Teflon Lined Stainless Steel Autoclave
(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
***Price List for whole above, inquire us to get
2. Customization:
(1)Design support
(2)Directly supply the Senior R&D organic intermediate, shorten your R&D time and cost.
(3)Share the advanced purifying technology with you
(4)Supply the high quality chemicals and analysis reagent
(5)We want to assist you on Chemical Engineering (Auto CAD, Aspen plus etc.)
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 structure and characteristics of teflon lined stainless steel autoclave. This type of high-pressure kettle usually consists of two parts: the inner lining and the outer shell. The inner lining is made of polytetrafluoroethylene material, which can protect the steel shell from corrosion and also withstand high pressure and high temperature reaction environments. The shell is made of steel material, which has high strength and durability, and can withstand the forces and heat generated during high-pressure reactions. The shell of this high-pressure kettle is generally made of high-quality steel, which has high strength and durability, and can withstand pressure of up to several megapascals, ensuring the stability and safety of the container. On the inner surface of the kettle, a layer of polytetrafluoroethylene material is covered as a lining. Polytetrafluoroethylene is a polymer material with excellent corrosion resistance, high cleanliness, excellent temperature stability, low friction coefficient, and high lubricity. As an inner lining, polytetrafluoroethylene can prevent chemical agents from corroding stainless steel, thereby extending the service life of the container.
Introduction
Teflon lined stainless steel autoclave have significant advantages in various fields such as chemistry, materials science, biomedical science, etc. These advantages are mainly reflected in the following aspects:
1. Excellent corrosion resistance:
PTFE is known for its outstanding chemical stability, which can resist almost all strong acids, bases, organic solvents, and most chemical substances. This characteristic makes the high-pressure vessel lined with polytetrafluoroethylene an ideal choice for handling corrosive substances or conducting experiments that require a highly pure environment, ensuring the stability of the experiment and the safety of the operators.
2. Improving cleanliness:
PTFE has a smooth surface and is not easily adhered to substances, which effectively reduces the contamination of the internal surface of the high-pressure vessel and reduces experimental errors. This advantage is particularly important for experiments that require high-precision results, such as drug synthesis, catalyst testing, etc.
3. Good temperature stability:
PTFE has a wide range of operating temperatures (-240 ° C to+260 ° C) and can maintain the stability of its physical and chemical properties within this range. This means that high-pressure reactors can operate under extreme temperature conditions, meeting various experimental and production needs, including chemical reactions under high temperature and pressure, material heat treatment, etc.
4. Low friction coefficient and high lubricity:
The low friction coefficient and high lubricity of PTFE make the movement of the sample in the autoclave smoother, which helps to achieve a more uniform and efficient reaction process. This is particularly important for experiments that require stirring or mixing, as it can improve reaction efficiency and product quality.
5. Easy to clean and maintain:
Due to the smooth surface and non adhesiveness of PTFE, the high-pressure vessel is easy to clean after use, effectively reducing the impact of residues on subsequent experiments. This not only maintains the cleanliness and high purity of the environment inside the kettle, but also extends the service life of the equipment and reduces maintenance costs.
6. High strength and durability:
Although PTFE itself is a relatively soft material, by combining with a steel shell, the high-pressure vessel as a whole has high strength and durability. The steel shell provides necessary structural support, preventing deformation and cracking, ensuring long-term safety and stability.
Specifications
functions
The naming of teflon lined stainless steel autoclave with polytetrafluoroethylene (PTFE) has not undergone significant stages of naming development and evolution, such as product functionality or technological innovation. However, the changes in technology, applications, and market awareness behind it have indeed had a profound impact on the naming of this product.
The discovery and application of polytetrafluoroethylene (PTFE) is an important milestone in the development of lining materials for high-pressure vessels. In 1938, R. from DuPont Company in the United States J. Dr. Plunkett accidentally discovered polytetrafluoroethylene (PTFE) while studying Freon refrigerants, which not only opened up a new era of fluoroplastics, but also provided new choices for lining materials for high-pressure vessels.
