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Ceramic crucibles are manufactured utilising a process based on amorphous silicon dioxide nanopowder systems. Experimental results indicate that these crucibles sustain operational temperatures above 1 000°C and maintain chemical stability after 250 hours of exposure to corrosive agents.
Ceramic crucibles are produced using a unique technology based on amorphous silicon dioxide nanopowder systems. They demonstrate high resistance to heat and corrosion.
The crucibles are available for various types of induction heating furnaces used in foundry operations. HF is imported and production is carried out domestically.
Ceramic crucibles are used for melting metals and alloys. They are also employed in prosthetic dentistry for the manufacture of cast crowns, bridges, and other metal components in dental clinics, laboratories and workshops.
Stanford Advanced Materials (SAM) supplies ceramic crucibles, including Aluminium Oxide boats, hot-pressed Boron Nitride (H‑BN) crucibles, Beryllium Oxide (BeO) ceramic crucibles, Aluminium Oxide crucibles and Zirconium Dioxide (ZrO2) crucibles.
High Temperature Resistance: The crucibles are manufactured from quality ceramic materials. They perform consistently under high temperatures during various heating and melting processes.
Precision Engineering: Each crucible is produced using controlled manufacturing techniques. This yields uniform wall thickness and efficient thermal conductivity, thereby facilitating accurate temperature control and even heat distribution.
Chemical Inertness: The crucibles do not chemically react with processed substances. This is essential when handling corrosive or reactive materials to ensure the purity of samples and products.
Versatile Applications: The crucibles have been evaluated for use in metallurgy, materials science and chemistry. They are suitable for both laboratory experiments and larger scale industrial processes.
Durability and Cost Efficiency: The crucibles are designed for repeated use at elevated temperatures. Their durability reduces replacement frequency, thereby lowering operational costs.
Ease of Handling: The crucibles have been designed with ergonomic shapes and sizes. This facilitates safe loading and removal from furnaces or heating devices, thereby reducing accident risk.
Available Sizes:
The crucibles are offered in several sizes to meet specific requirements. Options range from small units for controlled laboratory experiments to larger units for industrial applications.
Quality Assurance:
Each ceramic crucible undergoes strict quality control procedures. Test data confirm that they meet set performance and durability standards. A customer satisfaction guarantee supports all products.
Metallurgy: Used for melting, casting and alloy production of metals.
Materials Science: Used for the synthesis and processing of ceramic materials.
Chemistry: Applicable in high temperature reactions, sample preparation and analysis.
Research and Development: Employed in scientific investigations and experiments.
Jewellery Manufacturing: Used for the precise melting and casting of metals in jewellery production.
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