L&L T2345 DaVinci Professional Kiln Stacking System | Precision Solution for High-Temperature Firing of Ceramics
The L&L T2345 DaVinci professional kiln stacking system is specially designed and developed for the T2345 model kiln. It includes 15 rectangular high-temperature load-bearing plates and 72 modular support columns of various specifications. It is made of high-performance NSiC ceramic composite material and is suitable for various high-temperature firing applications. It can achieve significant advantages such as uniform temperature distribution, significantly reduced energy consumption, and flexible space layout. The overall purchase saves 28% of expenses compared to purchasing them separately.
Component configuration details
| Component Name | Specifications | quantity |
|---|---|---|
| Rectangular high temperature bearing plate | 11 inches × 22 inches × 5/16 inches | 15 items |
| Composite support column | 40mm × 40mm × 1/2 inch (approximately 12.7mm) | 12 items |
| Composite support column | 40mm × 40mm × 1 inch (approximately 25.4mm) | 12 items |
| Composite support column | 40mm × 40mm × 2 inches (approximately 50.8mm) | 12 items |
| Composite support column | 40mm × 40mm × 4 inches (approximately 101.6mm) | 12 items |
| Composite support column | 40mm × 40mm × 6 inches (approximately 152.4mm) | 12 items |
| Composite support column | 40mm × 40mm × 8 inches (approximately 203.2mm) | 12 items |
Core material: NSiC advanced ceramic material
It uses advanced composite ceramic materials of silicon nitride and silicon carbide, which have excellent thermal conductivity, excellent thermal shock resistance and lightweight structure. It can work stably and continuously in a high temperature environment of 1350℃, significantly improving firing efficiency and finished product quality.
System technical advantages
The L&L T2345 DaVinci professional kiln stacking system achieves four key technological benefits through the coordinated operation of components: balanced temperature distribution, effective energy consumption control, rational space utilization, and optimized economic costs. It is specifically engineered to suit the structural characteristics of the T2345 kiln, fully leveraging the overall performance of the kiln.
Temperature distribution optimization
The rectangular support plate, together with the multi-specification support columns, forms a hierarchical heat exchange structure, which significantly improves the uniformity of heat distribution in the kiln and achieves the firing goal of consistent glaze color and stable body shrinkage.
Double improvement in energy consumption efficiency
Lightweight, thin-walled components reduce heat capacity by about 35%, increase heating speed by more than 25%, and save 20-28% of energy consumption per firing, making them particularly suitable for continuous production and educational training applications.
Spatial layout flexibility
It offers multi-level height configuration options from 0.5 inches to 8 inches, allowing for flexible adjustment of the interlayer distance to accommodate the mixed placement of ceramic and sculpture works of different sizes, increasing the utilization rate of kiln space by more than 45%.
Long-term economic practicality
Compared to purchasing individual components, the entire system saves nearly 30% in costs, and the material durability is significantly better than traditional refractory products, reducing the frequency of long-term maintenance and replacement, resulting in a significant overall cost advantage.
Dedicated adapter design
The design is specifically tailored to the structural parameters of the T2345 DaVinci kiln. All component dimensions have been precisely calibrated to ensure that the gap between the component and the kiln wall is ≤2.5 mm after installation, and the heat efficiency loss is less than 4%.
Application areas
- Multi-layer glaze firing application in art ceramics studio
- Standardized practical training for ceramics courses in teaching units
- Optimization of mass production processes in small and medium-sized pottery workshops
- Research and development of special high-temperature glazes (such as copper red glaze and crystalline glaze)
Usage Guidelines
Before initial use, it is recommended to pre-treat the material by heating it to 950°C under no-load at a heating rate of 3-6°C/minute. During routine stacking, each support plate should be fixed with at least 4 support columns, and the verticality of the support columns and the flatness of the support plate should be checked regularly to ensure stable and reliable firing quality.