Overview of 99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory

99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory is precision-engineered vessels made from 99%+ pure aluminum oxide (Al₂O₃). Designed for high-temperature and corrosive environments, they are widely used in semiconductor processing, heat treatment, CVD/PVD applications, and laboratory experiments. Their superior thermal and chemical stability ensures reliable performance under extreme conditions.

Key Features of 99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory

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

Superior Chemical Resistance – Resists acids, alkalis, and aggressive gases.

High Mechanical Strength – Durable and resistant to thermal shock.

Precision Design – Smooth surfaces & uniform dimensions for consistent processing.

Customizable Shapes & Sizes – Available in standard and tailored configurations.

(99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory)

Specifications of 99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory

This ceramic crucible boat deals with extreme warmth. It’s made from 99% pure alumina ceramic, basically diamond. That purity makes it exceptionally hard. It holds up against temperature levels skyrocketing past 1700 ° C. This is vital for laboratories melting steels, growing crystals, or testing materials under severe warm.

The high purity issues for an additional reason. It stops contamination. Your valuable samples remain pure. The crucible will not leak unwanted elements into your job. It maintains chain reactions tidy and results precise. You obtain trusted information each time.

Thermal shock resistance is a vital function. This crucible does not fracture easily when temperatures alter quick. Going from warm to cool down rapidly is normally risky. This watercraft manages it. It suggests less breakage and longer life in active labs. You conserve money changing them much less frequently.

Its form is easy and sensible. The watercraft layout functions well for dissipation tasks. You put examples inside easily. It fits typical lab tube furnaces and kilns without inconvenience. This conserves configuration time. You simply placed it in and start your experiment.

The material is normally inert. It withstands strike from many acids and alkalis. Cleaning is straightforward. You can frequently just heat it clean or use usual laboratory solvents. This sturdiness makes it a dependable device for repeated experiments. Laboratory technologies appreciate equipment that lasts. It endures the daily work of high-temperature research and handling.

(99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory)

Applications of 99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory

This ceramic watercraft manages tough laboratory heat. It’s made from virtually pure alumina. This product resists extremely high temperatures well. The boat form benefits evaporation tasks. You place products inside it. Warmth originates from below or around. This setup pressures materials to evaporate. The vapor then deposits onto substratums. Scientists use this for finishing slim films. It prevails for electronic devices research. Semiconductor layers usually create by doing this.

The boat stands up to repeated thermal shocks. Labs warm it quick. They cool it down promptly. Other materials might crack. This alumina watercraft survives. Its smooth surface area prevents sticking. Examples launch cleanly after heating. Contamination risks stay low. Pureness matters in sensitive experiments. This boat maintains points clean. Metal vapors will not react with it. Ceramic remains inert.

Researchers select it for melting small sets. It holds steels or salts safely. The high pureness prevents adding impurities. You see it in material science labs. People research study crystal growth inside it. It serves well for annealing procedures. Examples require constant, high warm. This watercraft provides that.

Its resilience conserves cash. Labs do not replace it often. It handles harsh chemicals much better than steel. Acids or bases won’t easily damage it. The form fits common lab furnaces. Technicians locate it very easy to make use of. It slides into tube heaters efficiently. Handling requires simple tongs. This crucible is a trustworthy device. It supports demanding thermal job.

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 99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory

What material is this crucible?
It uses 99% alumina ceramic. This is pure corundum. That means high purity. It handles extreme heat well. Contamination risks stay low.

How hot can it get?
It handles 1700°C maximum. Short bursts work fine. Long-term use stays safe below 1600°C. Thermal shock resistance is good. Avoid sudden huge temperature drops.

What chemicals attack it?
It resists most acids. Alkalis cause little damage too. Strong alkalis at high heat might harm it slightly. Molten metals won’t stick. Fluxes are generally safe.

How do I clean it?
Let it cool completely first. Use warm water and mild soap. A soft brush removes debris. Avoid harsh abrasives. For stubborn residue, soak in dilute acid. Rinse thoroughly with water. Dry it completely before reuse.

How long does it last?
Lifespan depends heavily on use. Frequent high-heat cycles shorten it. Rough handling causes cracks. Gentle use and proper cooling extend life. Watch for cracks or major surface changes. Replace it when damaged.

(99% Corundum Ceramic Crucible Evaporation Alumina Ceramic Boat for Laboratory)