1Um Filters With Flange Interface

A 1um porous metal instrument filter with flange interface� is a type of tube that is made by sintering titanium particles together to create a porous structure. The porous nature of the tube allows for fluids or gases to flow through it while the� titanium material� provides strength and durability. 1um porous metal instrument filters with flange interface are commonly used in a variety of applications, such as filtration systems, gas diffusion layers in fuel cells, and medical implants. The porous structure of the tube allows for efficient filtration or diffusion of gases while the flange interface allows for easy integration into larger systems. Parameters Material: titanium powder Size: �?145*380mm Pore size: 1um Technical: sintering Application: liquid and gas filtration Interface: flange Features Uniform porosity The porous nature of the sintered titanium tube allows for controlled fluid or gas flow through the material. This porosity can be adjusted to meet specific needs by varying factors such as the size of the titanium particles, the sintering temperature, and the amount of pressure applied during the sintering process. High strength Despite its porosity, sintered titanium is a strong and durable material. The tube can withstand high pressures and can resist corrosion, making it well-suited for use in harsh environments. Customizable The size, shape, and porosity of sintered titanium tubes with flange interfaces can be customized to meet specific application requirements. This makes them highly versatile and adaptable to a range of situations. Easy integration The flange interface at the end of the tube allows for easy integration into larger systems. The bolts or screws used to secure the tube to other components can be tightened to create a tight seal, which is important for applications such as filtration where leaks can compromise performance. Flange types Types of Flanges Welded neck flange Slip on flange Screwed flange Lap joint flange Blind flange Spectacle blind flange Applications Water treatment: Porous sintered titanium tubes with flange interfaces are used to remove impurities from drinking water, wastewater, and industrial process water. Air filtration: Porous sintered titanium tubes with flange interfaces are used to remove particles and contaminants from air, such as in HVAC systems and industrial air filtration systems. Food and beverage processing: Porous sintered titanium tubes with flange interfaces are used to remove impurities and contaminants from food and beverage products, such as in dairy processing and beer brewing. Chemical processing: Porous sintered titanium tubes with flange interfaces are used to remove impurities and contaminants from chemicals and solvents, such as in pharmaceutical manufacturing and chemical processing.

Introducing TOPTITECH's latest innovation, the Porous Metal Filter Tube for Oxygen Distributor. Engineered with precision using sintered stainless steel powder, this advanced filtration solution guarantees exceptional gas distribution performance and reliable filtering efficiency. Crafted from high-purity stainless steel powder and manufactured using state-of-the-art sintering techniques, TOPTITECH's Porous Metal Filter Tube for Oxygen Distributor exhibits outstanding corrosion resistance and high-temperature stability. Its unique structure ensures even gas distribution and uniform flow through fine pores, guaranteeing a consistent output pressure. Additionally, this filter tube effectively captures minute particles and impurities, delivering a purified oxygen supply. Specifications Material: Stainless Steel 316L Size: OD20mm x L50mm Pore size: 1um Connector: M20*1.5 Technique: Sintering Features Efficient Filtration Performance: With precise control over pore size and distribution, our filter tube efficiently removes microparticles and impurities, ensuring a pure oxygen supply. Uniform Gas Distribution: The special porous structure design enables uniform gas distribution within the filter tube, eliminating uneven gas flow and providing a stable output pressure. Robust Corrosion Resistance: Constructed from high-purity stainless steel powder, our filter tube exhibits excellent corrosion resistance and oxidation resistance, making it suitable for harsh operating conditions. High-Temperature Stability: The porous metal filter tube maintains stable performance even in high-temperature environments, ensuring long-term reliability. Customizability: We offer a range of sizes, pore sizes, and shapes to meet specific requirements, providing tailored solutions for various applications.

Product Introduction 1um Porous Titanium Candle Filter Pipe Cartridge is the specialized pipe made from a type of metal called a titanium alloy. These pipes are designed to filter and purify fluids or gases in a variety of industrial applications. Titanium alloys are metals that contain a significant amount of titanium, often combined with other metals such as aluminum, vanadium, or molybdenum, to enhance their properties. These alloys are known for their high strength-to-weight ratio, corrosion resistance, and ability to withstand high temperatures. 1um Porous Titanium Candle Filter Pipe Cartridge is typically made by shaping the alloy into a tube or pipe with a specific pattern of channels or holes. This structure allows fluids or gases to flow through the pipe while trapping impurities or particulates that are too large to pass through the pores. The pipes can be designed in various sizes, shapes, and configurations to suit specific applications. Parameter Brand: TOPTITECH Material: GR1 titanium powder Length: 40 Diameter: 30mm Filtration accuracy: 1um Pressure Resistance: 2.5 Mpa/cm Breathability: 6M /h.m kPa

