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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.
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 |
Pricing
| Product | Price | Unit | Action |
|---|---|---|---|
| Discharge Plasma Joule Heating Device LMJHD-A101 | $ 89600 | Each of 1 |
Features
Double-Layer Cavity
Infrared temperature probe
Grounded power supply
High-voltage electrode
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.
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Frequently Asked Questions
1 What is a Flash Joule Heating Device?
A Flash Joule Heating Device is an apparatus designed to heats materials to high temperatures using electrical current thereby enabling material transformation in microseconds.
2 How does Flash Joule Heating Device work?
It works by passing high electrical current through a material, causing it to heat up to extremely high temperatures in microseconds.
3 What materials can be processed using Flash Joule Heating Device?
It can process a wide range of materials such as carbon-based materials, metals and ceramics.
4 Can Flash Joule Heating Device be used in medical field?
It is used to create advanced materials like graphene for medical devices, drug delivery systems and tissue engineering.
5 Can Flash Joule Heating Device be used for metal processing?
It can be used in metal processing to alter properties such as hardness, conductivity or structure.
6 Can Flash Joule Heating Device be used in environmental remediation?
It can be used in environmental remediation to convert waste materials such as plastics into useful materials like carbon nanotubes.
7 How does Flash Joule Heating Device impact material quality?
It enhances material quality by refining their structure at the atomic or molecular level.
8 Can Flash Joule Heating Device be used to produce advanced ceramics?
It can be applied in the production of advanced ceramics.
9 Can Flash Joule Heating Device improve the efficiency of thermoelectric materials?
It can enhance thermoelectric materials by altering their structure.
10 Can Flash Joule Heating Device be used to improve the performance of catalysts?
It can enhance catalyst performance by precisely controlling the temperature and creating nanoscale modifications.