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Boron Nitride Tray, BN Sample Dish, Boron Nitride Crucible, hBN Sintering Tray, and 2100C vacuum ceramic tray are mainly used in vacuum systems, high-temperature process equipment, semiconductor-related research, powder heat treatment, and laboratory ceramic handling applications. These components are designed for sample holding, thermal isolation, material containment, and structural matching in vacuum or elevated-temperature environments where dimensional consistency, chemical compatibility, and thermal stability are important.
According to different process requirements and equipment structures, these products can be machined into trays, shallow dishes, crucible-like containers, multi-cell sample carriers, lidded ceramic holders, and custom BN handling structures. They are commonly used for powder loading, pellet sintering, sample separation, evaporation-related holding, and non-wetting contact positions in laboratory and industrial thermal systems.
1. Typical Product Forms
- Boron Nitride Tray for sample holding and thermal process support
- BN Sample Dish for shallow sample loading and material separation
- Boron Nitride Crucible for material containment and high-temperature handling
- hBN Sintering Tray for pellet, powder, or part placement during heating processes
- 2100C vacuum ceramic tray for high-temperature vacuum-related ceramic applications
2. Material Features of High Purity BN
High purity boron nitride is commonly used in vacuum and high-temperature environments because of its good thermal stability, electrical insulation, low wetting behavior, and machining adaptability. These characteristics make it suitable for trays, dishes, crucibles, and custom ceramic carriers used in powder processing, crystal growth research, vacuum thermal treatment, and related material handling applications.
| Feature | Typical Benefit |
|---|---|
| Thermal Stability | Suitable for elevated-temperature vacuum applications |
| Electrical Insulation | Useful in assemblies requiring dielectric separation |
| Low Wetting Behavior | Helps reduce adhesion of some molten or softened materials |
| Machinability | Supports trays, dishes, cavities, lids, and custom holder geometries |
| Chemical Compatibility | Applicable to many vacuum and thermal process conditions |
3. Machining Features of BN Sample Dish and hBN Sintering Tray
The BN Sample Dish and hBN Sintering Tray often require controlled cavity dimensions, wall thickness, flatness, depth, corner geometry, and fitting surface details. For parts with shallow wells, multiple cells, thin walls, lids, or custom locating features, machining feasibility should be reviewed according to drawings, tolerance requirements, and actual equipment conditions. Proper machining control helps improve fitting consistency and service stability.
4. Applications of Boron Nitride Crucible and 2100C Vacuum Ceramic Tray
Boron Nitride Crucible and 2100C vacuum ceramic tray products are commonly used in vacuum furnaces, powder sintering systems, thin-film research, crystal growth laboratories, evaporation-related holding positions, and other custom thermal process assemblies. Depending on the design, these parts may involve shallow tray structures, deeper container forms, multi-pocket carriers, or custom ceramic holders for material separation and sample support.
5. Custom Machining Capability
- Custom sizes, cavity layouts, and tray geometries are available
- Support for shallow dishes, deep-wall trays, crucible-like holders, and custom ceramic containers
- Support for grooves, steps, lids, locating features, and custom matching structures
- Suitable for Boron Nitride Tray and BN Sample Dish applications
- Machining can be evaluated according to drawings and actual service conditions
6. Key Parameters to Confirm
- Outer dimensions, cavity size, depth, and wall thickness
- Tray length, width, bottom profile, and cell distribution
- Lid dimensions, locating features, and fitting surfaces
- Working temperature, vacuum level, and process atmosphere
- Sample material type, load condition, and compatibility requirements
- Cleanliness requirements and packaging expectations
7. Common Application Scenarios
- Vacuum furnace sample handling and support
- Powder sintering and pellet heating applications
- Crystal growth and material research systems
- Evaporation-related holding and thermal processing assemblies
- Custom ceramic trays and dishes for laboratory and industrial systems
8. Common Product Names
Depending on the process, drawing habits, and equipment structure, these products may be referred to as Boron Nitride Tray, BN Sample Dish, Boron Nitride Crucible, hBN Sintering Tray, or 2100C vacuum ceramic tray. Different names may correspond to different tray structures, cavity layouts, container depths, and actual service conditions.
9. Drawing Review Suggestion
For Boron Nitride Tray and related sample holding components, it is recommended to provide complete drawings, key dimensions, tolerance requirements, working temperature, vacuum level, sample material, and assembly conditions. For BN Sample Dish, Boron Nitride Crucible, and hBN Sintering Tray applications, confirming cavity layout, wall thickness, lid structure, and matching details in advance can help improve compatibility and service stability.
Related Products
Material Reference
Boron Nitride Material Overview
Technical Support: Mr. Zhang | Direct / WeChat: +86-18602175437 | Email: telice@teliceramic.com
Key components: Boron Nitride Tray, BN Sample Dish, Boron Nitride Crucible, hBN Sintering Tray, and 2100C vacuum ceramic tray.
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