Product Introduction Ultra-thin 0.6mm titanium porous transfer layer for hydrogen has a wide range of applications in hydrogen industry. In the hydrogen industry, these plates are used for hydrogen purification and separation, and they are an important component in many hydrogen-based technologies. Ultra-thin 0.6mm titanium porous transfer layer for hydrogen has good electrical conductivity, gas permeability, liquid permeability and chemical stability. In electrochemical systems such as fuel cells, the application of porous titanium plates can improve the energy conversion efficiency and stability of electrochemical systems, thereby promoting the development and application of electrochemical systems. Parameters Material: Gr1 titanium powder Purity: 99.6% Thickness:0.6mm Size: customized Application: PTL GDL in PEM electrolyzer Porosity: 35% Pore size: 20um Features High conductivity: Titanium is a good conductive material, and the porous titanium plate has excellent conductivity and can effectively transport electrons. High gas permeability: The porous titanium plate can control the parameters such as pore size and porosity to make it have high gas permeability, so that it can effectively transmit gases such as hydrogen and oxygen. Good liquid permeability: The pore structure of the porous titanium plate can control the transmission of liquid, so that it has high liquid permeability. High chemical stability: Titanium has good chemical stability and can operate stably for a long time in acidic or alkaline environments. Applications Hydrogen energy industry Gas filtration Oil and liquid filters Muffler Fuel Industry Catalyst filtration Package and Shipment 1. Sintered Filters are usually packed in cartons, wrapped in soft film, and fixed in a box filled with industrial foam cotton, and the outer baler is packed with plastic bags with no damage during transportation. 2. Wooden box export packaging can also be customized. The foam cotton can be filled and fixed, the external box is sealed, the bottom is specified, the whole packaging is processed, and the goods can be delivered to the customer's designated place without damage.
Ultra-thin 0.6mm titanium porous transfer layer for hydrogen has a wide range of applications in hydrogen industry. In the hydrogen industry, these plates are used for hydrogen purification and separation, and they are an important component in many hydrogen-based technologies. Ultra-thin 0.6mm titanium porous transfer layer for hydrogen has good electrical conductivity, gas permeability, liquid permeability and chemical stability. In electrochemical systems such as fuel cells, the application of porous titanium plates can improve the energy conversion efficiency and stability of electrochemical systems, thereby promoting the development and application of electrochemical systems. Parameters Material: Gr1 titanium powder Purity: 99.6% Thickness:0.6mm Size: customized Application: PTL GDL in PEM electrolyzer Porosity: 35% Pore size: 20um Features High conductivity: Titanium is a good conductive material, and the porous titanium plate has excellent conductivity and can effectively transport electrons. High gas permeability: The porous titanium plate can control the parameters such as pore size and porosity to make it have high gas permeability, so that it can effectively transmit gases such as hydrogen and oxygen. Good liquid permeability: The pore structure of the porous titanium plate can control the transmission of liquid, so that it has high liquid permeability. High chemical stability: Titanium has good chemical stability and can operate stably for a long time in acidic or alkaline environments. Applications Hydrogen energy industry Gas filtration Oil and liquid filters Muffler Fuel Industry Catalyst filtration
Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating is a material used as an anode in an electrochemical reaction, and it is usually made of pure titanium or titanium alloy. During the electrochemical reaction, Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating absorb electrons and are oxidized, forming an oxide coating on its surface, commonly known as titanium anodic oxide (TAO). Titanium anodized layer has many useful properties, such as high hardness, excellent corrosion resistance, wear resistance, etc., which makes it widely used in many applications. Among them, the application of coated titanium anode is particularly prominent. Parameter Substrate material: titanium Grade 1, titanium Grade 2 Dimensions: customer drawing welcomed Shape: Plate/Tube/Rod/Mesh shape MMO coating: Ir-Ta coating Coating thickness: 0.2-12 m Temperature:
Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating is a material used as an anode in an electrochemical reaction, and it is usually made of pure titanium or a titanium alloy. During the electrochemical reaction, Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating absorbs electrons and is oxidized, forming an oxide coating on its surface, commonly known as titanium anodic oxide (TAO). Parameter Substrate material: titanium Grade 1, titanium Grade 2 Dimensions: customer drawing welcomed Shape: Plate/Tube/Rod/Mesh shape MMO coating: Ir-Ta coating Coating thickness: 0.2-12m Temperature:
With the rapid advancement of technology, particularly in aerospace and other related industries, the demand for titanium metal has significantly increased. However, this has also resulted in a substantial amount of titanium metal scrap. As a result, the recovery of titanium metal scrap has become crucial in conserving resources and reducing costs. Titanium scrap comes from various sources, such as during the production of sponge titanium. The upper skin, bottom, and sides of sponge titanium may be contaminated by impurities like iron, chlorine, oxygen, and nitrogen. These impurities make the titanium scrap unsuitable for manufacturing and must be recycled. Additionally, titanium ingot casting and processing titanium materials into titanium products also generate titanium scrap. To recycle titanium metal scrap, the following methods can be employed: High-quality uncontaminated titanium scrap can be utilized as an additive for smelting titanium ingots or mixed with sponge titanium to produce titanium blocks. Waste titanium sponges, heads, and scraps can be utilized as alloy additives in the ferrotitanium industry or raw materials for titanium powder, depending on their purity and composition. Waste titanium powder can be utilized as deflagration agents in the pyrotechnic sector, additives in the processing of aluminum, and raw materials for titanium products made using powder metallurgy. Titanium scrap with numerous impurities can be processed into high-titanium iron. What is the process for recycling titanium scrap? The process of recycling titanium scrap typically involves the following steps: Collection and sorting: Titanium scrap is collected from various sources, such as manufacturing facilities, aerospace companies, and medical facilities. The scrap is then sorted based on its composition and quality. Cleaning and preparation: The titanium scrap is cleaned and prepared for processing. This may involve removing any impurities, such as oil or dirt, and cutting the scrap into smaller pieces. Melting: The titanium scrap is melted in a furnace at high temperatures. This process helps to separate titanium from any other metals or materials that may be present. Refining: The melted titanium is refined to remove any remaining impurities and improve its quality. This may involve adding other materials, such as aluminum or vanadium, to improve the properties of the titanium. Forming: The refined titanium is then formed into various shapes and products, such as sheets, bars, or wire. These products can be used in a wide range of applications, including aerospace, medical, and automotive industries.
With the rapid advancement of technology, particularly in aerospace and other related industries, the demand for titanium metal has significantly increased. However, this has also resulted in a substantial amount of titanium metal scrap. As a result, the recovery of titanium metal scrap has become crucial in conserving resources and reducing costs. Titanium scrap comes from various sources, such as during the production of sponge titanium. The upper skin, bottom, and sides of sponge titanium may be contaminated by impurities like iron, chlorine, oxygen, and nitrogen. These impurities make the titanium scrap unsuitable for manufacturing and must be recycled. Additionally, titanium ingot casting and processing titanium materials into titanium products also generate titanium scrap. To recycle titanium metal scrap, the following methods can be employed: High-quality uncontaminated titanium scrap can be utilized as an additive for smelting titanium ingots or mixed with sponge titanium to produce titanium blocks. Waste titanium sponges, heads, and scraps can be utilized as alloy additives in the ferrotitanium industry or raw materials for titanium powder, depending on their purity and composition. Waste titanium powder can be utilized as deflagration agents in the pyrotechnic sector, additives in the processing of aluminum, and raw materials for titanium products made using powder metallurgy. Titanium scrap with numerous impurities can be processed into high-titanium iron. What is the process for recycling titanium scrap? The process of recycling titanium scrap typically involves the following steps: Collection and sorting: Titanium scrap is collected from various sources, such as manufacturing facilities, aerospace companies, and medical facilities. The scrap is then sorted based on its composition and quality. Cleaning and preparation: The titanium scrap is cleaned and prepared for processing. This may involve removing any impurities, such as oil or dirt, and cutting the scrap into smaller pieces. Melting: The titanium scrap is melted in a furnace at high temperatures. This process helps to separate titanium from any other metals or materials that may be present. Refining: The melted titanium is refined to remove any remaining impurities and improve its quality. This may involve adding other materials, such as aluminum or vanadium, to improve the properties of the titanium. Forming: The refined titanium is then formed into various shapes and products, such as sheets, bars, or wire. These products can be used in a wide range of applications, including aerospace, medical, and automotive industries.