At the beginning of PTFE's invention, scientists began to explore its application in containers that require highly pure and corrosion-resistant environments due to its unique corrosion resistance and stability. However, at this time, the naming mainly focuses on the material itself, namely "polytetrafluoroethylene" (PTFE), and there is no unified naming convention for specific application forms, such as the lining of high-pressure vessels.
With the widespread application of PTFE in fields such as chemistry and materials science, people gradually realize its enormous potential in the lining of high-pressure vessels. During this period, manufacturers began producing and selling high-pressure vessels with PTFE lining to meet the market's demand for corrosion resistance, high temperature resistance, and easy cleaning performance.
At this stage, the naming of products gradually shifts from simple material descriptions to functional descriptions. For example, names such as "PTFE lsteel high-pressure vessel" and "PTFE high-pressure reactor" have begun to appear, which not only reflect the core material of the product (PTFE lining), but also clarify the application field of the product (high-pressure vessel or reactor).
With the popularity of PTFE steel high-pressure vessels in the market, consumers and users have gradually deepened their understanding of such products. In order to facilitate market communication and procurement, a relatively unified naming convention has begun to emerge within the industry.
Manufacturers, industry associations, and standard setting organizations played important roles in this process. They promote the standardization of product naming through the development of relevant standards, the release of technical guidelines, and the organization of industry conferences. For example, the common name for this type of product is "PTFE steel high-pressure vessel", which is widely used in product manuals, technical manuals, and other documents.
With the continuous advancement of technology and the continuous development of the market, the technology of PTFE steel high-pressure vessels is also constantly innovating. For example, in order to improve the pressure resistance, temperature resistance, or add other special functions (such as explosion prevention, wear resistance, etc.) of containers, manufacturers will adopt new materials, processes, or designs to improve their products.
These technological innovations not only drive the upgrading and replacement of products, but also bring new expansion space for product naming. For example, new naming conventions such as "high-strength PTFE steel high-pressure reactor" and "explosion-proof PTFE high-pressure reactor" have emerged to reflect the unique selling points and differentiated advantages of the products.
With the acceleration of globalization and the continuous development of international trade, the market for PTFE stainless steel high-pressure vessels is gradually expanding globally. In this process, product naming also needs to consider internationalization factors.
In order to facilitate international communication and trade, manufacturers usually use English or other internationally recognized languages to name their products. For example, names such as "PTFE Steel Autoclave" or "High pressure Reactor with PTFE Lining" are widely used in the international market. At the same time, some manufacturers also provide multilingual information in product packaging, instructions, and other documents to meet the needs of consumers in different countries and regions.
Other properties
The teflon lined stainless steel autoclave is a versatile and high-performance piece of equipment widely utilized in various industries, particularly in laboratory and medical settings. Constructed with a robust stainless steel exterior, this autoclave offers exceptional durability and corrosion resistance, ensuring long-lasting performance even under demanding conditions.
The inner lining of Teflon, also known as PTFE (Polytetrafluoroethylene), imparts a multitude of benefits. Teflon is renowned for its non-stick properties, making it extremely easy to clean and preventing the build-up of residues or contaminants. This characteristic is crucial in maintaining sterility and ensuring the integrity of processed materials, whether they are laboratory samples, medical instruments, or other sensitive items.
Moreover, Teflon's ability to withstand high temperatures and pressures makes it an ideal lining material for autoclaves. These devices operate at elevated temperatures and pressures to sterilize contents by killing microorganisms, including bacteria, viruses, and spores. The Teflon lining not only enhances the autoclave's efficiency but also protects the stainless steel from corrosive chemicals and steam, thereby extending the overall lifespan of the equipment.
Additionally, the smooth surface of Teflon facilitates efficient heat distribution and reduces the risk of hot spots, ensuring uniform sterilization throughout the chamber. This feature is essential for achieving consistent results and maintaining high standards of quality control in research and medical applications.
In summary, the teflon lined stainless steel autoclave combines the strength and longevity of stainless steel with the non-stick, temperature-resistant properties of Teflon, making it an indispensable tool for achieving sterile conditions in critical environments. Its versatile design and robust construction cater to the stringent requirements of diverse industries, underscoring its value as a reliable and efficient sterilization solution.
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