Zirconia Ceramic Crucibles – Engineered for the Most Demanding Applications

Our yttria-stabilized zirconia (YSZ) crucibles represent the ultimate solution for applications where extreme temperature stability, unparalleled chemical resistance, and exceptional mechanical strength are non-negotiable. Unlike conventional ceramics, zirconia's unique phase transformation toughening mechanism provides extraordinary fracture resistance and longevity under the most severe thermal and chemical environments. We specialize in fully customizable zirconia crucibles, engineered to your exact specifications for composition, geometry, size, and surface finish.

Manufactured from high-purity yttria-stabilized zirconia (typically 3-8 mol% Y₂O₃), our crucibles maintain a stable cubic crystal structure that prevents destructive phase transitions during thermal cycling. This stabilization is key to achieving:

• Ultra-high temperature capability with minimal thermal degradation

• Superior fracture toughness (highest among all advanced ceramics)

• Exceptional wear and erosion resistance

• Very low thermal conductivity for excellent thermal insulation

• Extreme Temperature Range: Suitable for continuous use up to 2200°C (3992°F) in oxidizing atmospheres, and even higher in inert or reducing environments.

• Outstanding Thermal Shock Resistance: Withstands temperature differentials exceeding 400°C without cracking, thanks to zirconia's low thermal expansion coefficient and high toughness.

• Superior Chemical Inertness: Virtually impervious to attack from most acids, alkalis, and corrosive molten metals (including reactive metals like titanium and zirconium).

• Non-wetting Surface: Minimal adhesion to most molten materials, ensuring easy sample removal and reducing contamination.

• Excellent Insulating Properties: Low thermal conductivity reduces heat loss and improves process efficiency.

We don't just sell standard products – we engineer solutions. Our full customization capabilities include:

A. Material composition customization:

• Yttria content: 3%, 5%, or 8% Y₂O₃ stabilization

• Alternative stabilizers: Magnesia (MgO), calcia (CaO), or ceria (CeO₂)

• Composite formulations with alumina or other additives

• Porosity control: From fully dense to controlled porosity structures

B. Customization of geometric shapes and dimensions:

• Capacity Range: From micro-crucibles (0.1 mL) to industrial sizes (5000+ mL)

• Standard Shapes: Cylindrical, conical, rectangular, boat-style

• Complex Geometries: Multi-compartment, tapered walls, custom lids with ports

• Special Features: Integral pouring spouts, handling lugs, flange mounts, threaded fittings

C. Surface treatment and finishing:

• Surface finishes: As-fired, ground, polished (to optical quality)

• Internal surface optimization for specific applications

• Special coatings or glazes for enhanced performance

• Laser marking or engraving for identification

• Advanced Materials Research: Processing of superalloys, intermetallics, and refractory metals

• Precious Metal Refining: Platinum, palladium, rhodium, and gold processing

• Glass & Ceramic Industry: Melting of specialty glasses and technical ceramics

• Semiconductor Manufacturing: Crystal growth and wafer processing

• Aerospace & Nuclear: Processing of reactive and radioactive materials

• Analytical Chemistry: Sample preparation for ICP-MS, AA, and other trace analysis

• Pharmaceutical Research: High-temperature synthesis of active compounds