Laboratory quartz glass mixing furnace tube
The laboratory quartz glass mixing furnace tube is a high-quality equipment component designed for chemical reactions, material synthesis, and gas mixing experiments.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
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Laboratory quartz glass mixing furnace tube
The laboratory quartz glass mixing furnace tube is a high-quality equipment component designed for chemical reactions, material synthesis, and gas mixing experiments. It is made of high-purity silicon dioxide (SiO₂) and has excellent transparency, high-temperature resistance, and chemical inertness, ensuring accuracy and safety in the experimental process. The internal structure of the furnace tube is specially designed to effectively promote the uniform mixing and reaction between substances, which is suitable for a variety of scientific research and industrial application scenarios.
Material properties
2.1 High purity quartz glass
The use of high-purity quartz raw materials ensures the purity and uniformity of the product, reducing the impact of impurities on the experimental results. Its transmittance is extremely high, performing excellently in both the visible and ultraviolet wavelength bands, making it suitable for spectral analysis and other optical measurement tasks.
2.2 High temperature resistance
It can withstand continuous operating temperatures of more than 1200°C, and even higher temperatures for a short time. This excellent heat resistance makes it an ideal choice for high-temperature experimental devices and furnace observation windows, while also ensuring stable operation under extreme conditions.
2.3 Chemical stability
It has good corrosion resistance to most acid-base solutions, organic solvents, and strong oxidants, and can maintain its stability even in harsh chemical environments, ensuring the safety and reliability of the experimental process.
2.4 Mechanical Strength
Despite its hard texture, it has enough toughness to resist external impact after fine processing. At the same time, its surface is smooth and easy to clean and maintain, and it is not easy to retain substances.
Structural features
3.1 Internal structure optimization
To improve mixing efficiency, quartz glass mixing furnace tubes typically have a spiral or mesh structure inside. These structures help guide the direction of airflow or liquid flow, increase the degree of turbulence, and thus accelerate the contact and reaction speed between different substances.
3.2 Flexible customization of size
According to different experimental needs, we offer a variety of standard sizes for selection, including but not limited to diameter, length, and wall thickness. In addition, we also support customers to customize products of specific shapes and specifications to meet the requirements of personalized applications.
3.3 Port connection method
Both ends are equipped with standardized flanges or other types of connection interfaces, which facilitate quick docking with other experimental devices such as heaters, cooling systems, gas supply pipelines, etc., simplify the installation process, and enhance the overall compatibility of the system.
3.4 Surface treatment options
Some models can also choose special surface treatment processes, such as polishing, coating, etc., to further improve their optical performance, wear resistance, and anti-fouling capabilities.
Application field
4.1 Chemical Reaction Research
In chemical laboratories, quartz glass mixing furnace tubes are widely used in various reaction kettles as reaction containers or transmission channels, especially when it comes to synthesis reactions carried out under high temperature and high pressure conditions.
4.2 Material Preparation
For the development of new materials, such as nanomaterials and ceramic powders, this furnace tube can be used to control the heat treatment process under an atmosphere, ensuring the quality and purity of the product.
4.3 Gas Mixing and Purification
In the field of environmental science and technology, it can be used as part of a gas mixer to achieve uniform mixing of various gases; it can also be used as a key component in exhaust gas treatment equipment to help remove harmful components.
4.4 Physics Experiment
In the physics laboratory, this furnace tube also plays an important role, such as in vacuum technology research, low-temperature physics experiments, etc., providing a transparent and stable experimental environment.
The laboratory quartz glass mixing furnace tube, with its unique structural design and excellent physical and chemical properties, has become a valuable assistant in the hands of many researchers. Whether in basic scientific research or in the development of high-end technologies, it can provide stable and reliable support and services. If you are looking for an experimental tool that is both beautiful and practical, you might want to consider this high-quality quartz glass mixing furnace tube.
Laboratory quartz glass mixing furnace tube
The laboratory quartz glass mixing furnace tube is a high-quality equipment component designed for chemical reactions, material synthesis, and gas mixing experiments. It is made of high-purity silicon dioxide (SiO₂) and has excellent transparency, high-temperature resistance, and chemical inertness, ensuring accuracy and safety in the experimental process. The internal structure of the furnace tube is specially designed to effectively promote the uniform mixing and reaction between substances, which is suitable for a variety of scientific research and industrial application scenarios.
Material properties
2.1 High purity quartz glass
The use of high-purity quartz raw materials ensures the purity and uniformity of the product, reducing the impact of impurities on the experimental results. Its transmittance is extremely high, performing excellently in both the visible and ultraviolet wavelength bands, making it suitable for spectral analysis and other optical measurement tasks.
2.2 High temperature resistance
It can withstand continuous operating temperatures of more than 1200°C, and even higher temperatures for a short time. This excellent heat resistance makes it an ideal choice for high-temperature experimental devices and furnace observation windows, while also ensuring stable operation under extreme conditions.
2.3 Chemical stability
It has good corrosion resistance to most acid-base solutions, organic solvents, and strong oxidants, and can maintain its stability even in harsh chemical environments, ensuring the safety and reliability of the experimental process.
2.4 Mechanical Strength
Despite its hard texture, it has enough toughness to resist external impact after fine processing. At the same time, its surface is smooth and easy to clean and maintain, and it is not easy to retain substances.
Structural features
3.1 Internal structure optimization
To improve mixing efficiency, quartz glass mixing furnace tubes typically have a spiral or mesh structure inside. These structures help guide the direction of airflow or liquid flow, increase the degree of turbulence, and thus accelerate the contact and reaction speed between different substances.
3.2 Flexible customization of size
According to different experimental needs, we offer a variety of standard sizes for selection, including but not limited to diameter, length, and wall thickness. In addition, we also support customers to customize products of specific shapes and specifications to meet the requirements of personalized applications.
3.3 Port connection method
Both ends are equipped with standardized flanges or other types of connection interfaces, which facilitate quick docking with other experimental devices such as heaters, cooling systems, gas supply pipelines, etc., simplify the installation process, and enhance the overall compatibility of the system.
3.4 Surface treatment options
Some models can also choose special surface treatment processes, such as polishing, coating, etc., to further improve their optical performance, wear resistance, and anti-fouling capabilities.
Application field
4.1 Chemical Reaction Research
In chemical laboratories, quartz glass mixing furnace tubes are widely used in various reaction kettles as reaction containers or transmission channels, especially when it comes to synthesis reactions carried out under high temperature and high pressure conditions.
4.2 Material Preparation
For the development of new materials, such as nanomaterials and ceramic powders, this furnace tube can be used to control the heat treatment process under an atmosphere, ensuring the quality and purity of the product.
4.3 Gas Mixing and Purification
In the field of environmental science and technology, it can be used as part of a gas mixer to achieve uniform mixing of various gases; it can also be used as a key component in exhaust gas treatment equipment to help remove harmful components.
4.4 Physics Experiment
In the physics laboratory, this furnace tube also plays an important role, such as in vacuum technology research, low-temperature physics experiments, etc., providing a transparent and stable experimental environment.
The laboratory quartz glass mixing furnace tube, with its unique structural design and excellent physical and chemical properties, has become a valuable assistant in the hands of many researchers. Whether in basic scientific research or in the development of high-end technologies, it can provide stable and reliable support and services. If you are looking for an experimental tool that is both beautiful and practical, you might want to consider this high-quality quartz glass mixing furnace tube.