Beflon Lined Autoclave 100 Ml
(1)25ml/50ml/100ml/150ml/200ml/250ml/300ml/400ml/500ml/1000ml---PTFE/≤ 220°C
(2)25ml/50ml/100ml/150ml/200ml/250ml/300ml/400ml/500ml/1000ml---PPL/≤ 280°C
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2. Customization:
(1)Design support
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3. Assurance:
(1)CE and ISO certification Registered
(2)Trademark: ACHIEVE CHEM(since 2008)
(3)Replacement parts within 1-year for free
Description
Technical Parameters
The Beflon Lined Autoclave 100 ml is a fine experimental equipment, which is widely used in various chemical reactions and high pressure application scenarios in chemical laboratories. The main advantage of this is its lined polytetrafluoroethylene material. Polytetrafluoroethylene is a fluoroplastic with excellent corrosion resistance, high temperature resistance and low friction coefficient. Therefore, this lining can resist the erosion of various chemical substances and ensure that the chemical substances in the kettle are not polluted. At the same time, its high temperature resistance allows the product to be used at high temperatures, and its low friction coefficient helps to reduce the frictional resistance during equipment operation and reduce energy consumption.
Laboratory Applications
There are various scenarios for the use of 100 ml teflon lined in chemical laboratories. It is suitable for a variety of chemical reactions, including organic reactions, inorganic reactions, catalytic reactions, electrochemical reactions, etc. Under high pressure, chemical reactions can be carried out more completely and efficiently. In addition, this can also be used for high-pressure gas storage, as well as high-temperature and high-pressure physical experiments. In addition, polytetrafluoroethylene are also used in the biomedical field. For example, Beflon Lined Autoclave 100 ml can provide a constant temperature and non-toxic environment for cell culture, and it can also simulate the cell growth and differentiation process under different pressure conditions in vivo.
Polytetrafluoroethylene (PTFE) lining is a widely used material in industrial and scientific fields, which has many advantages. These advantages include chemical stability, wear resistance, high-temperature performance, non adhesion, electrical insulation, and ease of processing.
The polytetrafluoroethylene lining has excellent chemical stability, making it suitable for long-term use in highly corrosive environments. It produces almost no reactions to most chemicals, including strong acids, bases, and various organic solvents, making it particularly suitable for handling various corrosive substances. The chemical stability of the polytetrafluoroethylene lining also means that it is not affected by chemical corrosion, so it can maintain the stability of its physical and chemical properties for a long time.
In the chemical industry, polytetrafluoroethylene lining is widely used to treat corrosive substances. For example, when manufacturing reagents such as fluoride, sulfuric acid, and hydrochloric acid, polytetrafluoroethylene lining can be used. In addition, polytetrafluoroethylene lining is often used to treat wastewater and waste gas containing organic solvent components.
The polytetrafluoroethylene lining has excellent wear resistance and can maintain good performance under high-speed stirring or stirring shear conditions. This enables it to withstand long-term use and frequent operation, extending the service life of the equipment. In addition, due to its low wear resistance, it rarely requires maintenance and replacement.
In fields such as laboratories, chemical engineering, and food processing, polytetrafluoroethylene lining is often used for heating, cooling, and mixing reactions. For example, it can be used as a lining inside the container to prevent the reaction liquid from corroding the container itself, while also protecting the mechanical structure and accessories of the internal reactor.
The polytetrafluoroethylene lining can operate over a wide temperature range. It has excellent high-temperature stability and can maintain the stability of its physical and chemical properties at higher temperatures. At the same time, it can also maintain good flexibility at extremely low temperatures.
In the industrial and scientific fields, many equipment needs to operate in high-temperature environments, such as reactors, pipelines, and heat exchangers. Polytetrafluoroethylene lining can be used in these high-temperature equipment to protect the equipment itself and the processed materials from the impact of high temperature. In addition, when engaged in high-temperature processing, the polytetrafluoroethylene lining can withstand the challenges and pressures generated at high temperatures to ensure the durability and quality of the process.
The surface of polytetrafluoroethylene lining has very low adhesion, and almost no substance can adhere to its surface. This not only facilitates cleaning and maintenance of equipment, but also reduces friction and adhesion between substances, thereby improving operational efficiency. In addition, due to the non adhesive nature of the polytetrafluoroethylene lining, it avoids blockage caused by adhesive substances and reduces wear on the equipment.
Polytetrafluoroethylene lining is widely used in fields such as food processing, medicine, coatings, and cosmetics. For example, in the preparation of paints and coatings, polytetrafluoroethylene lining can be used as the lining of mixing drums and reactors to facilitate easier cleaning and removal of product residues, thereby maintaining a clean and efficient production line.
Polytetrafluoroethylene lining is an excellent electrical insulation material with low conductivity. It is not susceptible to interference from electrochemical reactions and has high resistance to electromagnetic waves, making it widely used in fields such as electronics and electrical appliances. PTFE lining can be used to manufacture wires, cables, and electrical components to ensure their safe and reliable electrical insulation.
Parameter Table
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Usage Scenario
The following are the main usage scenarios of a 100ml polytetrafluoroethylene lined high-pressure kettle in a chemical laboratory:
1. Biomedical applications:
In the field of biomedicine, lined high-pressure vessels also have certain applications. For example, cell culture in biomedical research requires a constant temperature and non-toxic culture environment. The polytetrafluoroethylene lined high-pressure kettle can provide such an environment, while also simulating the cell growth and differentiation process under different pressure states in the body by adjusting the pressure.
