4-layers Sintered Titanium Wire Mesh Filter Plate is an innovative material consisting of four layers of titanium stretched mesh delicately sintered together. The titanium tensile mesh is used as the basic structure, and the thin sheet-like mesh structure made of pure titanium material gives the mesh material excellent strength and excellent corrosion resistance. This material cleverly stacks multiple layers of titanium stretched mesh and connects them tightly by high-temperature sintering process to form a strong structure of 4-layers Sintered Titanium Wire Mesh Filter Plate. Each layer of titanium tensile mesh plays an important role in the four-layer sintered titanium mesh. The first layer of tensile mesh provides the strength and corrosion resistance of the foundation, laying a solid foundation for the overall structure. The superposition of the second layer and the third layer increases the strength and stability of the material, enabling the sintered titanium mesh to withstand greater load and pressure. The introduction of the fourth layer further enhances the impact resistance and durability of the overall structure. Parameter Material: GR1 titanium Length*Width: 230mm*240mm Mesh number: 10 mesh Layers: 4 layers Technique: use 4 pieces of titanium expanded mesh by sintering
5um Porous Inconel 600 Metal Filter Element, which is a high-performance metal filter element. The filter element is made of high-quality Inconel 600 (Inconel 600) material, which has excellent filtration efficiency and corrosion resistance. It is designed for filtration and separation operations in a variety of demanding high-temperature and corrosive environments. Whether in chemical, petroleum, food processing or other industrial fields, this metal filter element can exert an excellent filtration effect. Parameter Material: Inconel 600 Pore size: 5um Size: �?50*155, �?60*185 or customized specifications Interface: VCR 1/2 interface Working Temperature: -200 - 1000�°C Technique: sintering Product Features 1.High flow capacity: 5um Porous Inconel 600 Metal Filter Element has excellent fluid handling capacity. Its design allows high flow rates through the filter element while maintaining consistent filtration, ensuring efficient fluid handling and production efficiency. 2.Compression resistance: The high strength and pressure resistance of Inconel 600 material enables 5um Porous Inconel 600 Metal Filter Element to withstand higher pressure. This makes it ideal for handling high pressure fluids while providing reliable filtration and separation performance. 3.Washable and Reusable: 5um Porous Inconel 600 Metal Filter Element can be maintained and reused through the cleaning process. Due to its corrosion resistance and high temperature resistance, the filter element is able to withstand cleaning and regeneration cycles, reducing waste and cost, and extending service life. 4.High Reliability: With the excellent performance of Inconel 600 material, 5um Porous Inconel 600 Metal Filter Element provides a reliable filtration solution. Its stability and durability ensure continuous filtration performance, reducing the risk of failure and downtime, thereby increasing the reliability and stability of industrial processes. 5.Wide range of applications: 5um Porous Inconel 600 Metal Filter Element is suitable for a variety of industries and applications. Whether it is chemical, oil and gas, electric power, food and beverage, or aerospace, the filter element can provide excellent filtration performance and meet the fluid handling requirements of different industries. Application 1.Chemical industry: Used for chemical production, solvent filtration, and handling corrosive media. 2.Oil and gas industry: Applied in oil and gas extraction, refining, and natural gas processing for filtration and separation operations. 3.Power generation sector: Utilized for cooling water filtration in power generation equipment, circulation water system filtration, etc. 4.Food and beverage industry: Employed for liquid filtration in food processing, filtration of food additives, and more.
Versatile Monel Alloy Filter Plates for Precision Filtration Needs, made from high-purity Monel alloy powder and formed through a sintering process to create a solid filter plate with a fine porous structure. These filter plates not only possess high filtration efficiency to capture and separate tiny solid particles and impurities, but also exhibit excellent corrosion resistance, high-temperature performance, strength, and wear resistance. Our product is versatile in the field of precision filtration and finds wide applications in the filtration, separation, and purification processes of both liquids and gases. Due to being constructed with high-purity Monel alloy powder, our filter plates can operate stably for extended periods in various corrosive media, including industries such as chemical, petrochemical, food and beverage, and water treatment. Furthermore, their high-temperature performance enables continuous operation in elevated-temperature environments without deformation or failure. Our product ensures highly accurate filtration results, guaranteeing product quality and consistency. Additionally, our filter plates can be applied in areas such as high-temperature gas filtration, catalyst protection, and environmental remediation, providing comprehensive solutions to our customers' needs. Parameter Material: monel alloy Diameter: 120mm Thickness: 2.0mm Pore size:2um Technique: sintering What is monel alloy? Monel alloy is a nickel-copper alloy composed of about 67% to 70% nickel and 30% to 33% copper, and also contains small amounts of iron, manganese, silicon and carbon. It is named after American chemist Alfred Monel. Monel has many excellent properties that make it widely used in various applications. The following are some characteristics of Monel alloy: Corrosion resistance: Monel alloy has high corrosion resistance to many corrosive media, including sea water, acid, alkali and salt. High Strength: Although Monel is a non-ferrous alloy, it has high strength and hardness. Good processing performance: Monel alloy can be formed and processed by various processing methods, such as cold working, hot working, and welding. Wear resistance: Monel alloy has good wear resistance properties, making it suitable for high friction and high wear environments. Magnetic properties: Monel alloy has low magnetic permeability, so it is very useful for applications that are sensitive to magnetism.
