Quartz Glass Tubes & Pipes

Quartz glass tubes and pipes are commonly used components in electric heaters, especially in applications requiring high temperatures and harsh working conditions. Due to their high heat resistance and chemical resistance, they are preferred across various industries. These tubes are frequently used in infrared heaters, immersion heaters, and other high-temperature applications.

Quartz glass not only offers high temperature resistance but also provides excellent chemical resistance, making it ideal for environments where chemical processes and corrosive conditions are prevalent. These tubes are frequently used in electric heaters and infrared heaters. In addition to their high heat resistance, their high transparency allows them to efficiently transmit light and heat. Specifically, in infrared heaters, these tubes are used to optimize the heating and light radiation.

Furnaces and immersion heaters, which require high temperatures, also benefit significantly from quartz glass tubes. These tubes, which are resistant to thermal shock, can typically withstand temperatures up to 1100°C. They are especially durable in environments where chemical reactions take place due to their resistance to corrosion and wear, making them ideal for use in the chemical and pharmaceutical industries. This ensures efficient operation in these sectors.

Quartz glass tubes and pipes also provide excellent heating performance in electric devices and heaters. Since this material has low electrical conductivity, it minimizes energy losses and enhances the energy efficiency of the systems. Furthermore, thanks to its low thermal expansion coefficient, the deformation of heated tubes is prevented, ensuring long-lasting usage.

Quartz glass tubes are widely used in laboratories as well. Their superior resistance to high temperatures and chemicals makes them perfect for laboratory environments. Whether used for chemical analysis or heating purposes, the safe and long-lasting performance of quartz tubes is of great importance in laboratory equipment.

Quartz glass tubes and pipes have a significant place in industrial applications due to their high temperature resistance, chemical durability, excellent electrical insulation properties, and ability to efficiently transmit light and heat. Their efficient and reliable use across various industries continues to make them increasingly popular. Quartz glass tubes offer an excellent solution for any application requiring high temperature and chemical resistance.

In our stocks: Pipes from 4 mm to 25 mm outer diameter, 1000, 2500 and 3000 mm long As a tube 25 mm, 30 mm and 50 mm, 400, 500, 1000 and 1500 mm in length Double type in 15x30 mm dimensions 2500 and 3000 mm in length Surface Its color is transparent, semi-transparent and milky white.

Quartz Glass Tubes

Quartz glass tubes are typically cylindrical-shaped tubes made of glass or quartz material. These tubes are widely used in various laboratory applications. Especially in the fields of chemistry, biology, materials science, and optics, they are utilized in various experiments and applications. Quartz glass tubes are preferred due to their high temperature resistance, chemical durability, and optical transparency. They are commonly used in high-temperature environments, vacuum systems, and applications that require high purity. Moreover, their resistance to UV rays makes them highly valuable in optical devices.

Types of Quartz Glass Tubes

• Straight Tubes: These cylindrical tubes are commonly used in various laboratory processes. They are ideal for chemical reactions, material transportation, and other processes. Due to their high temperature resistance, straight tubes are frequently used in systems that operate at elevated temperatures, transporting liquids and gases or assisting in low-viscosity reactions.
• Half-Straight Tubes: Half-straight tubes have one side flat while the other may be open or conical. These tubes are suitable for specific experimental setups. For example, the open end can be used for connecting other components or facilitating material flow. Half-straight tubes are versatile and practical, making them a popular choice in laboratories for specialized experiments.
• Conical Tubes: Conical tubes have one end that is wider than the other. These tubes are primarily used for mixing liquids, filtration processes, or accelerating chemical reactions. The wider end is ideal for collecting or transferring liquids. They also assist in speeding up chemical reactions by providing a larger surface area for interaction.
• Inclined Neck Tubes: Inclined neck tubes are typically used in distillation processes, liquid evaporation, or vapor condensation. The inclined neck facilitates easier vapor collection, improving the efficiency of the process. These tubes are especially favored for their space-saving design and are often used as distillation columns, allowing for effective separation and condensation of substances.
• Double Neck Tubes: Double neck tubes feature two separate necks, making them suitable for performing two reactions simultaneously. These tubes are commonly used in laboratory settings, where dual reactions are needed. The two necks allow the flow of different substances into the tube, enabling the concurrent execution of multiple processes. Double neck tubes are essential in experiments requiring multiple inputs or outputs at the same time.
• Micro Tubes: Micro tubes are designed for working with small volumes. These tubes are ideal for micro-reactions or microanalysis in fields such as biotechnology and nanotechnology. Micro tubes are optimized for precision and small-scale operations, allowing for the handling of small samples and providing efficient control over reactions in a limited volume.

Quartz glass tubes, in all their varieties, play an essential role in ensuring accuracy, safety, and efficiency in laboratory work. Each type is optimized for specific applications, with properties such as chemical compatibility, temperature resistance, and mechanical strength guiding the selection process. Quartz glass tubes are fundamental components in both traditional and modern scientific research and are also widely used in various industrial applications.

