Product Name: Ceramic Basket Crucible Sample Trays
Product Material: High-Purity Alumina (Al₂O₃)/Zirconia (ZrO₂)
Material Characteristics: Excellent chemical inertness, bio-compatibility, high temperature resistance, thermal shock resistance, low ion release
Application Fields: Laboratory sample processing, pharmaceutical testing, biological research, material analysis, quality control
Application Industries: Pharmaceutical, biotechnology, environmental monitoring, academic research, food safety
Processing Challenges: Complex basket structure forming, thin-wall integrity control, surface purity maintenance, thermal stress management
Processing Flow: High-purity powder preparation → Injection molding → High-temperature sintering → Precision machining → Surface treatment → Quality inspection → Packaging
Delivery Time: 25-35 days for standard products, 40-50 days for customized designs
Ceramic Basket Crucible Sample Trays are precision-engineered laboratory components specifically designed for applications requiring exceptional chemical inertness, reliable performance in aggressive chemical environments, and outstanding bio-compatibility. Manufactured from high-purity alumina and zirconia ceramics, these sample trays deliver superior performance in analytical and research applications, outperforming traditional laboratory ware through their excellent chemical resistance, thermal stability, and contamination-free characteristics.
Key Features:
Exceptional Chemical Inertness - Demonstrates outstanding resistance to strong acids, alkalis, and organic solvents with chemical stability exceeding 99.8%, ensuring zero contamination and maintaining sample integrity in critical analytical procedures and pharmaceutical testing.
Excellent Bio-compatibility - Meets ISO 10993-1 bio-compatibility standards with certified non-cytotoxicity, making them ideal for pharmaceutical testing and biological sample processing where material safety and non-reactivity are paramount requirements.
Superior Thermal Stability - Withstands continuous operation at temperatures up to 1600°C while maintaining structural integrity and chemical resistance, suitable for high-temperature sample processing and thermal analysis applications.
Minimal Ion Release - Ultra-low ion release rates (<0.05 ppm) ensure no interference with sensitive analytical results, providing reliable performance in trace element analysis and pharmaceutical quality control applications.
Excellent Thermal Shock Resistance - Withstands rapid temperature changes of up to 1000°C without cracking, maintaining structural reliability in applications involving alternating heating and cooling cycles during sample processing.