Versatile Monel Alloy Filter Plates for Precision Filtration Needs, made from high-purity Monel alloy powder and formed through a sintering process to create a solid filter plate with a fine porous structure. These filter plates not only possess high filtration efficiency to capture and separate tiny solid particles and impurities, but also exhibit excellent corrosion resistance, high-temperature performance, strength, and wear resistance. Our product is versatile in the field of precision filtration and finds wide applications in the filtration, separation, and purification processes of both liquids and gases. Parameter Material: monel alloy Diameter: 120mm Thickness: 2.0mm Pore size:2um Technique: sintering What is monel alloy? Monel alloy is a nickel-copper alloy composed of about 67% to 70% nickel and 30% to 33% copper, and also contains small amounts of iron, manganese, silicon and carbon. It is named after American chemist Alfred Monel. Product features 1.Excellent Corrosion Resistance 2.High-Temperature Performance, Strength, and Wear Resistance 3.Versatility in Precision Filtration Application 1.Water Treatment: These filter plates are effective in water treatment plants, providing reliable filtration and separation of impurities, sediments, and contaminants from drinking water, wastewater, and industrial water systems. 2.Food and Beverage Processing: Versatile Monel Alloy Filter Plates find applications in the food and beverage industry for filtration of liquids, such as juices, syrups, and sauces, to remove particles, clarify liquids, and ensure product quality and safety. 3.Chemical Processing: These filter plates are used in various chemical processes, including chemical synthesis, catalyst recovery, and solvent filtration, assisting in maintaining product purity and preventing contamination. 4.Mining and Metallurgy: Versatile Monel Alloy Filter Plates are employed in mining and metallurgical operations for filtration and separation of ores, concentrates, and slurries, facilitating the extraction of valuable metals and minerals. 5.Environmental Remediation: These filter plates can be applied in environmental remediation projects, such as groundwater treatment, soil remediation, and air pollution control, helping to remove pollutants and contaminants from the environment.
Porous sintered metal filters are constructed from interconnected networks of uniformly distributed pores, creating intricate pathways that effectively capture solid particles present in gas or liquid flow streams. These filters are renowned for their exceptional mechanical strength and serve as outstanding depth filters. Type 316L stainless steel, known for its robustness, can endure temperatures up to 750�°F (399�°C) in oxidizing environments and 900�°F (482�°C) in reducing environments. The production of sintered metal filters involves employing 316L stainless steel powder. The manufacturing process entails the uniaxial compaction of powder within a rigid tool possessing the inverse shape of the desired part, followed by sintering. By adjusting the compaction pressure and/or particle size of the powder, the pore size of the filter can be precisely controlled. Specification: Material: Pure stainless steel Powder Porosity: 30% to 40% Pore Size: 0.22 microns Size: 150*80mm Features Durability: Stainless steel is known for its exceptional durability and resistance to corrosion, making filter rings made from this material highly robust and long-lasting. They can withstand harsh operating conditions, including high temperatures, pressure differentials, and exposure to corrosive chemicals, without compromising their structural integrity. Chemical Compatibility: Stainless steel filter rings exhibit excellent chemical compatibility with a wide range of substances, including acids, alkalis, solvents, and organic compounds. This makes them suitable for filtration processes in diverse industries, such as chemicals, petrochemicals, pharmaceuticals, and food processing, where compatibility with various fluids is crucial. High Filtration Efficiency: Stainless steel filter rings can achieve high filtration efficiency due to their uniform and controlled pore structures. They effectively trap and remove fine particles, contaminants, and impurities from liquids and gases, ensuring the desired level of cleanliness and purity in the filtered media. Reusability: One significant advantage of stainless steel filter rings is their reusability. They can be easily cleaned through various methods such as backwashing, ultrasonic cleaning, or chemical cleaning, allowing for multiple uses and reducing replacement costs. Temperature Resistance: Stainless steel filter rings can withstand high operating temperatures, typically up to 600 degrees Celsius. This attribute makes them suitable for applications involving hot liquids or gases, such as in the petrochemical and food processing industries. Hygienic Properties: Stainless steel is a hygienic material commonly used in industries where cleanliness and sterility are paramount, such as the food and beverage and pharmaceutical industries. Stainless steel filter rings are easy to clean and maintain, ensuring adherence to strict hygiene standards and minimizing the risk of contamination.
