The square porous titanium plate is manufactured using advanced sintering technology, which results in a highly porous structure with interconnected channels and a large surface area. The porous structure of titanium plates allows for effective gas permeation and rapid exchange of gases. The interconnected network of pores provides a large surface area for gas interactions, promoting efficient gas diffusion and ensuring uniform distribution across the entire plate. This characteristic is particularly beneficial in applications where optimized gas diffusion is critical, such as fuel cells, electrolyzers, and gas purification systems. The compatibility of porous titanium plates with various gases further expands their utility. They find extensive use in industries such as fuel cells, electrolyzers, metal-air batteries, and gas purification systems, where efficient gas diffusion is crucial for optimal performance. Specifications: - Porosity: 30% to 40% - Pore Size: 5 microns - Dimensions: 50 mm x 50 x 1mm - Surface Coatings: Optional coatings such as platinum can be applied to enhance catalytic properties. Features: 1. High Gas Diffusion Efficiency: The porous structure ensures excellent gas diffusion and enables rapid exchange of gases. 2. Corrosion Resistance: Titanium is known for its excellent corrosion resistance. The porous titanium plate can withstand exposure to corrosive environments, making it suitable for applications where contact with aggressive substances is expected. 3. Mechanical Strength: The sintering process used to manufacture the porous titanium plate results in a structurally robust material. It possesses good mechanical strength, ensuring durability and reliability even under challenging operating conditions. 4. Customizability: The parameters of the porous titanium plate, such as pore size distribution and porosity, can be tailored to specific application requirements. This allows for the optimization of gas diffusion characteristics, ensuring optimal performance in various industries. 5. Compatibility: The porous titanium plate is compatible with a wide range of gases, making it suitable for diverse applications. It finds use in industries such as fuel cells, electrolyzers, metal-air batteries, and chemical processing, where efficient gas diffusion is essential. Applications: - Fuel Cells: The porous titanium plate serves as a gas diffusion layer in proton exchange membrane fuel cells (PEMFCs) and solid oxide fuel cells (SOFCs). - Electrolyzers: It is used in water electrolysis systems for efficient gas diffusion during hydrogen production. - Metal-Air Batteries: The plate enhances oxygen diffusion in metal-air battery systems, improving their performance. - Environmental Protection: The plate finds applications in air filters, gas purifiers, and exhaust gas treatment systems. - Chemical Processing: It is utilized in gas-liquid contactors, catalytic reactors, and gas sensors.
Product Introduction The Porous titanium round plate Diffusion Layer Hydrogen Electrode is made from a porous titanium material that allows the hydrogen gas to diffuse through the material and collect at the surface of the electrode. This diffusion layer helps to increase the efficiency of the hydrogen generator, as it allows for a greater surface area of the electrode to be exposed to the electrolyte, which in turn increases the amount of hydrogen that can be generated. Parameters Filtration precision: 0.45um 80um Application: The hydrogen industry, Hydrogen Fuel Cell industry, instruments, apparatus, etc. Temperature resistance:300 (wet) Sheet dimension range:0.8-2.5mm Thickness x
Standards ASTM / ASME B265 / SB265 Thickness 0.1mm to 12 mm Thk Sheet/Plate Size 1000 mm x 2000 mm, 1220 mm x 2440 mm, 1500 mm x 3000 mm, 2000 mm x 2000 mm, 2000 mm x 4000 mm Coil Width 1000mm, 1219mm, 1500mm, 1800mm, 2000mm, 2500mm, 3000mm, 3500mm etc. Coil Length 2000mm, 2440mm, 3000mm, 5800mm, 6000mm etc. Finish Hot rolled (HR), Cold rolled (CR) Form Coils, Foils, Rolls, Plain Sheet, Strip, Flats, Blank (Circle), Ring (Flange) etc.