Titanium foil is a thin sheet of titanium metal that is typically less than 0.1 millimeters thick. Titanium foil is produced through a process known as rolling, which involves passing a titanium ingot through a series of rollers to gradually reduce its thickness. The resulting titanium foil is typically very thin, with a thickness ranging from a few micrometers to a few millimeters. Titanium foil is valued for its high strength-to-weight ratio, excellent resistance to corrosion, and biocompatibility with the human body. Parameter Mateial: titanium Grade: Gr 1, 2, 5(6Al-4V), 7(Ti-0.15Pd), 9(3Al-2.5V), 12, 23(6AL-4V ELI), 15V-3Al-3Sn-3Cr Thickness: 0.01-0.1mm Wideth: 10-500mm,customized Length: 10-1000mm, customized Processing Service: Bending, Welding, Decoiling, Cutting, Punching Standard: ASTMB265 Ti Content (%): 99.6% Features 1.High strength-to-weight ratio: Titanium is known for its high strength-to-weight ratio, which means that it is strong but also lightweight. This makes it ideal for applications where weight is a critical factor, such as aerospace and sporting goods. 2.Excellent corrosion resistance: Titanium has excellent resistance to corrosion, which makes it useful in harsh or corrosive environments, such as marine or chemical processing applications. 3.Biocompatibility: Titanium is biocompatible, which means that it is not harmful to living tissue or the human body. This makes it useful for medical implants such as dental implants, joint replacements, and pacemakers. 4.Low thermal expansion: Titanium has a low coefficient of thermal expansion, which means that it does not expand or contract significantly with changes in temperature. This makes it useful in applications where dimensional stability is important, such as precision engineering. 5.High melting point: Titanium has a high melting point of 1,668C (3,034F), which means that it can withstand high temperatures without melting or degrading. This makes it useful in high-temperature applications such as jet engines and furnace components. 6.Good electrical conductivity: Titanium has good electrical conductivity, which makes it useful in electronic applications such as capacitors and batteries. 7.Ductility: Titanium is ductile, which means that it can be easily formed into different shapes without cracking or breaking. This makes it useful in applications where complex shapes are required, such as aerospace components.
Titanium foil is a thin sheet of titanium metal typically less than 0.5 millimeters thick. Titanium foil is produced through a process known as rolling, which involves passing a titanium ingot through a series of rollers to gradually reduce its thickness. The resulting titanium foil is typically very thin, with a thickness ranging from a few micrometers to a few millimeters. Titanium foil is valued for its high strength-to-weight ratio, excellent resistance to corrosion, and biocompatibility with the human body. What is titanium? Titanium is a relatively new type of metal that exhibits unique properties which are affected by the presence of impurities such as carbon, nitrogen, hydrogen, and oxygen. The� impurity content� in pure titanium is typically less than 0.1%, resulting in a metal with low strength but high plasticity. For industrial purposes, titanium with a purity of 99.5% is commonly used. This grade of titanium has a density of 4.5 g/cm�³, a� melting point� of 1800â??, and a thermal conductivity of 15.24 W/(m. K). It also has a� tensile strength� of 539 MPa, an elongation of 25%, a� section shrinkage rate� of 25%, an� elastic modulus� of 1.078 �? 10â?µ MPa, and a hardness of HB195. Parameter Material: titanium Grade: Gr 1, 2, 5(6Al-4V), 7(Ti-0.15Pd), 9(3Al-2.5V), 12, 23(6AL-4V ELI), 15V-3Al-3Sn-3Cr Thickness: 0.01-0.1mm Width: 10-500mm, customized Length: 10-1000mm, customized Processing Service: Bending, Welding, Decoiling, Cutting, Punching Standard: ASTMB265 Ti Content (%): 99.6% Features 1. High strength-to-weight ratio: Titanium is known for its high strength-to-weight ratio, which means that it is strong but also lightweight. This makes it ideal for applications where weight is a critical factor, such as aerospace and sporting goods. 2. Excellent corrosion resistance: Titanium has excellent corrosion resistance, making it useful in harsh or corrosive environments, such as marine or chemical processing applications. 3. Biocompatibility: Titanium is biocompatible, which means that it is not harmful to living tissue or the human body. This makes it useful for medical implants such as dental implants, joint replacements, and pacemakers. 4. Low thermal expansion: Titanium has a low coefficient of thermal expansion, which means that it does not expand or contract significantly with changes in temperature. This makes it useful in applications where dimensional stability is important, such as precision engineering.