Quartz Glass Tube Technical Specifications

• Technical Features:
• Temperature Resistance: Quartz glass tubes are resistant up to 1650°C, making them suitable for high-temperature applications.
• Chemical Resistance: These tubes are resistant to most acids, alkalis, and organic solvents, making them ideal for use in chemical processes where exposure to harsh substances is common.
• Optical Clarity: Quartz glass offers excellent light transmission, with high transparency in UV, visible, and infrared (IR) spectrums, making it ideal for optical applications.
• Thermal Expansion Coefficient: Quartz glass has a low thermal expansion coefficient, which ensures it is resistant to rapid temperature changes, reducing the risk of cracking or damage.
• Density: The density of quartz glass is 2.2 g/cm³, providing a balance between strength and weight.
• Melting Point: The melting point of quartz glass is 1713°C, making it suitable for high-temperature applications without compromising its structural integrity.
• Mohs Hardness: With a Mohs hardness of 7, quartz glass is relatively hard and resistant to scratching, enhancing its durability in various applications.
• Dielectric Constant: Quartz glass has a dielectric constant of 3.8, making it suitable for use in electronic and insulating applications.
• Thermal Conductivity: With a thermal conductivity of 1.3 W/mK, quartz glass efficiently transfers heat, contributing to its use in heat management systems.

Industries Using Quartz Glass Tubes and Heaters

• Plastic and Rubber Industry: Quartz glass tubes and heaters are used in extrusion lines, mold heating, and shaping processes, providing precise control over temperature and consistency in the production of plastic and rubber products.
• Electronics Industry: In semiconductor production, soldering processes, and electronic component manufacturing, quartz glass is commonly used due to its high-temperature resistance, chemical stability, and excellent electrical insulation properties.
• Food Industry: Quartz glass tubes and heaters are employed in heating, baking, and drying processes within ovens and other food processing equipment, ensuring efficient heat transfer while maintaining food safety standards.
• Medical Industry: Quartz glass is used in sterilization equipment and the manufacturing of medical devices, providing a non-reactive and durable material suitable for high-precision applications.
• Automotive Industry: In automobile manufacturing, quartz glass tubes are used in the production of automotive parts, paint drying ovens, and thermal processing systems to ensure high-quality finishing and efficient manufacturing.
• Glass Industry: Quartz glass tubes are crucial in the glass-forming and blowing processes, aiding in shaping the glass while maintaining the required temperature levels for mold formation.
• Chemical Industry: Used for controlling chemical reactions and in laboratory applications, quartz glass tubes and heaters offer exceptional chemical resistance and durability, allowing them to withstand challenging environments and maintain reliability in chemical processing.

Heaters Used in Quartz Glass Tubes

• Heaters used in quartz glass tubes are specially designed heating elements capable of operating at high temperatures. These heaters enable the use of quartz glass tubes in high-temperature experiments or processes.
• Heaters used in quartz glass tubes may have the following features:
• High Temperature Resistance: As quartz glass tubes are typically used at high temperatures, heaters must be resistant to these high temperatures.
• Homogeneous Heat Distribution: Heaters must provide homogeneous heat distribution inside quartz glass tubes. This ensures stable conduction of experiments or processes.
• Precise Control: Heaters used in quartz glass tubes should provide precise temperature control, allowing the creation and control of desired temperature profiles.
• Durability: Heaters should be designed to withstand long-term use and repeated heating-cooling cycles.
• Chemical Resistance: As quartz glass tubes may be exposed to chemicals, heaters should be resistant to chemical substances.

Applications of Quartz Glass Tubes

• Chemistry: Quartz glass tubes are commonly used in chemistry laboratories where various chemical reactions take place, distillation processes are carried out, liquids are mixed, and filtration processes are performed.
• Biology: In biology laboratories, quartz glass tubes can be used for DNA amplification (PCR), protein analysis, and other molecular biology applications.
• Optics and Spectroscopy: The optical properties of quartz glass enable its widespread use in optical and spectroscopic applications. Optical glass tubes are ideal for light transmission and spectrometer measurements.
• Materials Science: In materials science research, especially in experiments conducted at high temperatures, quartz glass tubes are used for processes such as determining melting points, thermal analysis, and material synthesis.
• Physical Chemistry: Quartz glass tubes are preferred for various processes in physical chemistry experiments, including gas adsorption, catalytic reactions, and the passage of gases at high temperatures.
• Food and Beverage Industry: Quartz glass tubes can be used in the food and beverage industry for processes such as the crystallization or reactions of substances like sugar and fat.
• Environmental Science: In environmental science, quartz glass tubes can be utilized for the analysis of water and air samples, gas emissions, and the detection of toxic substances.