The Porous titanium round plate Diffusion Layer Hydrogen Electrode is made from a porous titanium material that allows the hydrogen gas to diffuse through the material and collect at the surface of the electrode. This diffusion layer helps to increase the efficiency of the hydrogen generator, as it allows for a greater surface area of the electrode to be exposed to the electrolyte, which in turn increases the amount of hydrogen that can be generated. Parameters Filtration precision:0.45um 80um Application: The hydrogen industry, Hydrogen Fuel Cell industry, instruments and apparatus, etc. Temperature resistance:300 (wet) Sheet dimension range:0.8-2.5mm Thickness x
Porous titanium sheets are versatile materials used as gas diffusion layers (GDLs) in various industries. With their unique properties, these sheets enable efficient gas transfer, making them crucial components in fuel cells, electrolyzers, and other electrochemical applications. Porous titanium sheets are typically produced through a process called powder metallurgy. It involves compacting titanium powder into a desired shape and sintering it at high temperatures. The sintering process creates interconnected pores, resulting in the desired porosity. Specifications: Filtration precision: 0.2umâ??100microns Porosity: 30%â??45% Temperature resistance: 300 â??(wet) Thicknessï¼?0.5mm-50mm Width: Max. 1500mm Length: Max. 6000mm Feature Efficient Gas Distribution: The interconnected pore structure of porous titanium sheets allows for uniform gas distribution across the surface area, ensuring efficient gas diffusion and transport. Enhanced Catalyst Utilization: The high surface area of porous titanium sheets allows for the deposition of catalyst materials, promoting efficient electrochemical reactions and maximizing catalyst utilization. Low-Pressure Drop: The design of porous titanium sheets ensures minimal pressure drop across the gas diffusion layer, optimizing overall system performance. Surface Area: Porous titanium sheets offer a high surface area, enhancing the gas diffusion process and providing better electrochemical performance. Electrical Conductivity: These sheets exhibit good electrical conductivity, ensuring efficient current distribution within the electrochemical systems. Water Management: Porous titanium sheets assist in managing water within the gas diffusion layer, preventing flooding and aiding in effective electrochemical reactions. Application: Fuel Cells: Porous titanium sheets serve as essential components in proton exchange membrane fuel cells (PEMFC) and solid oxide fuel cells (SOFC). They enable effective gas distribution, and water management, and provide electrical conductivity. Electrolyzers: Porous titanium sheets are used in electrolyzers for hydrogen production. They facilitate efficient gas diffusion and enable water management, resulting in improved electrolysis performance. Batteries: Porous titanium sheets find application in various types of batteries, including lithium-air batteries and redox flow batteries. They enhance gas diffusion, and electrolyte distribution, and provide structural support for the electrode materials. Chemical and Petrochemical Industry: Porous titanium sheets play a vital role in catalytic reactors, gas separation units, and other chemical processes. They provide a high surface area for catalyst deposition and facilitate efficient gas transport.
Porous titanium sheets are versatile materials used as gas diffusion layers (GDLs) in various industries. With their unique properties, these sheets enable efficient gas transfer, making them crucial components in fuel cells, electrolyzers, and other electrochemical applications. Specifications: Filtration precision: 0.2umâ??100microns Porosity: 30%â??45% Temperature resistance: 300 â??(wet) Thicknessï¼?0.5mm-50mm Width: Max. 1500mm Length: Max. 6000mm Feature Efficient Gas Distribution: The interconnected pore structure of porous titanium sheets allows for uniform gas distribution across the surface area, ensuring efficient gas diffusion and transport. Enhanced Catalyst Utilization: The high surface area of porous titanium sheets allows for the deposition of catalyst materials, promoting efficient electrochemical reactions and maximizing catalyst utilization. Low-Pressure Drop: The design of porous titanium sheets ensures minimal pressure drop across the gas diffusion layer, optimizing overall system performance. Surface Area: Porous titanium sheets offer a high surface area, enhancing the gas diffusion process and providing better electrochemical performance. Electrical Conductivity: These sheets exhibit good electrical conductivity, ensuring efficient current distribution within the electrochemical systems. Water Management: Porous titanium sheets assist in managing water within the gas diffusion layer, preventing flooding and aiding in effective electrochemical reactions. Application: Fuel Cells: Porous titanium sheets serve as essential components in proton exchange membrane fuel cells (PEMFC) and solid oxide fuel cells (SOFC). They enable effective gas distribution, and water management, and provide electrical conductivity. Electrolyzers: Porous titanium sheets are used in electrolyzers for hydrogen production. They facilitate efficient gas diffusion and enable water management, resulting in improved electrolysis performance. Batteries: Porous titanium sheets find application in various types of batteries, including lithium-air batteries and redox flow batteries. They enhance gas diffusion, and electrolyte distribution, and provide structural support for the electrode materials. Chemical and Petrochemical Industry: Porous titanium sheets play a vital role in catalytic reactors, gas separation units, and other chemical processes. They provide a high surface area for catalyst deposition and facilitate efficient gas transport.