Titanium sponge is an elemental form of titanium that typically appears as light grey particles or a sponge-like mass. It serves as the fundamental raw material for the production of titanium materials, titanium powder, and other titanium products. Sponge titanium is obtained by transforming titanium ore into titanium tetrachloride, which is then reacted with metallic magnesium to yield a porous, sponge-like mass. During the reduction and distillation process, impurities can be introduced into the titanium sponge lump due to a variety of factors, including temperature, pressure, furnace condition, and segregation. According to the Chinese standard GB/T 2524, titanium sponges can be classified into seven grades, ranging from MHT 95 to MHT 200, with the number referring to the Brinell hardness maximum value. The general purity (%) quality is 98.5 to 99.8, and the impurity element oxygen quality (%) ranges from 0.05 to 0.30. The hardness (HB) of sponge titanium ranges from 95 to 200. Features High strength-to-weight ratio: Titanium sponge is perfect for use in aerospace and military applications where weight reduction is important because of its high strength-to-weight ratio. Excellent corrosion resistance: Titanium sponge is highly resistant to corrosion, even in harsh environments. Biocompatibility: Titanium sponge is biocompatible, making it an ideal material for use in medical implants and devices. Heat resistance: Titanium sponge has a high melting point and is highly resistant to heat, making it ideal for use in high-temperature applications. Applications Defense and aerospace: Due to its superior corrosion resistance and high strength-to-weight ratio, the titanium sponge is frequently utilized in the defense and aerospace industries. Chemical and Petrochemical: Titanium sponge is used in the chemical and petrochemical industries due to its excellent corrosion resistance. It is used in heat exchangers, pressure vessels, and reactors. Medical: Titanium sponge is biocompatible, making it ideal for use in medical implants and devices, such as dental implants, joint replacements, and pacemakers. Sports equipment: Titanium sponge is used in sports equipment, such as golf clubs, tennis rackets, and bicycle frames, due to its high strength-to-weight ratio. Jewelry: Titanium sponge is used in jewelry making due to its unique properties, such as its light weight and corrosion resistance.
Titanium sponge is an elemental form of titanium that typically appears as light grey particles or a sponge-like mass. It serves as the fundamental raw material for the production of titanium materials, titanium powder, and other titanium products. Sponge titanium is obtained by transforming titanium ore into titanium tetrachloride, which is then reacted with metallic magnesium to yield a porous, sponge-like mass. Products Parameters Grade No. Ti MIN Fe Si Cl C N O Mn Mg H Ni Cr Others Brinell Hardness HBW/10/1500/30 0A MHT95 99.8 0.03 0.01 0.06 0.01 0.01 0.05 0.01 0.01 0.003 0.01 0.01 0.02 95 0 MHT100 99.7 0.04 0.01 0.06 0.02 0.01 0.06 0.01 0.02 0.003 0.02 0.02 0.02 100 1 MHT110 99.6 0.07 0.02 0.08 0.02 0.02 0.08 0.01 0.03 0.005 0.03 0.03 0.03 110 2 MHT125 99.4 0.10 0.02 0.10 0.03 0.03 0.10 0.02 0.04 0.005 0.05 0.05 0.05 125 3 MHT140 99.3 0.20 0.03 0.15 0.03 0.04 0.15 0.02 0.06 0.01 0.05 140 4 MHT160 99.1 0.30 0.04 0.15 0.04 0.05 0.20 0.03 0.09 0.012 160 5 MHT200 98.5 0.40 0.06 0.30 0.05 0.10 0.30 0.08 0.15 0.03 200 Features High strength-to-weight ratio: Titanium sponge is perfect for use in aerospace and military applications where weight reduction is important because of its high strength-to-weight ratio. Excellent corrosion resistance: Titanium sponge is highly resistant to corrosion, even in harsh environments. Biocompatibility: Titanium sponge is biocompatible, making it an ideal material for use in medical implants and devices. Heat resistance: Titanium sponge has a high melting point and is highly resistant to heat, making it ideal for use in high-temperature applications. Applications Defense and aerospace: Due to its superior corrosion resistance and high strength-to-weight ratio, the titanium sponge is frequently utilized in the defense and aerospace industries. Chemical and Petrochemical: Titanium sponge is used in the chemical and petrochemical industries due to its excellent corrosion resistance. It is used in heat exchangers, pressure vessels, and reactors. Medical: Titanium sponge is biocompatible, making it ideal for use in medical implants and devices, such as dental implants, joint replacements, and pacemakers. Sports equipment: Titanium sponge is used in sports equipment, such as golf clubs, tennis rackets, and bicycle frames, due to its high strength-to-weight ratio. Jewelry: Titanium sponge is used in jewelry making due to its unique properties, such as its light weight and corrosion resistance.
