Customized Outside Square Inside Round Capillary Quartz Tubes
Customized Square Outside Round Inside Capillary Quartz Tubes are quartz glass tubes with a special geometry that is square on the outside and round and capillary on the inside.
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
Availability: | |
---|---|
Customized Square Outside Round Inside Capillary Quartz Tubes are quartz glass tubes with a special geometry that is square on the outside and round and capillary on the inside. This quartz tube combines the high stability of a square outer tube with the high precision transfer characteristics of a capillary tube for laboratories and environments where precisely controlled fluid transfer is required.
Product Type: Customized Square Outside and Round Inside Capillary Quartz Tubes
Design: Square outer tube with round inner tube capillary structure
Main applications: precision fluid transfer, microanalysis, laboratory research
Features: high precision, high temperature, chemical resistance, customizable sizes
Structural features: the capillary quartz tube is square on the outside, which increases the stability of the tube body and facilitates the fixation and installation; the round capillary tube on the inside allows precise control of the fluid transfer speed and volume.
Size customization: the side length of the outer square and the inner diameter and length of the inner round capillary tube can be customized according to the experimental needs to adapt to different experimental conditions and requirements.
High-precision transmission: The capillary structure is suitable for the transmission and control of micro-volume liquids, especially for experiments requiring high-precision operation, such as micro-chemical analysis and biological sample processing.
High Temperature Resistance: Quartz material is able to withstand temperatures up to 1000°C or more, making it suitable for experimental operations in high temperature environments.
Chemical resistance: quartz glass has good resistance to most chemical reagents and is not easy to be corroded, ensuring the stability and reliability of long-term use.
High Transparency: The quartz tube has high transparency, which makes it easy to observe the flow of liquid inside, and is very useful for experiments that require real-time monitoring.
High purity: Made of high purity quartz material, it reduces the contamination during the experiment and ensures the accuracy of the results.
Easy to install: the square outer tube design is easy to connect with other experimental equipment, such as fixture, bracket, etc., which improves the stability and safety of the experimental device.
Application areas: widely used in chemical analysis, physical experiments, biotechnology, drug development and other fields, especially in experiments that require precise control and observation of fluid behavior.
With its unique structure and excellent performance, the customized outer square inner round capillary quartz tube provides a high-precision and high-stability experimental tool for the laboratory. It not only meets the requirements of complex experiments for fluid transfer precision, but also meets the specific needs of different experiments through customized services, thus improving the efficiency and reliability of experiments.
Customized Square Outside Round Inside Capillary Quartz Tubes are quartz glass tubes with a special geometry that is square on the outside and round and capillary on the inside. This quartz tube combines the high stability of a square outer tube with the high precision transfer characteristics of a capillary tube for laboratories and environments where precisely controlled fluid transfer is required.
Product Type: Customized Square Outside and Round Inside Capillary Quartz Tubes
Design: Square outer tube with round inner tube capillary structure
Main applications: precision fluid transfer, microanalysis, laboratory research
Features: high precision, high temperature, chemical resistance, customizable sizes
Structural features: the capillary quartz tube is square on the outside, which increases the stability of the tube body and facilitates the fixation and installation; the round capillary tube on the inside allows precise control of the fluid transfer speed and volume.
Size customization: the side length of the outer square and the inner diameter and length of the inner round capillary tube can be customized according to the experimental needs to adapt to different experimental conditions and requirements.
High-precision transmission: The capillary structure is suitable for the transmission and control of micro-volume liquids, especially for experiments requiring high-precision operation, such as micro-chemical analysis and biological sample processing.
High Temperature Resistance: Quartz material is able to withstand temperatures up to 1000°C or more, making it suitable for experimental operations in high temperature environments.
Chemical resistance: quartz glass has good resistance to most chemical reagents and is not easy to be corroded, ensuring the stability and reliability of long-term use.
High Transparency: The quartz tube has high transparency, which makes it easy to observe the flow of liquid inside, and is very useful for experiments that require real-time monitoring.
High purity: Made of high purity quartz material, it reduces the contamination during the experiment and ensures the accuracy of the results.
Easy to install: the square outer tube design is easy to connect with other experimental equipment, such as fixture, bracket, etc., which improves the stability and safety of the experimental device.
Application areas: widely used in chemical analysis, physical experiments, biotechnology, drug development and other fields, especially in experiments that require precise control and observation of fluid behavior.
With its unique structure and excellent performance, the customized outer square inner round capillary quartz tube provides a high-precision and high-stability experimental tool for the laboratory. It not only meets the requirements of complex experiments for fluid transfer precision, but also meets the specific needs of different experiments through customized services, thus improving the efficiency and reliability of experiments.