Titanium felt, a diffusion layer material, provides electrons between the catalyst layer and the bipolar plate or the current distributor on the anode side. Due to its three-dimensional network porous structure, high porosity, high corrosion resistance and other characteristics, titanium felt has become one of the best materials of diffusion layer in fuel cell and hydrogen production by water electrolysis. Parameters: Material: Titanium Size:1500*1200mm Thickness:0.2mm, 0.25mm, 0.40mm, 0.60mm, 0.80mm, 1.00mm, 2.0mm. Porosity:60% - 75% â?» Porosity and Size can be customized. Technological Process Pure titanium (special process)-titanium fiber (laying, sintering)-titanium fiber felt (with three-dimensional network porous structure)- Titanium felt for LGDL Features: 1. Three-dimensional grid porous structureï¼? 2. Strong corrosion resistanceï¼? 3. Optimal electrolysis performanceï¼? 4. High porosity and current densityï¼? 5. Uniform pore size distribution. Applicantion 1. Liquid/gas diffusion layer; 2. Hydrogen absorber; 3. Hydrogen-rich water dispenser; 4. Diffusion layer of hydrogen cell stack; 5. PEM hydrogen production by water electrolysis.
We offer a wide plethora of Zinc in many forms including LME registered and non registered Special High Grade Ingots and Jumbos, cathodes, dust, foil, granules, powder, pieces, anodize activated powder, shot, and a mossy form. Zinc is a bluish-white, lustrous metal. It is brittle at ambient temperatures but is malleable at 100 to 150°C. It is a reasonable conductor of electricity, and burns in air at high red heat with evolution of white clouds of the oxide. Plating thin layers of zinc on to iron or steel is known as galvanizing and helps to protect the iron from corrosion.