2. High temperature and high pressure reaction:
The lined high-pressure kettle has excellent high-temperature resistance and can undergo chemical reactions under high temperature and pressure. This is crucial for some chemical reactions that need to be carried out under high temperature and pressure conditions. For example, the activation energy of certain catalysts needs to be achieved under high temperature and pressure conditions, or certain chemical reactions need to be carried out under high temperature and pressure to increase the reaction rate.
3. Catalytic reaction:
In chemical laboratories, catalytic reaction is a common experimental method. The lined high-pressure kettle can serve as a carrier for catalysts, providing the high-temperature and high-pressure conditions required for catalytic reactions. Due to the low friction coefficient of lining, the distribution of catalyst in the reactor is more uniform, resulting in better catalytic performance.
4. High pressure gas storage:
Due to the excellent sealing and compression resistance of polytetrafluoroethylene lined high-pressure vessels, they can be used to store high-pressure gases. This is very convenient and practical for gases that require short-term storage or transportation. For example, gases such as hydrogen, oxygen, and nitrogen can be stored under high pressure in polytetrafluoroethylene lined high-pressure vessels.
5. Material separation and purification:
Polytetrafluoroethylene lined high-pressure vessels can be used as equipment for separating and purifying chemical substances. For example, chemical components with different boiling points can be separated by high-pressure distillation or extraction, and then purified by vacuum or atmospheric distillation. This separation and purification method has the advantages of high efficiency, energy conservation, and environmental protection.
6. High pressure fluid research:
In high pressure fluid research, polytetrafluoroethylene lined high-pressure vessels can provide a stable and uniform pressure environment. This helps to study the influence of pressure on the physical properties of fluids, such as studying the phase transition process, density, viscosity, and other properties of fluids under high pressure.
Installation Method
When installing a Beflon Lined Autoclave 100 ml, certain methods and steps need to be followed for operation. The following are general installation methods for reference:
-Ensure that the installation environment meets the requirements, with good ventilation and dryness.
-Check the integrity and quality of the high-pressure kettle and its accessories to ensure that there are no damages or defects.
-Prepare the necessary tools and installation materials.
-Carefully clean the inner surface of the high-pressure vessel with appropriate cleaning agents and tools to ensure that there are no impurities, grease, or dirt.
-Place the PTFE lining inside the high-pressure vessel to ensure a tight fit with the inner wall.
-Check the flatness and absence of wrinkles of the inner lining, and avoid hanging or being too tight.
-Use corrosion-resistant fixing fixtures or clips to secure the inner lining to the inner wall of the high-pressure vessel.
-Ensure that the fixture or clamp ring is uniformly fixed to avoid concentrated stress or uneven compression.
-Check the sealing between the lining and accessories to ensure there are no gaps or leaks.
-If necessary, use appropriate sealing materials for repair or filling.
-Connect the pipes and accessories that need to be connected to the high-pressure kettle.
-Ensure that the connections are tightened and reliable, and use appropriate sealing materials to ensure sealing.
-Check all connection and fixing points to ensure safety and reliability.
-Further testing and adjustment will be carried out according to the specifications and requirements of the high-pressure kettle.
When installing a Beflon Lined Autoclave 100 ml, special attention should be paid to the following:
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Please read and comply with relevant operating manuals and safety regulations before operation.
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If you are unfamiliar with the installation process or have questions, it is recommended to consult a professional or equipment manufacturer for assistance.
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During operation, please wear appropriate personal protective equipment, such as goggles, gloves, etc.
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Regularly inspect the lining and connection parts of the high-pressure kettle to ensure that they are intact and undamaged. If there is wear or damage, replace or repair it in a timely manner.
These are general installation methods, and the specific steps may vary depending on the brand, model, and design of the high-pressure kettle. Therefore, please carefully read the relevant installation guidelines and follow the instructions provided by the manufacturer before actual operation.
It exhibits excellent insulation properties, mainly due to its unique molecular structure and chemical properties. The following is a detailed introduction to the insulation properties of polytetrafluoroethylene:
Electrical insulation performance
Excellent electrical insulation performance:
Polytetrafluoroethylene has excellent electrical insulation performance over a wide temperature and frequency range. Due to the symmetrical and uniform distribution of fluorine atoms in the polytetrafluoroethylene molecular chain, there is no inherent dipole distance, which results in minimal variation in its dielectric loss tangent (tg δ) and relative dielectric constant (ε r) within the power frequency range. Therefore, polytetrafluoroethylene can be used as an ideal electrical insulation material in various electrical equipment.
High insulation resistance:
Polytetrafluoroethylene has a very high insulation resistance, with a volume resistivity (ρ v) generally greater than 10 ¹⁵Ω· m and a surface resistivity (ρ s) greater than 10 ¹⁶ Ω. Even if immersed in water for a long time, the change in electrical resistivity is not significant and does not vary significantly with temperature. This characteristic enables polytetrafluoroethylene to maintain stable insulation performance in humid environments.
High breakdown field strength:
The breakdown field strength of polytetrafluoroethylene is also very high, and the breakdown field strength of very thin polytetrafluoroethylene films can reach 200kV/mm. Although the breakdown field strength gradually decreases with increasing thickness, the overall insulation strength can still be maintained at a high level.
Arc resistance and corona resistance
Arc resistance:
Polytetrafluoroethylene has extremely stable arc resistance, usually exceeding 300 seconds. This is because when discharging on high voltage surfaces, polytetrafluoroethylene will not cause short circuits due to carbonization, but will decompose into gas, thereby protecting the equipment from damage caused by electric arcs.
Corona resistance:
However, it should be noted that polytetrafluoroethylene has relatively poor corona resistance. Due to the high electronegativity of fluorine atoms, 1-2 eV electrons will cause them to dissociate and decompose. Therefore, in situations where high corona resistance is required, other materials or additional protective measures may need to be considered.
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