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NEWS
The CVD (Chemical Vapor Deposition) electric furnace used in the laboratory plays an important role in material preparation, scientific research, and new material development. Let's take a look at the characteristics of CVD electric furnaces used in the laboratory below!
1. High temperature performance
Ultra high temperature: Some CVD electric furnaces, such as the 1700 degree dual temperature zone CVD tube furnace, can reach a heating temperature of up to 1700 ℃, which can meet various experimental and process requirements with strict requirements for high temperature.
Uniform heating: The internal design of CVD electric furnace is reasonable, ensuring uniform temperature distribution inside the furnace, which is conducive to improving experimental results and product quality.
2. Precise control
Independent temperature zone: Some CVD electric furnaces adopt a dual temperature zone design, which can achieve independent control of two different temperature zones, providing greater flexibility and operability for complex experiments and process.
Precise temperature control: Equipped with a precise temperature controller, it can achieve precise temperature control. Some models of electric furnaces can achieve an accuracy of ± 1 ℃, ensuring the accuracy and stability of the experiment.
3. Gas management
Multiple growth modes: CVD systems are compatible with various mainstream growth modes such as atmospheric pressure and micro positive pressure, which can meet different experimental needs.
Gas delivery and activation: Through a precise gas delivery system, the reaction gas is delivered to the reaction chamber and activated under high temperature and possible plasma excitation, enhancing its chemical activity.
4. Efficient sedimentation
High quality thin films: CVD electric furnaces can prepare high-quality, large-area thin films, such as graphene and other carbon materials, with sizes up to several centimeters.
High sedimentation efficiency: The composition of the film is accurate and controllable, with a wide range of ratios; The thickness range is wide, from several hundred angstroms to several millimeters, which can achieve thick film deposition and mass production.
5. Wide applicability
Wide application fields: CVD electric furnaces are suitable for various CVD processes and high-temperature experimental research, such as semiconductor manufacturing, MEMS manufacturing, optics and optoelectronics fields, etc.
Multifunctionality: In addition to being used in CVD experiments, it can also be used in research fields such as vacuum sintering, preparation of nanomaterials sintered in vacuum protective atmosphere, and preparation of battery materials.
6. Stable and reliable
High reliability: Furnace tubes are often made of high-purity materials (such as high-purity quartz tubes), and both ends are sealed with stainless steel high vacuum flanges to ensure airtightness and high temperature resistance.
Stable operation: It can maintain stable operation at high temperatures, reduce errors, and improve the accuracy and reliability of experiments.
Touch screen vacuum laboratory CVD electric furnace (click on the image to view product details)
Overall, CVD electric furnaces used in laboratories have characteristics such as high temperature performance, precise control, gas management, efficient deposition, wide applicability, and stability and reliability. These characteristics make CVD electric furnaces have broad application prospects in material preparation, scientific research, and new material development.Click to learn more CVD devices! Or click on online customer service to learn more about product information!
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