melting, and high-temperature chemical reactions.

Features

High-Purity Fused Silica Material: Outstanding resistance to thermal shock, chemical corrosion, and contamination.
Advanced Flameworking Process: Delivers superior surface smoothness, accurate geometry, and robust mechanical strength.
High Thermal Resistance: Suitable for continuous use in temperatures exceeding 1000°C.
Excellent Optical Clarity: Ensures visual inspection of material reactions when required.
Customizable Specifications: Shapes, dimensions, wall thickness, and surface treatments can be tailored to client needs.

Advantages
Quartz crucibles offer significant advantages over ceramic or metal alternatives, including superior purity, minimal contamination risk, and greater durability under extreme conditions. Their inertness makes them ideal for sensitive applications where material integrity is critical. Custom production capabilities allow seamless integration into specific process requirements.

Benefits

Enhanced Process Reliability: Maintains structural integrity and chemical stability during prolonged high-temperature exposure.
Improved Product Quality: Minimizes impurity introduction, ensuring high-purity results in crystal growth and semiconductor applications.
Long Service Life: High resistance to thermal cycling and mechanical stress reduces replacement frequency.
Flexible Customization: Full support for bespoke designs based on customer drawings and process requirements.
Trusted Supply Chain Partner: Reliable delivery and consistent product quality for industries with strict material standards.

Application
Widely used in semiconductor manufacturing, photovoltaic industry, metallurgy, laboratory research, and chemical processing for crystal pulling, material synthesis, and high-temperature reactions.