The sintered conical wire mesh filter strainer is meticulously crafted from stainless steel sintered wire mesh through precise cutting and welding techniques. The utilization of a rolling seam welding process guarantees exceptional roundness and flatness. Thanks to its cone-shaped design, the sintered cone filter offers superior diversion, separation, and filtration capabilities. Tailored to meet customers' preferences, the bottom of the stainless steel sintered mesh cone filter can either be flat or pointed. Whichever configuration is chosen, this filter exhibits remarkable dirt-holding capacity, making it a popular choice for three-in-one filtration purposes encompassing filtering, washing, and drying applications across various industries such as chemistry, food processing, beverage, and pharmaceuticals, among others. Parameters Material:� 316 L stainless steel, 304 stainless steel Filtration precision:� 1 micron to 300 microns Size:� as the drawing required Features Superior Filtration: The cone design maximizes the filtration area, enabling a larger filtration surface compared to other filter shapes. This expanded surface area enhances the filter's capacity to capture and retain particles, resulting in more effective filtration. Enhanced Mechanical Strength: The sintering process employed in manufacturing the filter significantly enhances its mechanical strength. Sintering involves compacting and bonding the stainless steel particles at high temperatures, creating a solid and robust structure. Enhanced Diversion: The conical shape allows for better diversion of the fluid or gas flowing through the filter. It promotes a more efficient flow pattern, ensuring that the medium being filtered is evenly distributed across the filter surface. Versatile Applications: The cone-shaped filter finds wide application in various industries, including chemistry, food processing, beverage, and pharmaceuticals. Its versatility lies in its ability to perform three essential functionsâ??filtering, washing, and drying. Applications With regards to water treatment, sintered wire mesh cone filters efficiently remove impurities, sediment, and contaminants from water sources, ensuring clean and purified water for various applications. In gas filtration within fluidized beds, these filters effectively capture and separate particles, ensuring the optimal performance of the fluidized bed system. Additionally, their exceptional cleanability makes them ideal for use in sterile product environments, maintaining high levels of cleanliness and hygiene.
The sintered conical wire mesh filter strainer is meticulously crafted from stainless steel sintered wire mesh through precise cutting and welding techniques. The utilization of a rolling seam welding process guarantees exceptional roundness and flatness. Thanks to its cone-shaped design, the sintered cone filter offers superior diversion, separation, and filtration capabilities. Tailored to meet customers' preferences, the bottom of the stainless steel sintered mesh cone filter can either be flat or pointed. Whichever configuration is chosen, this filter exhibits remarkable dirt-holding capacity, making it a popular choice for three-in-one filtration purposes encompassing filtering, washing, and drying applications across various industries such as chemistry, food processing, beverage, and pharmaceuticals, among others. Parameters Material:� 316 L stainless steel, 304 stainless steel Filtration precision:� 1 micron to 300 microns Size:� as the drawing required Features Superior Filtration: The cone design maximizes the filtration area, enabling a larger filtration surface compared to other filter shapes. This expanded surface area enhances the filter's capacity to capture and retain particles, resulting in more effective filtration. Enhanced Mechanical Strength: The sintering process employed in manufacturing the filter significantly enhances its mechanical strength. Sintering involves compacting and bonding the stainless steel particles at high temperatures, creating a solid and robust structure. Enhanced Diversion: The conical shape allows for better diversion of the fluid or gas flowing through the filter. It promotes a more efficient flow pattern, ensuring that the medium being filtered is evenly distributed across the filter surface. Versatile Applications: The cone-shaped filter finds wide application in various industries, including chemistry, food processing, beverage, and pharmaceuticals. Its versatility lies in its ability to perform three essential functionsâ??filtering, washing, and drying. Applications With regards to water treatment, sintered wire mesh cone filters efficiently remove impurities, sediment, and contaminants from water sources, ensuring clean and purified water for various applications. In gas filtration within fluidized beds, these filters effectively capture and separate particles, ensuring the optimal performance of the fluidized bed system. Additionally, their exceptional cleanability makes them ideal for use in sterile product environments, maintaining high levels of cleanliness and hygiene.
Customized 0.5m Titanium Rod Filter Cartridge with Special Interface, offered by TOPTITECH, is a high-performance filtration solution designed to deliver excellent filtration efficiency and durability. Whether it is utilized for water treatment in industrial production processes or experimental water in the laboratory, the Customized 0.5�¼m Titanium Rod Filter Cartridge Special Interface ensures the purity and safety of the water source. Parameter Material:Titanium Diameter: �?70 mm Length: 500mm Pore size: 0.5um Interface form: One end is closed with a flat bottom, and the other end is customized with a special interface Features 1.High filtration accuracy: With a filtration accuracy of 0.5 microns, it can effectively remove tiny particles and microorganisms. 2.Corrosion resistance: Titanium material has good corrosion resistance and is suitable for handling various chemical media. 3.High temperature tolerance: It can operate stably in high temperature environment and is suitable for high temperature process applications. 4.Long service life: It has a long service life, reducing the frequency of filter replacement and maintenance costs. 5.Customized design: Customized design can be carried out according to different application requirements to meet the requirements of specific scenarios. 6.Easy installation and replacement: Special interface design is adopted, which is convenient for quick installation and replacement of filter elements. Application 1.Water treatment: used to remove suspended solids, impurities and microorganisms, and improve the purity of water quality. 2.Chemical process: used for water treatment to ensure the safety of the production process and product quality. 3.Food and beverage production: used to remove microorganisms, pigments and odors to ensure product hygiene and taste. 4.Pharmaceutical industry: used for water treatment to ensure the purity and safety of medicines. 5.Laboratories and scientific research institutions: provide high-purity experimental water to meet the needs of scientific research.