Product Introduction Titanium powder corrugated plate is a kind of titanium corrugated plate manufactured by titanium powder metallurgy process. Specifically, the titanium powder metallurgy process is to mix titanium powder and other additives, and then process it under high temperature and pressure to form titanium corrugated plates. Titanium powder corrugated plates are commonly used in heat exchangers, where they help to improve the efficiency of heat transfer between fluids by increasing the contact area between the fluids and the plate surface. They are also used in the chemical and petrochemical industries, as well as in the aerospace and marine industries, due to their resistance to corrosion and high strength-to-weight ratio. Parameter Material: pure titanium, Ti-6Al-4V, Ti-3Al-2.5V Length: Max. 1000mm Width: Max.600mm Thickness: Max. 50mm Pore size: 0.2-60um Wave height: 0.2mm,0.3mm, or customized Wave width: 1.2mm,1.3mm, or customized Wave pitch: 0.7mm,0.8mm, or customized The main steps for manufacturing titanium corrugated plates using the titanium powder metallurgy process include: Titanium powder preparation: First, the titanium powder needs to be prepared into appropriate particle size and shape for further processing. Additive mixing: Mix the titanium powder with other additives such as copper, aluminum, etc. to improve the workability and mechanical properties of the titanium powder. Pressing and forming: Put the mixed titanium powder and additives into a mold for pressing and forming. This process needs to be carried out under high pressure, usually between 100MPa to 2000MPa. Sintering: Sinter the pressed and formed titanium powder at high temperature to make it into an integrated titanium corrugated sheet. This process needs to be carried out in an inert atmosphere to avoid oxidation. Heat treatment and surface treatment: After sintering, the titanium powder corrugated sheet needs to undergo heat treatment and surface treatment to improve its mechanical and corrosion resistance properties. Compared with the traditional titanium plate rolling process, the titanium powder metallurgy process can manufacture titanium corrugated sheets with more complex shapes and structures. In addition, the titanium powder metallurgy process can also control the pore size, wall thickness, wave height, and wavelength of the titanium corrugated sheet to meet different filtration requirements.