titanium plates are used as filter elements in many fields such as , water treatment industry, food industry, bioengineering, chemical industry, petrochemical industry, metallurgical industry and gas purification. At the same time, the sintered porous titanium plate can also be used as a gas diffusion layer (GDL) in a new generation of fuel cells (PEMFC). offers porous titanium plates in a wide range of filter fineness and sizes. We can also perform mechanical processing on porous titanium plates, such as chamfering, punching, cutting, etc. Porous titanium plates are widely used as gas diffusion layers in the electrolysis industry. The gas diffusion layer is a key component used in electrolysis cells to transport hydrogen and oxygen to the electrode reaction surface and to transport the electric current generated by the reaction back into the electrolyte. The porous titanium plate has the following advantages as a gas diffusion layer: 1.High gas permeability: The porous titanium plate has uniform pore size distribution and high porosity, which can provide high-efficiency gas permeability, so that the gas diffusion layer has good gas transport performance during the electrolysis process. 2.Good conductivity: The porous titanium plate has good conductivity, which can effectively transport the current generated by the reaction to the electrolyte and improve the electrolysis efficiency. 3.Strong corrosion resistance: The porous titanium plate is made of high-purity titanium metal and has good corrosion resistance. In harsh environments such as strong acid and strong alkali, the porous titanium plate can maintain good stability and durability. Porous titanium plate (sintered titanium plate) specifications Filtration accuracy: 0.22um 100um (0.45um, 1um, 3um, 5um, 10um, 20um, 30um, 50um) Porosity: 30% 40% Pressure: 0.2Mpa/cm2 Temperature resistance: 300 Maximum working pressure: 0.2Mpa/cm 2 Sheet size range: 0.8-2.8mm thickness x
Product Introduction Metal porous titanium plates are primarily used in standard PEM electrolyzer single cells and stacks as the flow field or diffuser material, particularly on the oxygen (anode) side. . Electrolyzer hardwares cannot use carbon-based gas diffusion layers (GDLs) at the anode because the carbon will immediately oxidize to CO2 (if the medium is acidic) or carbonate ions (if the medium is basic) during the reaction. Porous titanium plates are an excellent option for a diffusion medium in various applications, including electrolyzers and fuel cells. TOPTITECH�´s porous metal gas diffusion layers are the top choice for achieving high performance in these applications. The uniform porosity, strength, and corrosion resistance outperform other diffusion layer productsTOPTITECH substrates are available in a variety of alloys to support a full range of fuel cell operating temperatures, and can be coated with surface treatments or catalyst layers to enchance performance. In an electrolyzer, why not utilize a carbon-based Gas Diffusion Layer? Using a carbon-based gas diffusion layer (GDL) in an electrolyzer can pose several challenges. The presence of oxygen ions and voltage on the anode side of the electrolyzer can cause the carbon in the GDL to be oxidized, resulting in the generation of CO2 gas. While this can initially lead to a lower electrolysis voltage, the consumption of the carbon GDL is a short-lived phenomenon. As a result, the stack compression decreases, leading to higher resistance and lower performance. Therefore, it is not advisable to use a carbon-based GDL in an electrolyzer. Parameters Place of origin: Baoji, China Brand: TOPTITECH Filtration precision:0.2um-100um Material: titanium Working temperature 300 Length: 30-1000mm(More than 1000mm can be welded) Thickness: 0.5mm
Foil Thickness: 0.05-0.5 mm; Width:300-500 mm, Sheet Thickness: 0.6-30 mm; width:1500-2000 mm. Grade 1, 2, 4, 5, and 7. Submit LOI / RFQ along with KYC/CIS. one full service of the shipments, we are available provide FOB, CIF, DDU and DAP.
The raw material of the porous titanium plate for hydrogen production by PEM water electrolysis is pure titanium powder, which is formed by pressing the mold and sintered at high temperature in vacuum. Hydrogen production by water electrolysis is a new energy pillar sunrise industry. The micropore diameter of the porous titanium plate is used to fully react with the medium to produce hydrogen energy. The surface is coated to prevent oxidation and increase the efficiency of hydrogen production. Porous titanium plates are widely used in hydrogen energy, petrochemical, and pharmaceutical filtration, with obvious advantages, and are indispensable products. Product Parameters Filtration accuracy: 0.5um-50um Porosity: 30-40% Permeability: 3-800m3/m2hkPa Compressive strength: 2-3Mpa Temperature resistance: 300 Maximum working pressure difference: 0.6Mpa Features 1. Strong temperature resistance, typical application at temperatures below 300 C;High filtration precision, stable pores, can effectively remove suspended solids and particles, etc., and the purification effect is good; 2. Good air permeability and low pressure loss. High porosity, uniform pore size, low initial resistance; 3. Easy to blow back, can be regenerated online, easy to clean, strong regeneration ability, long service life; 4. High mechanical strength, good rigidity, good plasticity, no need for additional skeleton support protection, easy to install and use; 5. Easy maintenance, good assembly, can be welded, bonded and machined; 6. Uniform pores, especially suitable for occasions requiring high uniformity such as fluid distribution and homogenization treatment; 7. Good corrosion resistance, can be used in nitric acid, sulfuric acid, acetic acid, oxalic acid, phosphoric acid, 5% hydrochloric acid, molten sodium. Stable use in liquid hydrogen, liquid nitrogen, hydrogen sulfide, acetylene, water vapor, hydrogen, carbon dioxide gas and other environments. Applications The porous titanium plate is used as the GDL (gas diffusion layer) of the anode for hydrogen production by water electrolysis in PEM water electrolysis. The pores are uniform and the porosity can be controlled at 30%-40%. Good electrical conductivity and strong corrosion resistance. It can be coated with platinum group metals to enhance its catalytic performance. The cost is relatively high, but the hydrogen production efficiency is high and the purity is high, which is suitable for industrial hydrogen production. Every kind of filter material will be blocked, so it is very important to choose the pore size. If you choose the right pore size, you will have a good filtration efficiency, and the blocking situation will be alleviated. If the blockage is serious, regular replacement can solve this problem.
