Boron nitride (BN) is an advanced ceramic material composed of boron and nitrogen atoms, known for its exceptional thermal stability and chemical resistance. With a chemical formula of BN, it exists in several crystalline forms, each offering unique properties:
- Hexagonal Boron Nitride (h-BN) – The most stable form, structurally similar to graphite. It is soft, lubricious, and widely used in high-temperature applications.
- Cubic Boron Nitride (c-BN) – A diamond-like structure with extreme hardness, second only to diamond, but with superior thermal and chemical resistance.
- Wurtzite Boron Nitride (w-BN) – A rare form, slightly softer than c-BN, with high thermal conductivity.
Due to its high thermal conductivity, electrical insulation, and lubricity, boron nitride is used in cutting tools, lubricants, cosmetics, and high-performance crucibles.
What is a Boron Nitride Crucibles?
A boron nitride crucible is a high-temperature ceramic container made from hexagonal boron nitride (h-BN). These crucibles are prized for their:
✔ Extreme thermal stability (withstands temperatures above 3000°C under inert gas)
✔ Low wettability to molten metals (prevents contamination)
✔ Excellent thermal shock resistance (resists cracking under rapid temperature changes)
✔ Electrical insulation (ideal for semiconductor and electrolysis applications)
Unlike graphite, BN crucibles do not react with molten salts or metals, making them perfect for metal casting, crystal growth, and high-purity material processing.
Key Properties of Boron Nitride Crucibles
| Property | Value |
| Molecular Weight | 24.82 g/mol |
| Appearance | White, smooth ceramic |
| Melting Point | 2973°C (5383°F) |
| Density | 1.9–2.1 g/cm³ |
| Thermal Conductivity | 29–96 W/m·K |
| Thermal Expansion | 0.54–18 µm/m·K |
| Electrical Resistivity | 10¹³–10¹⁵ Ω·cm |
| Young’s Modulus | 14–60 GPa |
These properties make BN crucibles ideal for extreme environments, including vacuum furnaces, molten salt electrolysis, and semiconductor manufacturing.
Top Applications of Boron Nitride Crucibles
BN crucibles are widely used in industries requiring high purity, thermal stability, and corrosion resistance:
✅ Metal & Alloy Processing – For melting and casting reactive metals (e.g., titanium, aluminum) without contamination.
✅ Semiconductor Manufacturing – As crucibles for gallium arsenide (GaAs) and silicon crystal growth.
✅ Molten Salt Electrolysis – Used in TiO₂ reduction and rare earth metal extraction due to chemical inertness.
✅ High-Temperature Furnaces – As insulators and heat shields in vacuum and inert gas environments.
✅ Electronics & Optics – For microwave-transparent windows, insulators, and laser printer components.
✅ Automotive Sensors – Mixed with binders for oxygen sensor sealing in exhaust systems.
Packaging & Quality Assurance
To ensure optimal performance, BN crucibles are carefully packaged to prevent damage during shipping. Reputable manufacturers offer:
✔ High-purity BN (up to 99.99%) for superior thermal resistance
✔ Custom packaging for research and industrial needs
✔ ASTM-compliant testing for consistent quality
Conclusion: Why Choose BN Crucibles?
Boron nitride crucibles outperform graphite, alumina, and zirconia in:
✔ Thermal shock resistance
✔ Chemical inertness
✔ Molten metal compatibility
✔ Long-term durability
Whether for research labs, metal refining, or semiconductor production, BN crucibles provide unmatched reliability in extreme conditions.
Looking for high-quality BN crucibles? Choose a trusted supplier with hot-pressed, high-density boron nitride for the best performance.ucibles ideal for extreme environments, including vacuum furnaces, molten salt electrolysis, and semiconductor manufacturing.