Chemical laboratory transparent quartz glass crucible
Chemical Laboratory Transparent Quartz Glass Crucible is a laboratory vessel specially designed for high temperature chemical reactions and materials research
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: | |
---|---|
Chemical Laboratory Transparent Quartz Glass Crucible is a laboratory vessel specially designed for high temperature chemical reactions and materials research. It is made of high-purity quartz material (SiO2 content usually exceeds 99.99%) as the main component, and has excellent high temperature resistance, corrosion resistance and light transmission properties after a special process. This crucible is not only suitable for various chemical reactions and material synthesis, but also provides a clear observation field during the experimental process, helping researchers to monitor the reaction process in real time and ensure the accuracy and reliability of the experimental results.
Product features
Exceptional high temperature resistance:
The softening point of quartz glass is extremely high, usually reaching about 1730 degrees Celsius, which can maintain structural integrity and performance stability in high-temperature environments.
Under conditions not exceeding 1450 degrees Celsius, transparent quartz glass crucibles can effectively resist unfavorable factors such as thermal stress and thermal shock in high-temperature environments, making them an ideal choice for high-temperature experiments.
Excellent corrosion resistance:
Quartz is an inorganic non-metallic material that is chemically inert and does not react with most acids, bases, and organic solvents.
This property ensures that the transparent quartz glass crucible does not chemically react with the sample during the experiment or production process, thus ensuring the accuracy and reliability of the experimental results.
High light transmittance:
The quartz material has excellent light transmittance, allowing light to penetrate the wall of the crucible, making it easy to observe the reaction of the internal sample.
This property is particularly important in fields such as chemical reactions and material synthesis, which helps researchers monitor the experimental process in real time and adjust the experimental conditions in a timely manner.
Structural design and diversity:
The structure of a transparent quartz glass crucible typically consists of one or more layers to meet the needs of different applications. For example, some crucibles may have a two-layer structure with an inner layer that is transparent and has fewer bubbles, and an outer layer that is opaque and contains a large number of bubbles to provide additional insulation.
Crucibles come in a variety of shapes and sizes, including flat bottoms, round bottoms, and lids, to meet the needs of different experiments.
Radiation resistance and low expansion coefficient:
Quartz glass also has good radiation resistance and a low coefficient of expansion, enabling it to maintain stable performance under extreme conditions.
Application field
Transparent quartz glass crucibles have a wide range of applications in chemical laboratories, including but not limited to the following:
Melting experiment: used in ore analysis, metal alloy smelting, glass manufacturing, and other fields.
Chemical analysis: used for chemical experiments such as combustion analysis, ash analysis, and elemental analysis of substances.
Thermogravimetric analysis is used to measure the change in mass of a substance at different temperatures.
Ceramic sintering: used for ceramic, ceramic tile, brick and other ceramic products sintering process.
Chemical synthesis: used in various chemical synthesis reactions in chemical laboratories, such as organic synthesis, catalyst preparation, etc.
Drug development: used in drug synthesis, efficacy evaluation, and other drug research and development processes.
Environmental monitoring: used for the collection and processing of environmental samples such as atmosphere, water, and soil.
Transparent quartz glass crucibles in chemical laboratories play an important role in chemical laboratories due to their excellent high temperature resistance, corrosion resistance and high light transmission properties. It can not only meet the needs of various high temperature chemical reactions and materials research, but also provide a clear observation field to help researchers monitor the experimental process in real time.
Luverre Quartz manufactures and sells a wide range of high quality quartz glass, including quartz tubes, quartz plates, quartz rods, quartz windows, quartz crucibles, quartz boats, quartz flanges, quartz beakers, quartz glass instruments, and more. We can meet all kinds of customized requirements for quartz glass products.
Chemical Laboratory Transparent Quartz Glass Crucible is a laboratory vessel specially designed for high temperature chemical reactions and materials research. It is made of high-purity quartz material (SiO2 content usually exceeds 99.99%) as the main component, and has excellent high temperature resistance, corrosion resistance and light transmission properties after a special process. This crucible is not only suitable for various chemical reactions and material synthesis, but also provides a clear observation field during the experimental process, helping researchers to monitor the reaction process in real time and ensure the accuracy and reliability of the experimental results.
Product features
Exceptional high temperature resistance:
The softening point of quartz glass is extremely high, usually reaching about 1730 degrees Celsius, which can maintain structural integrity and performance stability in high-temperature environments.
Under conditions not exceeding 1450 degrees Celsius, transparent quartz glass crucibles can effectively resist unfavorable factors such as thermal stress and thermal shock in high-temperature environments, making them an ideal choice for high-temperature experiments.
Excellent corrosion resistance:
Quartz is an inorganic non-metallic material that is chemically inert and does not react with most acids, bases, and organic solvents.
This property ensures that the transparent quartz glass crucible does not chemically react with the sample during the experiment or production process, thus ensuring the accuracy and reliability of the experimental results.
High light transmittance:
The quartz material has excellent light transmittance, allowing light to penetrate the wall of the crucible, making it easy to observe the reaction of the internal sample.
This property is particularly important in fields such as chemical reactions and material synthesis, which helps researchers monitor the experimental process in real time and adjust the experimental conditions in a timely manner.
Structural design and diversity:
The structure of a transparent quartz glass crucible typically consists of one or more layers to meet the needs of different applications. For example, some crucibles may have a two-layer structure with an inner layer that is transparent and has fewer bubbles, and an outer layer that is opaque and contains a large number of bubbles to provide additional insulation.
Crucibles come in a variety of shapes and sizes, including flat bottoms, round bottoms, and lids, to meet the needs of different experiments.
Radiation resistance and low expansion coefficient:
Quartz glass also has good radiation resistance and a low coefficient of expansion, enabling it to maintain stable performance under extreme conditions.
Application field
Transparent quartz glass crucibles have a wide range of applications in chemical laboratories, including but not limited to the following:
Melting experiment: used in ore analysis, metal alloy smelting, glass manufacturing, and other fields.
Chemical analysis: used for chemical experiments such as combustion analysis, ash analysis, and elemental analysis of substances.
Thermogravimetric analysis is used to measure the change in mass of a substance at different temperatures.
Ceramic sintering: used for ceramic, ceramic tile, brick and other ceramic products sintering process.
Chemical synthesis: used in various chemical synthesis reactions in chemical laboratories, such as organic synthesis, catalyst preparation, etc.
Drug development: used in drug synthesis, efficacy evaluation, and other drug research and development processes.
Environmental monitoring: used for the collection and processing of environmental samples such as atmosphere, water, and soil.
Transparent quartz glass crucibles in chemical laboratories play an important role in chemical laboratories due to their excellent high temperature resistance, corrosion resistance and high light transmission properties. It can not only meet the needs of various high temperature chemical reactions and materials research, but also provide a clear observation field to help researchers monitor the experimental process in real time.
Luverre Quartz manufactures and sells a wide range of high quality quartz glass, including quartz tubes, quartz plates, quartz rods, quartz windows, quartz crucibles, quartz boats, quartz flanges, quartz beakers, quartz glass instruments, and more. We can meet all kinds of customized requirements for quartz glass products.