In an electrolyzer, why not utilize a carbon-based Gas Diffusion Layer? Using a carbon-based gas diffusion layer (GDL) in an electrolyzer can pose several challenges. The presence of oxygen ions and voltage on the anode side of the electrolyzer can cause the carbon in the GDL to be oxidized, resulting in the generation of CO2 gas. While this can initially lead to a lower electrolysis voltage, the consumption of the carbon GDL is a short-lived phenomenon. As a result, the stack compression decreases, leading to higher resistance and lower performance. Therefore, it is not advisable to use a carbon-based GDL in an electrolyzer. Parameters Place of origin: Baoji, China Brand: TOPTITECH Filtration precision:0.2um-100um Material: titanium Working temperatureï¼?â?¤ 300â?? Length: 30-1000mm(More than 1000mm can be welded) Thickness: â?¥0.5mm FEATURES High corrosion resistance: Titanium is a highly corrosion-resistant material, making it suitable for use in harsh environments. High strength-to-weight ratio: Porous titanium plates are lightweight yet strong, making them ideal for applications where weight is a concern. High porosity: The porous nature of titanium plates allows for efficient diffusion of gases, making them well-suited for use in electrolyzers and fuel cells. Customizable properties: The pore size and distribution of porous titanium plates can be tailored to meet specific application requirements, allowing for greater flexibility in design. Excellent thermal conductivity: Titanium has a high thermal conductivity, which allows for efficient heat transfer and thermal management in fuel cells and electrolyzers. Long service life: Due to its corrosion resistance and durability, porous titanium plates have a long service life, reducing maintenance and replacement costs. Ease of manufacturing: Porous titanium plates can be manufactured using a variety of techniques, including sintering, powder metallurgy, and electrochemical etching, making them easy to produce in large quantities and at a reasonable cost.