Product Introduction SS 316L Diffuser Stone For Ozone Generator Food Grade is a device used to introduce ozone gas into a liquid or air. It is designed to facilitate the efficient distribution of ozone by breaking it into tiny bubbles or droplets. These diffuser stones are typically made of porous materials such as ceramic, glass, or stainless steel. One commonly used material for ozone diffuser stones is SS 316L, which is a low-carbon variation of stainless steel grade 316. SS 316L is known for its exceptional corrosion resistance, making it suitable for applications where the stone may come into contact with water, chemicals, or other substances that could cause corrosion. SS 316L is particularly favored for ozone diffuser stones due to its hygienic properties. It is often referred to as "food grade" stainless steel, indicating its compliance with regulatory standards for safe use in food processing and handling environments. The use of SS 316L ensures the diffuser stone's durability and longevity, allowing it to withstand harsh conditions and resist the corrosive effects of ozone gas. Moreover, the high-quality material provides peace of mind when using the diffuser stone in applications where maintaining cleanliness and avoiding contamination is crucial. When utilizing SS 316L Diffuser Stone For Ozone Generator Food Grade, it is essential to adhere to the manufacturer's instructions for proper installation, maintenance, and cleaning. Following these guidelines ensures the optimal performance and lifespan of the diffuser stone. By taking appropriate precautions, users can harness the benefits of ozone gas effectively and safely, whether it's for water treatment systems, aquariums, spa and pool systems, or air purification applications. Parameter Material : 316 L Stainless Steelï¼? food gradeï¼? Shape : Cone-shaped, Flat-shaped, Cylindrical Size: Customize Size, Height, Wide, OD, ID, Thickness Pore Size: 0.1�¼m - 120�¼m Process: sintered Interface form: With Install Mounting flange, female screw, male screw mounting interface Other: Integrated Design with 304 Stainless Steel Housing and Air Nozzles
Sintered stainless steel filter cartridge cups have emerged as a reliable and versatile solution for a wide range of filtration applications. These cups are manufactured using advanced sintering techniques that involve compacting stainless steel powder and subjecting it to high temperatures, resulting in a porous structure with excellent mechanical properties. The porous structure of these cups allows for precise control of flow rates by selecting the appropriate pore size and distribution. This feature is particularly beneficial in applications where fine filtration is necessary, such as in the pharmaceutical, food and beverage, and chemical industries. Parameters Brand:TOPTITECH Meterial: 316L ID :� 4.0-220mm� OD :� 1.0-210mm� � Pore Sizeï¼?0.1�¼m - 90�¼m� Height� :� 2.0 - 100mm� � Features Superior Mechanical Strength Sintered stainless steel filter cartridge cups offer exceptional mechanical strength, allowing them to withstand high pressures and temperatures. This feature ensures their durability and reliability in demanding filtration applications, providing long-term performance and reduced maintenance requirements. Precise Flow Control and Pressure Restriction The porous structure of sintered stainless steel cartridge filter cups enables precise flow control by selecting the appropriate pore size and distribution. This feature is crucial in applications that require fine filtration, ensuring efficient separation of particles and contaminants. Uniform Porosity Sintered stainless steel filter cups exhibit uniform porosity throughout their structure. This uniformity ensures consistent filtration performance and prevents localized clogging or bypass, resulting in efficient and reliable filtration processes. Excellent Joint Strength and Sealing Integrity Whether it is connecting the cups to pipes, housings, or other components, the robust structure of the cups ensures secure and leak-free connections. This feature contributes to the overall efficiency and effectiveness of the filtration system, minimizing the risk of contamination or fluid loss. Applications Chemical Processing Pharmaceutical Manufacturing Food and Beverage Industry: Petrochemical and Oil Refining:
