Experimental vertical gas tube furnace

Experimental vertical gas tube furnace is an experimental equipment widely used in material synthesis, catalytic research, thermal analysis and other fields. Let’s take a detailed look at the characteristics, application areas and purchase precautions of experimental vertical gas tube furnace below!

A commonly used small fluidized bed vertical tube furnace (click on the image to view product details)

Equipment features
Structural features: Adopting a vertical structure, the furnace body is installed vertically, occupying a small area and making it easy to arrange in limited spaces such as laboratories. This design is also beneficial for the removal and placement of furnace tubes, and is easy to operate. Meanwhile, furnace tubes are usually made of high-quality materials such as quartz, corundum, or metal, which have good properties such as high temperature resistance and corrosion resistance, and can meet the needs of different experimental environments.
Atmosphere control: capable of pre vacuuming and introducing various protective gases such as hydrogen, argon, nitrogen, etc. By precisely controlling the atmosphere inside the furnace, a specific reaction environment can be provided for the experiment, meeting the requirements of different experiments for the atmosphere and ensuring the accuracy and reliability of the experimental results.
Temperature control: Equipped with a good temperature control system, it can achieve precise control of the temperature inside the furnace. Using precision temperature control instruments for PID temperature control, the heating power can be automatically adjusted to maintain the stability and uniformity of the temperature inside the furnace. The temperature control accuracy of some devices can reach ± 1 ℃, which can meet the requirements of high-precision experiments.
Operation and maintenance: The operation interface is simple and clear, and users can start, stop, and adjust the temperature of the equipment through the control panel or remote control system, reducing the difficulty of operation and improving work efficiency. In addition, the device adopts a modular design, which makes maintenance and replacement of components relatively easy, reducing repair costs and time costs.
Safety performance: It has overheating and disconnection protection functions. When the equipment encounters abnormal situations, it can automatically cut off the power supply to ensure operational safety. At the same time, the equipment may also be equipped with other safety protection measures, such as leakage protection, emergency shutdown, etc., further improving the safety of the equipment.

Application area
Material synthesis and preparation: can be used to synthesize new materials or prepare materials with specific structures, such as thin films, nanomaterials, etc. prepared by chemical vapor deposition (CVD) technology. Its stable and controllable heating environment helps promote chemical reactions, resulting in high-quality materials.
Material performance research: In materials science research, it can be used to study the thermal properties, phase transition behavior, mechanical properties, etc. of materials. By precisely controlling the heating temperature and heating time, it is possible to simulate the working state of materials under different conditions and gain a deeper understanding of their performance characteristics.
Chemical synthesis and catalysis: In fields such as organic synthesis and inorganic synthesis, a stable heating environment can be provided to promote chemical reactions and obtain high-purity and high-yield products. Meanwhile, it can also be used for the preparation and performance research of catalysts, evaluating performance indicators such as catalytic activity, stability, and selectivity of catalysts.
Thermal analysis: It can be used in thermal analysis techniques such as thermogravimetric analysis (TGA) and differential thermal analysis (DTA) to study the thermal stability and decomposition process of materials. It is widely used in understanding the thermal behavior of materials and optimizing synthesis processes.
Chemical analysis: In chemical analysis, it can be used for sample heating treatment, ashing and other processes for subsequent elemental analysis, organic matter analysis, etc.
Experimental teaching: It is one of the important teaching equipment in laboratories of colleges, research institutes and other institutions. It can be used to demonstrate experimental content such as chemical reaction processes, material synthesis and preparation, helping students better understand and master relevant knowledge.
New Energy and Environmental Science: In the field of new energy, such as the research and development of lithium-ion batteries, solar cells, and other technologies, it can be used to prepare electrode materials and study battery performance. In the field of environmental science, it can be used to study the pyrolysis, incineration and other treatment processes of pollutants, providing support for the development of environmental protection technologies.

Key points for purchasing
Temperature range: Determine the required temperature range based on experimental requirements and select equipment that can meet the experimental temperature requirements. At the same time, the maximum temperature and continuous operating temperature of the equipment should be considered to ensure its stability and reliability during long-term use.
Atmosphere control function: Clarify whether the experiment needs to be conducted in a specific atmosphere and select equipment with corresponding atmosphere control functions. Understand the types of gases that can be introduced into the equipment, the accuracy and stability of atmosphere control, and other parameters.
Temperature control accuracy and stability: Temperature control accuracy and stability directly affect the repeatability and accuracy of experimental results. Choosing equipment with high-precision temperature control system and good stability can be evaluated by viewing the technical parameters of the product, user evaluations, and other methods.
Furnace size and material: Select the appropriate furnace size based on the size and quantity of the experimental samples. At the same time, pay attention to the high temperature resistance, insulation effect, and corrosion resistance of the furnace material to ensure the service life and experimental quality of the equipment.
Convenient operation and maintenance cost: Choose devices with user-friendly interfaces and complete functions to reduce operational difficulty and improve work efficiency. In addition, the maintenance cost of the equipment should also be considered, including the cost of replacing vulnerable parts, repair costs, etc.
Brand and after-sales service: Choosing products from well-known brands usually provides better quality and performance guarantees. At the same time, understand the supplier’s after-sales service system, including service content such as equipment installation and commissioning, operation training, and maintenance.

Customized mini small tube diameter vertical tube furnace (click on the picture to view product details)

Overall, the experimental vertical gas tube furnace has many advantages and a wide range of applications. However, it is recommended to communicate the parameters with relevant technical personnel before choosing, so as to customize a more suitable experimental vertical gas tube furnace for your needs!Click to learn more Tube Furnaces! Or click on online customer service to learn more about product information!