Sheet :Thickness:0.6-10mm Max Length:1000mm Max width:340mm Pipe : OD10-150MM* wall thickness 2-5MM Materials : titanium GR1 GR2 Feature: 1.Working Temperature:-200-1000°C 2.Corrosion Resistance 3.High Filtering Efficiency 4.Metallic capacities, such as noise reduction,hot resistance,heat conduction,high strength and etc 5.Easy to welding and long working life Filter Shape: Could be cartridge filters,disc filters ,cup filters,cap filters,filter palte and etc Application: separation and purification of solid-liquid, gas-liquid and gas-solid in the petrifaction, hydraulic manufacturing and medical apparatus and instruments of basic industries. Technique parameters titanium powder sintering filter element technique parameters using temperatur:â?¤300°C filtering level filtration precision um maximum diameter um permeability coefficient 10-12m2 permeability m3/h.m2.kpa thickness mm compression strength Mpa/cm3 T9 0.2 2.5 1.5 0.6-10 3 T8 0.5 4 3 0.6-10 3 T7 1 6 5 0.6-10 3 T6 2 10 15 0.6-10 3 T5 5 15 0.04 40 0.6-10 2.5 T4 10 30 0.15 120 0.6-10 2.5 T3 20 60 1.01 250 0.6-10 2.5 T2 30 100 2.01 500 0.6-20 2.5 T1 50 160 3.02 800 0.6-20 2.5 The product performance can achieve and even exceed GB. The internal pressure of powder rolled and roll tube welding is more than 0.3Mpa
Mainly used in separation and filtration petrochemicals, liquid drug manufacturing, medical equipment, and other fields. Material: titanium Specifications:max.Width 340mm, max.Length 1000mm, max.Thickness 3.0mm Precision:0.2 to 65um
Product Introduction Sintered porous titanium plates are a form of material made from titanium powder that has been heated and crushed to produce a particularly porous and light structure. These plates have a high strength-to-weight ratio and are resistant to corrosion and wear. Sintered porous titanium plates are used in various applications where a high level of strength and durability is required, such as in the aerospace, automotive, and medical industries. Parameters Material: Titanium Porosity: 30%-40% Pore size: 1um-50um Thickness: above 1mm Dia: 1MM above Features 1. High Strength-to-Weight Ratio: Sintered porous titanium plates have a high strength-to-weight ratio, which means they are strong and durable while also being lightweight. This makes them ideal for applications where weight is critical, such as in the aerospace industry. 2. Corrosion Resistance: Titanium is highly resistant to corrosion, making it ideal for use in harsh environments where other materials may corrode or degrade over time. This makes sintered porous titanium plates a good choice for applications in the chemical and petrochemical industries. 3. Biocompatibility: Titanium is biocompatible, which means it is not toxic to living tissue and does not cause adverse reactions when implanted in the human body. This makes sintered porous titanium plates ideal for medical applications such as implants and prosthetics. 4. Customizable Pore Size and Distribution: Sintered porous titanium plates can be customized to have specific pore sizes and distributions, which makes them useful for applications such as filtration and catalysis. 5. High-Temperature Resistance: Titanium has a high melting point and can withstand high temperatures, making it ideal for use in high-temperature applications such as heat exchangers and furnace components. Processing The processing of sintered porous titanium plates involves several steps. First, the high purity of titanium powder will be sieved and then molded and pressed into a desired shape. Then the material is heated in a furnace to sinter the titanium particles together to form a solid structure. The final product is then machined to the desired shape and size.
Product Introduction A porous titanium plate is a type of material made from titanium that has many small holes or pores throughout its surface. These pores can range in size from a few micrometers to several millimeters, depending on the manufacturing process and the intended use of the plate. Porous titanium plates are commonly used in a variety of applications, includingbiomedical implants, filtration systems, and catalytic converters. One of their most important properties is their high surface area-to-volume ratio, which allows for efficient mass transfer and gas exchange. Parameters Material: titanium sponge Porosity: 35% Filtration rate: 0.22mm- 100mm Thickness: above 1mm Size: square round and customized with the drawing How is the porosity of the plate controlled during manufacturing The porosity of aporous titaniumplate can be controlled during the manufacturing process. In the powder sintering process,titanium powderis compressed and heated to a temperature just below the melting point of titanium. The powder particles then fuse together to form a solid plate with a controlled porosity. The porosity of the plate can be controlled by adjusting the size and shape of the powder particles, the temperature and pressure of thesintering process, and the amount of binder material used.
