Laboratory transparent grooved quartz glass rod
Laboratory transparent grooved quartz glass rod is a precision instrument component designed for experimental research and special applications.
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
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Laboratory transparent grooved quartz glass rod
Laboratory transparent grooved quartz glass rod is a precision instrument component designed for experimental research and special applications. It is made of high-purity silicon dioxide (SiO₂) and has excellent optical transparency, outstanding thermal stability, and chemical inertness. This type of quartz glass rod is internally equipped with a groove structure of a specific shape, designed to meet the needs of fluid transmission, sample display, or optical path guidance under specific experimental conditions.
Material Properties
2.1 High-purity quartz
We use high-purity quartz raw materials that have been rigorously screened, ensuring the purity and uniformity of the product and reducing the impact of impurities on the experimental results. Its transmittance is extremely high, and it performs excellently in both the visible light and ultraviolet light bands, making it suitable for a variety of optical measurement and analysis tasks.
2.2 Thermal stability
It can withstand drastic temperature changes without deformation or cracking, and its maximum working temperature can reach more than 1200°C. This makes it very suitable for use as an observation window in high-temperature environments, a protective sleeve for heating elements, etc.
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 Groove design
The intricately designed groove structure is a highlight of this quartz glass rod. Depending on different application scenarios, grooves of different shapes and sizes can be customized, such as linear, spiral, or other complex forms. These grooves are used to precisely control the flow path of fluids, fix tiny samples, or serve as a light beam conduction channel, which greatly enriches its experimental functions.
3.2 Dimensional accuracy
Strict production standards ensure the consistency of the outer diameter, inner diameter, length, and groove parameters of each quartz glass rod. Users can choose the appropriate specifications of the product according to their specific needs, thus achieving the best matching effect.
3.3 Surface Treatment
In order to improve their optical performance and durability, some models also adopt special surface treatment processes, such as polishing, coating, etc. This not only enhances the light transmittance, but also improves the wear resistance and anti-fouling ability.
Application Fields
4.1 Fluid Dynamics Research
In fluid mechanics experiments, transparent grooved quartz glass rods can be used to construct miniature flow channel systems, observe the flow behavior of liquids or gases in pipelines, study laminar and turbulent flow phenomena, and analyze the laws of mass and heat transfer, etc.
4.2 Optical Experiment
Thanks to its excellent light transmittance and low scattering characteristics, it is one of the ideal materials for building optical experimental devices. It can be used to make fiber optic couplers, laser resonator mirror support frames, microscope slides, etc., and supports various optical detection and imaging technologies.
4.3 Sample Display and Analysis
For small samples that need to be observed under a microscope or subjected to spectral analysis, this quartz glass rod provides a stable support platform. Its transparency allows researchers to directly see the internal situation without being disturbed by the outside world.
4.4 Biomedical Engineering
In the field of biomedicine, it can be used as part of a cell culture dish to observe the cell growth status; it can also be used as a key component of implantable medical devices, such as artificial lenses, catheters, etc., showing good biocompatibility.
The transparent grooved quartz glass rod, 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 rod.
Laboratory transparent grooved quartz glass rod
Laboratory transparent grooved quartz glass rod is a precision instrument component designed for experimental research and special applications. It is made of high-purity silicon dioxide (SiO₂) and has excellent optical transparency, outstanding thermal stability, and chemical inertness. This type of quartz glass rod is internally equipped with a groove structure of a specific shape, designed to meet the needs of fluid transmission, sample display, or optical path guidance under specific experimental conditions.
Material Properties
2.1 High-purity quartz
We use high-purity quartz raw materials that have been rigorously screened, ensuring the purity and uniformity of the product and reducing the impact of impurities on the experimental results. Its transmittance is extremely high, and it performs excellently in both the visible light and ultraviolet light bands, making it suitable for a variety of optical measurement and analysis tasks.
2.2 Thermal stability
It can withstand drastic temperature changes without deformation or cracking, and its maximum working temperature can reach more than 1200°C. This makes it very suitable for use as an observation window in high-temperature environments, a protective sleeve for heating elements, etc.
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 Groove design
The intricately designed groove structure is a highlight of this quartz glass rod. Depending on different application scenarios, grooves of different shapes and sizes can be customized, such as linear, spiral, or other complex forms. These grooves are used to precisely control the flow path of fluids, fix tiny samples, or serve as a light beam conduction channel, which greatly enriches its experimental functions.
3.2 Dimensional accuracy
Strict production standards ensure the consistency of the outer diameter, inner diameter, length, and groove parameters of each quartz glass rod. Users can choose the appropriate specifications of the product according to their specific needs, thus achieving the best matching effect.
3.3 Surface Treatment
In order to improve their optical performance and durability, some models also adopt special surface treatment processes, such as polishing, coating, etc. This not only enhances the light transmittance, but also improves the wear resistance and anti-fouling ability.
Application Fields
4.1 Fluid Dynamics Research
In fluid mechanics experiments, transparent grooved quartz glass rods can be used to construct miniature flow channel systems, observe the flow behavior of liquids or gases in pipelines, study laminar and turbulent flow phenomena, and analyze the laws of mass and heat transfer, etc.
4.2 Optical Experiment
Thanks to its excellent light transmittance and low scattering characteristics, it is one of the ideal materials for building optical experimental devices. It can be used to make fiber optic couplers, laser resonator mirror support frames, microscope slides, etc., and supports various optical detection and imaging technologies.
4.3 Sample Display and Analysis
For small samples that need to be observed under a microscope or subjected to spectral analysis, this quartz glass rod provides a stable support platform. Its transparency allows researchers to directly see the internal situation without being disturbed by the outside world.
4.4 Biomedical Engineering
In the field of biomedicine, it can be used as part of a cell culture dish to observe the cell growth status; it can also be used as a key component of implantable medical devices, such as artificial lenses, catheters, etc., showing good biocompatibility.
The transparent grooved quartz glass rod, 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 rod.