Advantages of Quartz Glass Tube Heaters

• High Temperature Resistance: Quartz glass tube heaters can withstand high temperatures, making them ideal for experiments or processes conducted at high temperatures.
• Chemical Resistance: Quartz glass tubes are resistant to many chemical substances. Therefore, quartz glass tube heaters can also be resistant to chemical substances and can be safely used in various chemical environments.
• Uniform Heating: Quartz glass tube heaters can provide homogeneous heat distribution inside the tube. This ensures the stable conduct of experiments or processes.
• Rapid Heating and Cooling: Quartz glass tube heaters generally have rapid heating and cooling properties, which can accelerate experimental processes and enable more efficient operation.
• Longevity: When used correctly and maintained regularly, quartz glass tube heaters can have a long lifespan. This provides cost-effectiveness and long-term usage advantages.
• High Precision and Control: Quartz glass tube heaters can provide precise temperature control, allowing the preservation of specific temperature profiles and the creation of desired experimental conditions.
• Suitability for Various Applications: Quartz glass tube heaters can be used in various laboratory applications and industrial processes. They can be utilized across a wide range of fields including chemistry, biology, materials science, optics, and others.

Quartz Glass Tube Features That Provide High Heat Efficiency

• Temperature Resistance: Quartz glass tubes are known for their high-temperature resistance and can be safely used up to 1650°C. This makes them ideal for processes that require high heat, especially in ovens, industrial heating systems, and laboratory applications.
• Thermal Expansion: The low thermal expansion coefficient of quartz glass provides resistance to rapid temperature changes. This property ensures that the tubes last longer, even in environments where frequent heating and cooling occur.
• Heat Insulation: Quartz glass tubes minimize heat loss due to their low thermal conductivity. This allows for more efficient use of energy and provides energy savings in heating systems.
• Heat Stability: Quartz glass exhibits excellent stability under high temperatures and thermal shock, ensuring safe and efficient operation in equipment exposed to high heat.

Quartz Glass Tube Technical Details

• Temperature Resistance: Quartz glass tubes can withstand temperatures up to 1650°C, making them ideal for high-temperature applications.
• Chemical Resistance: They offer high resistance to most acids, alkalis, and organic solvents, which makes them widely used in chemical processes and laboratory experiments.
• Optical Clarity: Quartz glass has high light transmission in UV, visible, and IR spectrums, making it suitable for optical applications.
• Melting Point: The melting point of quartz glass is 1713°C, which ensures its safety and stability in high-temperature environments.
• Mohs Hardness: With a Mohs hardness of 7, quartz glass is resistant to scratching, increasing its durability against mechanical wear and tear.
• Dielectric Constant: The dielectric constant of 3.8 makes it suitable for use in electronic and electrical insulation applications.
• Thermal Conductivity: With a thermal conductivity of 1.3 W/mK, quartz glass ensures efficient heat transfer, making it important for energy efficiency in heat management systems.

Energy Savings with Quartz Glass Tube

• Low Thermal Conductivity: Quartz glass tubes have a low thermal conductivity coefficient, which minimizes heat loss. This property allows heat to be retained efficiently, enabling the desired temperature to be reached with less energy. This results in energy savings and reduces costs in the long run.
• Heat Stability: Quartz glass tubes ensure that heat is distributed steadily even under high-temperature conditions. This allows heating systems to operate more efficiently and reduces energy consumption.
• Long-lasting Performance: The durable structure of quartz glass tubes makes them suitable for long-term use. Their high durability reduces maintenance costs and ensures the system operates efficiently, contributing to energy savings.

Technical Details to Consider in Selection

• Heat Resistance: The heat resistance of quartz glass tubes is determined by the quality of the material and design. High heat resistance is essential, especially for industrial heating systems, and should be considered when selecting the tubes.
• Chemical Resistance: In applications involving chemical processes, it is important that the tubes are resistant to chemicals. Chemical resistance ensures the longevity of the tubes and increases the safety of the process.
• Thermal Expansion Coefficient: The low thermal expansion coefficient of quartz glass ensures that the tubes are resistant to rapid temperature changes. This property is a key factor in selection, as it contributes to the tubes' longevity and safe use.
• Optical Clarity: In optical and laser applications, the tubes should have high light transmission. This should be considered when evaluating the material's suitability for the intended application.

Quartz Glass Tube Operating Principle

• Heat Transfer: Quartz glass tubes efficiently transfer heat due to their low thermal conductivity, minimizing losses. The even distribution of heat throughout the tube increases the overall efficiency of the system.
• Chemical Stability: Quartz glass tubes show high resistance to most chemicals. This property ensures their long-term, safe operation in various industrial applications.
• Thermal Shock Resistance: Quartz glass has high resistance to rapid temperature changes. This property ensures that the tubes remain solid and safe to use in applications where high thermal shock occurs.