L&L JD2918-3 Jupiter Professional Ceramic Kiln Stacking System | 42-Piece Precision Stacking Solution
This system is custom-designed for the JD2918-3 Jupiter kiln, crafted from silicon nitride-bonded silicon carbide (NSiC) ceramic composite material, including semi-circular shelves and multi-sized support posts. It achieves uniform multi-layer firing, saving 25% of the total cost compared to purchasing individual components, making it ideal for mass production and training scenarios.
System Configuration Details
| Component Name | Specification | Quantity |
|---|---|---|
| Semi-circular High-temperature Shelf | 25 inches diameter × 5/16 inches thick | 6 pieces |
| Square Support Post | 40mm × 40mm × 1/2 inch (approx. 12.7mm) | 6 pieces |
| Square Support Post | 40mm × 40mm × 1 inch (approx. 25.4mm) | 6 pieces |
| Square Support Post | 40mm × 40mm × 2 inches (approx. 50.8mm) | 6 pieces |
| Square Support Post | 40mm × 40mm × 4 inches (approx. 101.6mm) | 6 pieces |
| Square Support Post | 40mm × 40mm × 6 inches (approx. 152.4mm) | 6 pieces |
| Square Support Post | 40mm × 40mm × 8 inches (approx. 203.2mm) | 6 pieces |
Core Technology: NSiC Ceramic Composite Material
All components are made from silicon nitride-bonded silicon carbide (NSiC) ceramic composite material, featuring excellent high-temperature stability, low thermal expansion coefficient, and lightweight properties, significantly enhancing kiln operating efficiency and durability.
Key Advantages Analysis
The L&L JD2918-3 Jupiter professional ceramic kiln stacking system, through modular component matching, adapts to the internal structure of the JD2918-3 kiln, ensuring a gap of ≤3mm between the installed system and the kiln wall, maximizing thermal circulation efficiency, and saving 25% of the total cost compared to purchasing individual components.
Multi-layer Uniform Heat Field Technology
Semi-circular shelves combined with multi-height support posts create three-dimensional heat flow channels, ensuring uniform temperature distribution within the kiln, reducing glaze color differences and body shrinkage and deformation.
Optimized Energy Consumption & Rapid Firing
The lightweight and thin design reduces heat capacity, increasing kiln heating speed by approximately 20% and reducing single firing energy consumption by 15%-25%, suitable for intensive production demands.
Smart Modular Stacking System
Six different post heights support free combination of layer heights, adapting to mixed firing of works of various sizes and maximizing the utilization of internal kiln space.
Integrated Procurement Value
The complete set saves approximately 25% of the total cost compared to purchasing individual components, and all components are fully compatible, avoiding installation issues caused by dimensional errors.
Precise Adaptation and Usage Recommendations
This system is specially designed for the internal structure of the JD2918-3 Jupiter kiln. All component dimensions have been precisely calculated to ensure a gap of ≤3mm between the installed system and the kiln wall for optimal thermal circulation.
Applicable Scenarios
- Stack firing of medium to large-sized pieces in pottery studios
- Standardized practical training in ceramic education institutions
- Batch production of artistic ceramics
- Experimental firing of high-temperature glazes (e.g., crystalline glazes, copper red glazes)
Operating Tip: Before first use, it is recommended to fire empty at a rate of 5°C/minute up to 800°C for material stabilization. During daily stacking, ensure the horizontal error of each shelf layer is ≤1°.