Introduction: Nickel fiber felt is a versatile material made from high-quality nickel fibers, featuring wide-ranging applications and excellent performance characteristics. This felt-like material is composed of uniformly distributed and interconnected nickel fibers, forming an open porous structure. Nickel fiber felt exhibits high porosity, typically ranging from 60% to 90%, allowing for efficient gas and liquid transport. Its thickness can vary based on application requirements, typically ranging from 0.25 millimeters to 1 millimeters. Additionally, nickel fiber felt has a low density, typically between 0.1 grams per cubic centimeter to 0.3 grams per cubic centimeter, making it lightweight and flexible. Furthermore, nickel fiber felt demonstrates excellent temperature resistance, withstanding high operating temperatures of up to 600 degrees Celsius, and exhibits good chemical stability, making it resistant to corrosion in harsh environments. Nickel fiber felt finds widespread applications across multiple industries. In the field of fuel cells, nickel fiber felt is used as a Gas Diffusion Layer (GDL) to enhance the performance and durability of Proton Exchange Membrane Fuel Cells (PEMFCs) and Solid Oxide Fuel Cells (SOFCs). It promotes efficient reactant distribution, enhances water management, and improves overall cell performance. Additionally, nickel fiber felt is extensively applied in redox flow batteries, electrolyzers, supercapacitors, and water treatment systems. In these applications, it serves as a GDL, optimizing electrochemical reactions, improving battery cycling performance, and providing excellent chemical stability and high surface area. Parameters Material: Pure nickel fiber Color: Light grey Size: Customized upon request Thickness: 0.2mm-2mm (Usually 0.25, 0.4, 0.6, 0.8, 1.0mm) Porosity: 60-90% (It can be customized upon request) Shape: customized (polygon, round, ring, disc, etc.) Features High Porosity: Nickel fiber felt has a high porosity, typically ranging from 60% to 90%. This allows for efficient transport of gases and liquids, facilitating effective mass transfer and reactions. Uniform Wire Diameter: By utilizing the cluster drawing technique, nickel fiber felt achieves a uniform wire diameter. This uniformity ensures consistency and stability, contributing to improved performance of the material. Lightweight and Flexibility: Due to its low density and fibrous structure, nickel fiber felt is lightweight and flexible. This characteristic enables easy handling, shaping, and installation, enhancing its versatility in various applications. Excellent Temperature Resistance: Nickel fiber felt exhibits outstanding temperature resistance, capable of withstanding high operating conditions. It maintains stability even at temperatures up to 600 degrees Celsius, making it suitable for high-temperature processes and demanding applications.
Ozone generators are widely utilized in numerous industries for their ability to produce ozone, a powerful oxidizing agent used for air and water purification, odor control, and sterilization. A crucial component of an ozone generator is the diffuser stone, responsible for efficiently dispersing ozone into the target environment. Specifications: Material: Sintered stainless steel Pore Size: 0.2 to 100 microns Diameter: 5 mm to 300 mm Length: 1 mm to 1500 mm Porosity: 30%-40% Maximum Operating Temperature: Generally capable of withstanding temperatures up to 600�°C Features Corrosion Resistance: Stainless steel is known for its excellent corrosion resistance, making it highly suitable for ozone-rich environments. This characteristic ensures the longevity and durability of the diffuser stones, even when exposed to high ozone concentrations over extended periods. Controlled Pore Size: The diffuser stones have a precisely controlled pore size, typically ranging from 0.2 to 100 microns. This allows for efficient diffusion of ozone gas into the target medium, ensuring optimal utilization of ozone for purification or sterilization purposes. Enhanced Surface Area: The sintered stainless steel diffuser stones are designed to have a high surface area, maximizing the contact between ozone and the surrounding medium. This promotes efficient ozone transfer and improves the effectiveness of purification or sterilization processes. Durability: Sintered stainless steel diffuser stones are highly durable, resistant to clogging, and capable of withstanding demanding operating conditions. They can endure high ozone concentrations without compromising their structural integrity, ensuring consistent performance over time. Compatibility: Stainless steel diffuser stones are compatible with a wide range of ozone generator systems and can be used with different gases, including air and oxygen, besides ozone. Applications: Water Treatment: Ozone is extensively used for water disinfection and purification in municipal water treatment plants, swimming pools, and aquariums. Diffuser stones play a crucial role in dispersing ozone gas into water, effectively eliminating bacteria, viruses, and other contaminants. Air Purification: Ozone generators find application in air purification systems for spaces such as hospitals, laboratories, and commercial buildings. Diffuser stones aid in distributing ozone evenly, facilitating the removal of airborne pollutants, allergens, and odors. Food and Beverage Industry: Ozone is employed for sterilizing food products and disinfecting packaging materials in the food and beverage industry. Diffuser stones assist in the controlled release of ozone, ensuring effective microbial reduction while maintaining product quality.
