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Overview
Discharge Plasma Joule Heating Device LMJHD-A101 enables rapid sintering with a maximum temperature of 2200°C. It features a vacuum-compatible chamber for material processing under controlled conditions. The water-cooling system ensures thermal stability and prevents overheating. With enhanced safety measures it ensures reliable performance. Our Discharge Plasma Joule Heating Device is ideal for demanding research settings.
Features :
Double-Layer Cavity
Infrared temperature probe
Grounded power supply
High-voltage electrode
Specifications :
| Highest Temperature | 2200℃ |
| Working Vacuum | 10 Pa |
| Accuracy | ±1% |
| Power Input | 380V |
| Power Output | 40V, 500A |
| Plasma Power Frequency Range | 5KHz to 20KHz |
| Plasma Power Supply Output | 0 to 500W |
| Output Voltage | 0 to 30KW |
| Dimensions | 1200 × 840 × 1280mm |
Applications :
Discharge Plasma Joule Heating Device LMJHD-A101 is engineered for rapid sintering, nanoparticle synthesis, advanced coating applications and high-entropy alloy fabrication.
Selection Guide :
Discharge Plasma Joule Heating Device LMJHD-A101 is designed for high-temperature material processing under vacuum conditions, making it suitable for research applications such as advanced material synthesis, plasma-assisted sintering, and phase transformation studies. With a highest temperature capacity of 2200℃, a working vacuum level of 10 Pa, and an accuracy of ±1%, it provides reliable and accurate thermal performance for demanding experiments. The system operates on a 380V power input, making it compatible with standard industrial setups. Customers should consider this model if their research requires controlled plasma discharge heating in a vacuum environment with high thermal accuracy. Additionally, checking for certifications like ISO or CE can help ensure compliance with laboratory safety and quality standards.