Product Introduction Sintered porous titanium plate is a porous material made of titanium powder that is compressed and heated to create a solid block. The block is then treated with acid or other chemicals to remove any remaining impurities and create a porous structure. Product parameters Aperture size: 0.1 3mm Porosity: 30% 60% Thickness: 0.5mm 6mm Specific surface area: 100 1000m2/m3 Tensile strength: 300 600MPa Thermal conductivity: 2 20W/mK Application fields: widely used in aviation, automobiles, medical equipment, biological materials, filter materials and other fields Features 1. Efficient transmission of hydrogen: The highly porous structure of the porous titanium plate enables the effective transmission of hydrogen and has good gas transmission performance, which can significantly improve the efficiency of the water electrolysis hydrogen production system. 2. Lightweight and corrosion-resistant: The porous titanium plate is light in weight and is very suitable for making the transmission layer. At the same time, the titanium material can resist the corrosion of many acidic and alkaline media and has a long life and stable performance. 3. Easy to clean: The porous titanium plate has a large opening rate and a large surface area, which is easy to clean and handle, and can effectively reduce the pollution of the water electrolysis hydrogen production system and reduce the impact on the environment. 4. Highly stable: The porous titanium plate has a long service life and high stability, and can keep its pore structure and performance unchanged, further improving the stability of the hydrogen production system, thereby meeting various needs of industrial and scientific laboratories.
Porous titanium plate is a type of material that is characterized by its interconnected network of pores. It is made from titanium, which is a lightweight, strong, and corrosion-resistant metal. The porosity of the titanium plate allows for increased surface area, which can be useful in applications such as filtration, catalysis, and biomedical implants. Product Parameters Brand: TOPTITECH Porosity: 30-40% Filtration rate: 1um-50um Temperature: â?¤300â?? Size: Customized Porous titanium plate has several features that make it a unique material. First, the pore size and distribution can be controlled during manufacturing, allowing for customization of the material for specific applications. The interconnected network of pores also allows for fluid or gas flow through the material, making it useful for filtration and catalysis. Porous titanium plate is also biocompatible, which makes it suitable for use in biomedical applications. Porous titanium plate has a wide range of applications in various industries. In biomedical applications, it is commonly used for bone implants, where the porous structure allows for better integration with surrounding bone tissue. It is also used in dental implants, where the porous structure allows for better anchoring of the implant. In the chemical industry, porous titanium plate is used for catalysis, where the high surface area and pore structure allow for efficient chemical reactions. It is also used in filtration applications, such as air and water filters. Porous titanium plate can be manufactured using several techniques, including powder metallurgy, sintering, and electrochemical deposition. In powder metallurgy, titanium powder is mixed with a binder material and then pressed into a desired shape. The material is then sintered to remove the binder and fuse the titanium particles together. In electrochemical deposition, a layer of titanium is deposited onto a substrate using an electrochemical process. The resulting layer can be made porous by controlling the deposition parameters.
Sintered porous titanium plates are a form of material made from titanium powder that has been heated and crushed to produce a particularly porous and light structure. These plates have a high strength-to-weight ratio and are resistant to corrosion and wear. Parameters Material: titanium Porosity: 30%-40% Pore size: 1um-50um Thickness: above 1mm DI: 1MM above Features 1.High Strength-to-Weight Ratio. 2.Corrosion Resistance. 3.Biocompatibility. 4.Customizable Pore Size and Distribution. 5.High Temperature Resistance. Application Chemical Industry: Sintered porous titanium plates are used in chemical processing equipment, such as filters and catalysts, due to their resistance to corrosion and customizable pore size. Medical Industry: Sintered porous titanium plates are used in medical implants and prosthetics such as bone substitutes and dental implants� due to their biocompatibility, strength, and durability. Energy Industry: Sintered porous titanium plates are used in fuel cells and batteries due to their high strength-to-weight ratio and ability to conduct electricity. Environmental Industry: Sintered porous titanium plates are used in water treatment systems and air filters due to their customizable pore size and distribution and resistance to corrosion. Processing The processing of sintered porous titanium plates involves several steps. First, the high purity of titanium powder will be sieved and then mold pressed into a desired shape. Then the material is heated in a furnace to sinter the titanium particles together to form a solid structure. The final product is then machined to the desired shape and size.