Product Description: The Micron Porous Metal Filtration System is used in petroleum and chemical production processes for high-efficiency separation of all liquid-solid and gas-solid. The metal powder sintered microporous metal filter element, which is commonly constructed of 316L stainless steel powder, and 304 stainless steel powder, forms the basis of the system. While maintaining the filtration effect, attaining the lowest pressure drop and highest backwashing recovery rate, this porous metal filter can adapt to the increased process temperature and pressure of refineries and chemical plants. The Micron Porous Metal Filtration System in petrochemical production has the characteristics of high-temperature resistance, high-pressure drop, high solid content operation, liquid (gas) and solid high-efficiency separation, system internal backwashing to remove solids, continuous automatic operation, and can avoid frequent replacement and disposal of waste filter material to prevent environmental pollution. Products Parameters Material: SUS 304 316L Outer diameter: �¦10~100mm Length: 10~1500mm (more than 1500mm can be welded) Filtration accuracy: 0.2um~100um Porosity: 30%-50% Features Highly porous structure: Porous metal powder sintered stainless steel filters have a highly porous structure that provides a large surface area for efficient catalyst recovery and separation. High durability: These filters are highly resistant to corrosion and can withstand harsh operating conditions, making them ideal for use in a variety of industrial and scientific applications. Efficient mass transport: The highly porous nature of these filters allows for efficient mass transport of catalysts and other materials, which is critical for the performance of catalyst recovery systems. Easy to clean: Porous metal powder sintered stainless steel filters can be easily cleaned and reused, making them a cost-effective solution for catalyst recovery and separation. Applications: precious metal catalyst and precious metal powder recovery Catalyst recovery mechanism in PTA production, CTA, and PTA Coal to olefin (MTO) catalyst recovery system Filtration of oil slurry and circulating oil in the catalytic cracking unit Flue gas purification and dust suppression equipment for catalyst regeneration System for filtering feedstock oil for the hydrogenation/coking process in refineries System for filtering catalysts in the hydrogenation of Raney Nickel High-purity gas filter for wafer, storage media, integrated circuit manufacturing process
20 Micron Round Stainless Steel Filter Screen Disc is a type of filter made from interconnected networks of pores in a sintered metal structure. These filters are designed to trap solid particles in gas or liquid flow streams, making them excellent depth filters. One advantage of these filters is their superior mechanical strength, which makes them highly durable and resistant to wear and vibration. Parameter Material: SS 316L Thickness: 1.7mm Diameter: 100mm Pore size: 20 microns Layers: 5 layers Features 1.High filtration accuracy and efficiency: Stainless Steel Filter Screen Disc made from stainless steel have a highly uniform pore structure that enables them to trap even very small particles and impurities in gas or liquid streams. This results in a high filtration accuracy and efficiency, which is critical in many applications where purity is essential. 2.Durability and resistance to harsh environments: Stainless Steel Filter Screen Disc is highly durable and able to withstand harsh environments, including high temperatures, high pressures, and exposure to corrosive chemicals. This makes them ideal for use in challenging industrial applications where other types of filters may fail. 3.Mechanical strength: Stainless Steel Filter Screen Disc made from stainless steel have excellent mechanical strength, which allows them to withstand high pressure and mechanical stress. They are resistant to deformation and damage, ensuring that they maintain their shape and filtration performance over time. 4.Reusability and easy maintenance: Stainless Steel Filter Screen Disc can be easily cleaned and reused, reducing waste and saving costs. They can be cleaned using various methods, including ultrasonic cleaning and backflushing, making them easy to maintain and extending their service life. 5.High flow rates: Stainless Steel Filter Screen Disc made from stainless steel can handle high flow rates, which is important in applications where a high volume of fluid or gas needs to be processed quickly. They can also be used for continuous filtration, ensuring a steady stream of filtered media. 6.Versatility: Stainless Steel Filter Screen Disc is highly versatile and can be customized to meet the specific requirements of different applications. They can be produced in various shapes and sizes, and the pore size and distribution can be tailored to achieve the desired filtration performance. Applications Stainless Steel Filter Screen Disc gets used for the filtration of corrosive liquids. The Filter Screen Disc also gets used for catalyst recovery. Plus, the Filter Screen Disc can get utilized for steam processing also. Secondly, the Filter Screen Disc has usage in different types of industries. * Aviation industry * Chemical industry * Petrochemical industry * Environmental area * Automotive industry * Plastic industry * Food and Beverage industry
