High-Throughput Joule Heating Device
Product Value
Advantages of High-Throughput Material High-Temperature Experimental Devices:
1. Enhanced Experimental Efficiency
a. Batch Processing: Simultaneously handle multiple samplesshortening the experimental cycle.
b. Rapid Screening: Quickly identify high-quality materials under high,temperature conditions.
2. Reduced Experimental Costs
a. Resource Savings: Reduce energy and raw material consumption persample.
b. Increased Equipment Utilization: Efficiently complete moreexperimental tasks, improving economic benefits.
3. Diverse Material Combinations
a. Prepare samples with various components and structuresexpanding material application areas and promoting industrydevelopment.
Graphene and Nanomaterials
Metastable Micro-Nano Materials
Waste Recycling Materials
Product Parameters
Temperature Measurement Range: | 1000K-3000K(customizable) |
Temperature Measurement Accuracy: | ±5‰ |
Power Supply Voltage: | 380V-50Hz (customizable) |
Overall Dimensions: | Customizable |
Temperature Measurement Repeatability: | ±3‰ |
Multifunction Controller: | Power Indication, Operation Indication, Power Control, Electrode Temperature Detection |
Data Acquisition Frequency: | 1-10kHz |
Temperature Range:Sample Platform: | Up to 3000K |
Vacuum level: | -0.1-0.1MPa |
Chamber Operating Mode: | Vacuum, Ambient Inert Gas/Nitrogen Cycle (optional)/Ammonia Cycle (optional) Protection |
Flash Sintering Fixtures: | Copper, Quartz Tube, Graphite |
Temperature Probe: | Infrared Non-Contact, Accuracy ±1% FS |
Electrode Material: | Copper/Graphite |
Operating Method: | Touchscreen Operation |
Gas Line Specifications: | 1 Inlet, 1 Exhaust, 1 Vacuum |
Cooperation Cases