Titanium powder corrugated plates are commonly used in heat exchangers, where they help to improve the efficiency of heat transfer between fluids by increasing the contact area between the fluids and the plate surface. They are also used in the chemical and petrochemical industries, as well as in the aerospace and marine industries, due to their resistance to corrosion and high strength-to-weight ratio. Parameter Material: pure titanium, Ti-6Al-4V,Ti-3Al-2.5V Length: Max. 1000mm Width: Max.600mm Thickness: Max. 50mm Pore size: 0.2-60um Wave height: 0.2mm,0.3mm or customized Wave width: 1.2mm,1.3mm or customized Wave pitch: 0.7mm,0.8mm or customized The main steps for manufacturing titanium corrugated plate using titanium powder metallurgy process include: Titanium powder preparation: First, the titanium powder needs to be prepared into appropriate particle size and shape for further processing. Additive mixing: Mix the titanium powder with other additives such as copper, aluminum, etc. to improve the workability and mechanical properties of the titanium powder. Pressing and forming: Put the mixed titanium powder and additives into a mold for pressing and forming. This process needs to be carried out under high pressure, usually between 100MPa to 2000MPa. Sintering: Sinter the pressed and formed titanium powder at high temperature to make it into an integrated titanium corrugated sheet. This process needs to be carried out in an inert atmosphere to avoid oxidation. Heat treatment and surface treatment: After sintering, the titanium powder corrugated sheet needs to undergo heat treatment and surface treatment to improve its mechanical and corrosion resistance properties. Features 1.Stability under high temperature and high pressure: Titanium powder corrugated sheet can maintain stability and strength under high temperature and high pressure, and can therefore be used for filtration and separation in harsh environments such as high temperature, high pressure, and strong corrosion. 2.High filtration efficiency: The corrugated structure of titanium powder corrugated sheet can increase its surface area, thereby improving its filtration efficiency and capture capacity, especially suitable for applications that require high-efficiency filtration and separation. 3.Good mechanical properties: Titanium powder corrugated sheet has high strength, high hardness, and good ductility, and can withstand large mechanical stress and deformation. 4.Good corrosion resistance: Due to the use of titanium powder metallurgy process in the manufacture of titanium powder corrugated sheet, its material composition and structure can be controlled, thereby improving its corrosion resistance. 5.Easy to clean and maintain: The corrugated structure of titanium powder corrugated sheet can increase its surface area, making it easy to clean and maintain, reducing maintenance costs and time.
Product Introduction Customized 30um porous titanium curved microplate for filtration is a material with high porosity, good chemical stability and corrosion resistance, so it is widely used in filtration and electrolysis industries. Customized 30um porous titanium curved microplate for filtration also has other applications in the filtration and electrolysis industries, such as catalyst support materials, fuel cells, gas purification, etc.. Porous titanium sheet with a variety of filtering accuracy and diameters is offered by TOPTITECH. On porous titanium sheet, we can also perform machining operations like chamfering, punching, cutting, etc. Parameters Brand: TOPTITECH Size: According to the drawing Pore size: 30um Withstand voltage:Max2.0-3.0MPa Working Temperature:300
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.
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
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
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
Product Introduction The sintered corrugated plate is a corrugated plate made by the powder metallurgy process. It is usually made of metal or alloy powder through mixing, pressing, sintering, and other processes, and has excellent properties such as high strength, corrosion resistance, and high-temperature resistance. The manufacturing process of powder-sintered corrugated board is relatively simple, and can be customized according to specific needs, with high material utilization and production efficiency. At the same time, its corrugated shape can increase its surface area and channel length, improving its filtration and separation efficiency. In the fields of chemical industry and petroleum, the powder-sintered corrugated plate has become a kind of necessary filtration and separation equipment. In applying titanium sintered corrugated plate and ordinary titanium sintered plate in the electrolytic cell, titanium sintered corrugated plate has some advantages over ordinary titanium sintered plate. First, the corrugated shape of the titanium sintered corrugated plate can increase its surface area and channel length, which helps to improve the efficiency and yield of the electrolysis reaction. Secondly, the titanium sintered corrugated plate can improve the fluidity and mixing of the electrolytic cell, which is beneficial to the electrolyte�´s uniform distribution and the reaction product�´s rapid discharge. The corrugated structure on the surface of the titanium sintered corrugated plate can indeed increase the electrode surface area, increase the current transfer efficiency, and thus improve the electrolysis efficiency. In addition, it can also increase the mechanical strength and stability of the electrode, reduce the electrode�´s deformation and damage, prolong the electrode�´s service life, and reduce the maintenance cost. Therefore, the corrugated structure on the surface of titanium sintered corrugated plate has important application value in electrochemistry, but it does not directly affect the conductivity in the electrolyte solution. Package and Shipment 1. Sintered Filters are usually packed in cartons, wrapped in soft film, and fixed in a box filled with industrial foam cotton, and the outer baler is packed with plastic bags with no damage during transportation. 2. Wooden box export packaging can also be customized. The foam cotton can be filled and fixed, the external box is sealed, the bottom is specified, the whole packaging is processed, and the goods can be delivered to the customer´s designated place without damage.
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.
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.