20 Micron Round Stainless Steel Filter Screen Disc is a type of filter made from interconnected networks of pores in a sintered metal structure. These filters are designed to trap solid particles in gas or liquid flow streams, making them excellent depth filters. One advantage of these filters is their superior mechanical strength, which makes them highly durable and resistant to wear and vibration. Stainless Steel Type 316L is a common material used in the manufacture of sintered metal filters. This material is capable of withstanding temperatures of up to 750�°F (399�°C) in oxidizing environments and up to 900F (482C) in reducing environments. In addition, these filters can be cleaned using a variety of methods, including ultrasonic baths or reverse flow flushing. This makes them highly versatile and easy to maintain. For applications that require even greater resistance to corrosion, temperature, wear, and vibration, other nickel-based alloys are available. These alloys offer superior performance in harsh environments and can be tailored to meet specific application requirements. Overall, 20 Micron Round Stainless Steel Filter Screen Disc is a highly effective and versatile solution for a wide range of filtration applications. Parameter Material: SS 316L Thickness: 1.7mm Diameter: 100mm Pore size: 20 microns Layers: 5 layers
Product Introduction Bronze powder sintered filter elements are created by sintering bronze alloy powder at high temperatures. They exhibit high filtration precision, good air permeability, high mechanical strength, and excellent suitability for high working temperatures and impact resistance. These elements find application in various fields, including pneumatic components, the chemical industry, and environmental protection. TOPTITECH produces porous filter tubes that can be hollow or blind, with a minimum wall thickness of 1 mm. The tubes are made by isostatic compaction of powder in a flexible mold with the negative shape of the part, followed by sintering. The pore sizes can range from 0.2 to 100 microns. These filters find used as filter cartridges or aerators for high flow rates. They can be utilized as tubes straight away or with connectors of different geometry added at the ends. Porous elements of various shapes, structures, different particle sizes, and porosity can be produced according to user requirements. Examples include covers, caps, sheets, tubes, and rod-shaped filter elements. Parameter Filter material: Bronze powder Pore size: 30 microns Porosity: 30%-50% Filter length: 80mm Outer diameter: 50mm Features Efficient filtration: The porous structure of the bronze filter allows for efficient filtration of liquids and gases. High-temperature resistance: The bronze filter can withstand high temperatures, making it suitable for use in high-temperature environments such as the chemical and petrochemical industries. Corrosion resistance: The bronze filter is highly resistant to corrosion, making it ideal for use in corrosive environments such as the marine and oil, and gas industries. Durable: The sintering process used to create the bronze filter results in a durable material that can withstand harsh operating conditions. Applications Fluidized bed: Porous bronze filters are used in fluidized bed reactors to remove impurities and maintain a consistent fluidized bed. Chemical industry: Porous bronze filters are used in the chemical industry to filter and separate chemicals for various applications. Oil and gas industry: Porous bronze filters are used in the oil and gas industry to filter impurities from crude oil and natural gas. Marine industry: Porous bronze filters are used in the marine industry to filter seawater for various applications. Automotive industry: Porous bronze filters are used in the automotive industry to filter oil and fuel for internal combustion engines.
Bronze powder sintered filter elements are created by sintering bronze alloy powder at high temperatures. They exhibit high filtration precision, good air permeability, high mechanical strength, and excellent suitability for high working temperatures and impact resistance. These elements find application in various fields, including pneumatic components, the chemical industry, and environmental protection. TOPTITECH produces porous filter tubes that can be hollow or blind, with a minimum wall thickness of 1 mm. The tubes are made by isostatic compaction of powder in a flexible mold with the negative shape of the part, followed by sintering. The pore sizes can range from 0.2 to 100 microns. These filters find used as filter cartridges or aerators for high flow rates. They can be utilized as tubes straight away or with connectors of different geometry added at the ends. Porous elements of various shapes, structures, different particle sizes, and porosity can be produced according to user requirements. Examples include covers, caps, sheets, tubes, and rod-shaped filter elements. Parameter Filter material: Bronze powder Pore size: 30 microns Porosity: 30%-50% Filter length: 80mm Outer diameter: 50mm Features Efficient filtration: The porous structure of the bronze filter allows for efficient filtration of liquids and gases. High-temperature resistance: The bronze filter can withstand high temperatures, making it suitable for use in high-temperature environments such as the chemical and petrochemical industries. Corrosion resistance: The bronze filter is highly resistant to corrosion, making it ideal for use in corrosive environments such as the marine and oil, and gas industries. Durable: The sintering process used to create the bronze filter results in a durable material that can withstand harsh operating conditions. Applications Fluidized bed: Porous bronze filters are used in fluidized bed reactors to remove impurities and maintain a consistent fluidized bed. Chemical industry: Porous bronze filters are used in the chemical industry to filter and separate chemicals for various applications. Oil and gas industry: Porous bronze filters are used in the oil and gas industry to filter impurities from crude oil and natural gas. Marine industry: Porous bronze filters are used in the marine industry to filter seawater for various applications. Automotive industry: Porous bronze filters are used in the automotive industry to filter oil and fuel for internal combustion engines.