Titanium alloys are metals that contain a significant amount of titanium, often combined with other metals such as aluminum, vanadium, or molybdenum, to enhance their properties. These alloys are known for their high strength-to-weight ratio, corrosion resistance, and ability to withstand high temperatures. 1um Porous Titanium Candle Filter Pipe Cartridge is typically made by shaping the alloy into a tube or pipe with a specific pattern of channels or holes. This structure allows fluids or gases to flow through the pipe, while trapping impurities or particulates that are too large to pass through the pores. The pipes can be designed in various sizes, shapes, and configurations to suit specific applications. Parameter Brand: TOPTITECH Material: GR1 titanium powder Length: 40 Diameter: 30mm Filtration accuracy: 1um Pressure Resistance: 2.5 Mpa/cm Breathability: 6M /h.m .kPa Features 1.Resistance to biofouling: Titanium alloys are resistant to biofouling, which is the accumulation of organic matter on a surface. This property makes them ideal for use in applications where the filter will be exposed to biological matter, such as seawater or wastewater. 2.High chemical inertness: Titanium alloys are highly chemically inert, meaning they do not react with most chemicals. This property makes them ideal for use in applications where the fluid or gas being filtered could react with other materials and cause damage or contamination. 3.Resistance to fatigue: Titanium alloys have a high resistance to fatigue, which is the weakening of a material due to repeated stress. This property makes them ideal for use in applications where the filter will be subjected to cyclic loading or vibration. 4.Improved product quality: Titanium alloy filter pipes can improve the quality of the end product by removing impurities and contaminants. This can be particularly important in industries such as pharmaceuticals, where product purity is critical. 5.Low-pressure drop: Titanium alloy filter pipes have a low-pressure drop, which means they do not significantly reduce the flow rate of the fluid or gas being filtered. This property makes them ideal for applications where a high volume of fluid or gas needs to be filtered with minimal flow restriction. 6.Cost-effective: While titanium alloys can be more expensive than other filter materials, their long service life and low� maintenance requirements  make them a cost-effective choice over time. They can reduce operating costs and downtime, improving the overall efficiency of� industrial processes. Application 1.Mining: 2.Food and beverage: 3.Power generation: 4.Marine: 5.Automotive: 6.Pulp and paper: 7.Electronics:

30 Titanium Porous Filter Element With M36 Interface is a type of filter made from titanium metal that has a porous structure The porosity in the filter is created by sintering titanium powder particles together under high temperature and pressure resulting in a threedimensional porous structure that allows fluids or gases to pass through while trapping particles or contaminants Due to their unique properties 30 Titanium Porous Filter Element With M36 Interface offers several advantages over other types of filters They have high mechanical strength excellent thermal stability and can withstand high pressure and temperature They are also resistant to corrosion and have a long lifespan making them a costeffective solution for filtering applications that require durability and reliability Parameter Brand TOPTITECH Material titanium powder Length 30 Diameter 60mm Pore size 55um Filtration efficiency 99 Features 1High porosity Porous titanium filter elements have a high porosity due to the sintered titanium powder particles used in their manufacturing This porosity allows for high flow rates of fluids or gases through the filter making them ideal for applications where a high rate of filtration is required 2Corrosion resistance Titanium is a highly corrosionresistant material and porous titanium filter elements are no exception They can withstand exposure to a wide range of chemicals making them ideal for use in harsh chemical environments 3High strength Porous titanium filter elements have high mechanical strength allowing them to withstand highpressure and hightemperature conditions without deformation or damage 4Long lifespan The durability and resistance to corrosion of porous titanium filter elements contribute to a long lifespan reducing the need for frequent replacements and maintenance 5Customizable pore size By changing the sintering conditions the filters pore size can be modified during the manufacturing process This enables the development of filters with certain pore diameters to satisfy the requirements of various filtration applications 6Biocompatibility Titanium is a biocompatible material meaning it is nontoxic and can be used in medical and biological applications Porous titanium filter elements are often used in the pharmaceutical and biotech industries due to their biocompatibility and resistance to corrosion 7Easy to clean Porous titanium filter elements are easy to clean and maintain making them a costeffective filtration solution for many industrial applications Application 1Chemical industry 2Pharmaceutical industry 3Food industry 4Aerospace industry 5Oil and gas industry 6Environmental industry

A custom interface stainless steel wire mesh five-layer sintered filter is an efficient filter used for filtering and screening particles and solid impurities. It is made of multiple layers of stainless steel wire mesh sintered together, offering excellent filtration performance and durability. Specifications Material: 316L Size: 160*350mm Filtration accuracy: 50um Techinque: Sintering Temperature resistance: 600�°C Features Multi-layer structure: The filter adopts a five-layer sintered structure, with progressively smaller pore sizes in each layer, enabling filtration and classification of different particle sizes. High filtration accuracy: With fine stainless steel wire mesh, this filter can effectively filter out tiny particles and solid impurities, achieving high-precision filtration. Corrosion resistance: The filter made of stainless steel wire mesh exhibits excellent corrosion resistance, allowing it to operate stably in harsh environments. High strength and durability: After sintering treatment, the stainless steel wire mesh filter possesses high strength and durability, capable of withstanding high pressure and workloads, thereby extending its service life. Applications of the stainless steel wire mesh five-layer sintered filter in the field of environmental protection include: Wastewater treatment: It can be used in the solid-liquid separation process in wastewater treatment plants. The filter removes suspended solids, sediment, and particulate pollutants from wastewater, purifying it to meet discharge standards. Exhaust gas treatment: In industrial exhaust gas treatment processes, the filter can capture and filter out particles, smoke, and pollutants from exhaust gases. It effectively reduces pollutant emissions, protecting the atmosphere and improving air quality. Liquid waste treatment: The filter can be used to handle solid particles and contaminants in liquid waste. It separates impurities from the waste, facilitating easier handling and disposal, and reducing environmental impact. Water treatment: It finds applications in water source purification and water treatment processes. The filter removes suspended solids, sediment, microorganisms, and harmful substances from water, providing clean and safe drinking water and industrial water. Solid waste treatment: It is suitable for solid-liquid separation in solid waste treatment processes. The filter separates liquids from solid waste, reducing waste volume and facilitating subsequent processing and disposal.