Microporous CO2/O2 gas diffusion sintered metal spargers introduce gases into liquids through the thousands of pores in the medium. The spargers and diffusers are extremely efficient and introduce higher number and extremely fine bubbles as compared to the drilled pipes. With this effective sparging procedure, the gas turns into liquid fairly quickly. TOPTITECH can customise the sintered powder porous metal spargers and diffusers as customerâ??s requirements. The spargers work with various gases like nitrogen, oxygen and carbon dioxide. Parameters Material: SUS304 SUS316L Technique: Powder Sintered Porosity: 30%-45% Pore size: 0.5-100um Advantage: High Porosity And Permeability Application: Petrochemical, Food, Beer, Pharmaceutical Features The size of bubbles produced by the porous CO2/O2 gas injecting sintered metal sparger diffuser can be easily adjusted by selecting from a range of available media pore sizes. The sintered metal sparger diffuser is constructed using temperature and corrosion-resistant materials, ensuring durability and longevity. This sparger diffuser features a high-quality, all-welded, robust construction that is designed to withstand the rigors of industrial applications. The smaller sparging elements of this diffuser result in higher diffusion rates, making it an efficient and effective solution for injecting CO2/O2 gases. Applications Wastewater Treatment: This diffuser is used in wastewater treatment plants to inject oxygen into the water, promoting the growth of� aerobic bacteria� that break down organic matter. Fermentation: In the brewing and wine-making industries, this sparger diffuser is used to inject carbon dioxide into the� fermentation� tanks, creating the desired level of carbonation. Chemical Processing: This diffuser is used in chemical reactors to inject gases such as oxygen or nitrogen, promoting chemical reactions and increasing efficiency. Aquaculture: In fish farms, this sparger diffuser is used to inject oxygen into the water, promoting fish growth and health.
OD 30mm Titanium Porous Filter Element With M20 is a type of metal filter made from sintered titanium powder. This material offers high strength and durability, enabling it to withstand high levels of stress and operate in harsh environments with high temperatures and corrosive media. Moreover, it can be easily cleaned or back washed, which increases its longevity. The M20 interface is an important feature of this filter element. It is a type of threaded connection that allows for easy installation and removal of the filter cartridge in a filtration system. The M20 interface is a standard size that ensures compatibility with a wide range of filter housings and systems. By using the OD 30mm Titanium Porous Filter Element With M20, users can enjoy efficient and reliable filtration in a variety of applications, including air and liquid filtration in demanding environments. Parameter Brand: TOPTITECH Material: titanium Interface: M20 thread interface Pore size: 20 micron Diameter: 30mm Length: 70.5mm Porosity: 30%-40% Features The OD 30mm Titanium Porous Filter Element With M20 has several advantages that make it a popular choice for filtration applications. Firstly, the sintered titanium powder material offers high strength and durability, making it resistant to stress and corrosion in harsh environments, and allowing it to operate at high temperatures. Additionally, the filter element's high porosity and stability ensure efficient and reliable filtration performance. The M20 interface is another key advantage of this filter element. This threaded connection allows for easy installation and removal of the filter cartridge, which saves time and effort during maintenance and replacement. Moreover, the M20 interface is a standard size, ensuring compatibility with a wide range of filter housings and systems. This feature makes the OD 30mm Titanium Porous Filter Element With M20 a versatile and convenient choice for various filtration applications. Overall, the combination of sintered titanium powder material and M20 interface make the OD 30mm Titanium Porous Filter Element With M20 an ideal solution for users who require efficient, reliable, and easy-to-maintain filtration in harsh environments.
OD 30mm Titanium Porous Filter Element With M20 is a type of metal filter made from sintered titanium powder. This material offers high strength and durability, enabling it to withstand high levels of stress and operate in harsh environments with high temperatures and corrosive media. Moreover, it can be easily cleaned or back washed, which increases its longevity. The M20 interface is an important feature of this filter element. It is a type of threaded connection that allows for easy installation and removal of the filter cartridge in a filtration system. The M20 interface is a standard size that ensures compatibility with a wide range of filter housings and systems. By using the OD 30mm Titanium Porous Filter Element With M20, users can enjoy efficient and reliable filtration in a variety of applications, including air and liquid filtration in demanding environments. Parameter Brand: TOPTITECH Material: titanium Interface: M20 thread interface Pore size: 20 micron Diameter: 30mm Length: 70.5mm Porosity: 30%-40% Features The OD 30mm Titanium Porous Filter Element With M20 has several advantages that make it a popular choice for filtration applications. Firstly, the sintered titanium powder material offers high strength and durability, making it resistant to stress and corrosion in harsh environments, and allowing it to operate at high temperatures. Additionally, the filter element's high porosity and stability ensure efficient and reliable filtration performance. The M20 interface is another key advantage of this filter element. This threaded connection allows for easy installation and removal of the filter cartridge, which saves time and effort during maintenance and replacement. Moreover, the M20 interface is a standard size, ensuring compatibility with a wide range of filter housings and systems. This feature makes the OD 30mm Titanium Porous Filter Element With M20 a versatile and convenient choice for various filtration applications. Overall, the combination of sintered titanium powder material and M20 interface make the OD 30mm Titanium Porous Filter Element With M20 an ideal solution for users who require efficient, reliable, and easy-to-maintain filtration in harsh environments. Applications 1.Power generation 2.Reverse osmosis pre-filtration 3.Bioprocessing 4.Sterile filtration 5.Beverage filtration 6.Food processing