Sintered porous candle filter with M30 interface is created by compacting metal powder and subjecting it to high temperature sintering, resulting in a rigid and durable shape that possesses excellent air permeability and separation properties. The characteristics of the filter, including its pore size, distribution, strength, and air permeability, are influenced by the fineness of the powder particles, as well as the compacting and sintering procedures employed. sintered porous candle filter with M30 interface, which features a sintered porous structure, is capable of achieving a filtration rating of 0.25 50 um, making it suitable for a wide range of filtration applications. Parameters Material: Titanium Max. operating temperature:300 C Porosity:30% 35% Pore size:10um Size: 30 100mm Compressive strength:3 MPa Max. differential pressure:0.6 MPa Features 1.The sintered porous candle filter exhibits exceptional separation capabilities while maintaining a low pressure drop, owing to its efficient air permeability. 2.With a high filtration rating, the sintered porous candle filter effectively removes suspended solids and particles, resulting in excellent purification performance. 3.The sintered porous candle filter has excellent mechanical strength, providing exceptional rigidity and plasticity for a wide range of filtration applications. 4.The sintered porous candle filter is highly resistant to corrosion, high temperatures, and high pressures, ensuring long-term durability in even the most demanding filtration scenarios. Applications Water Treatment: removing impurities and particles from water, making them suitable for water treatment applications in industries such as pharmaceuticals, food and beverage, and municipal water treatment. Chemical Industry: used in the chemical industry to filter chemicals and solvents, remove impurities, and ensure product purity. Oil and Gas Industry: used in the oil and gas industry to filter fluids such as crude oil, natural gas, and other hydrocarbons. They are also used to remove impurities from drilling muds and other fluids used in drilling operations.

Product Introduction An M20 thread interface metal filter tube is a type of filter tube made from titanium powder that has been sintered together into a porous structure. The sintering process involves heating the powder to a high temperature until the particles fuse together, creating a solid but porous material. The filter tube has a standard M20 thread interface, which means it can be easily attached to other components or equipment using a compatible M20 thread. The porous structure of the M20 thread interface metal filter tube provides excellent filtration capabilities. The filter tube can remove impurities from liquids and gases, including particles, bacteria, and other contaminants. The size of the particles that can be filtered out depends on the pore size of the filter tube, which can be customized to suit specific applications. Parameter Size: 20 50mm Pore size: 2um Interface: M20 1.5 Porosity: 35%

30um Flange Connection Porous Titanium Filter Separation Element is manufactured using high-purity titanium material and advanced manufacturing processes, ensuring excellent filtration performance and reliability. It finds extensive applications in various industries, including chemical, petroleum, pharmaceutical, and food processing, for the precise filtration and separation of liquids and gases. Featuring precise filtration accuracy, this element effectively removes particles and impurities of 30 microns and above, guaranteeing product purity and quality. Designed with a flange connection, 30um Flange Connection Porous Titanium Filter Separation Element offers convenient installation and replacement. Moreover, it exhibits exceptional corrosion resistance and high-temperature performance, making it suitable for demanding environments involving corrosive liquids and high temperatures. Additionally, 30um Flange Connection Porous Titanium Filter Separation Element possesses remarkable mechanical strength and pressure resistance, enabling stable operation even under high-pressure conditions, and ensuring consistent and reliable filtration effectiveness. Specifications Material: GR1 titanium powder Pore size: 30 um Length: 500mm Diameter: 200mm Connection: Flange Flange diameter: 300mm Features and Applications High-purity titanium material: The element's corrosion resistance and durability make it an excellent choice for industries such as chemical processing, where it can effectively filter and separate corrosive liquids, ensuring the purity of chemical solutions. Precise filtration performance: With its 30-micron filtration accuracy, this element finds applications in the pharmaceutical industry, where it plays a crucial role in removing impurities and maintaining product quality and sterility. Easy installation and replacement: The flange connection design simplifies the installation and replacement process, making it ideal for industries that require frequent maintenance or system upgrades, such as food and beverage processing or environmental applications. Versatile applications: The element's ability to handle both liquid and gas filtration makes it suitable for a wide range of industries, including petroleum, where it can effectively separate solid particles and impurities from oil and gas streams, enhancing refining efficiency and protecting downstream equipment.