Titanium Plate Titanium Alloy Plate Suppliers and Manufacturers

In PEM fuel cells, 0.5microns sintered porous Ti plate for PEM is commonly used as electrode materials for anodes and cathodes. It has high electrical conductivity and good chemical stability, and is suitable for the occurrence of electrode reactions. 0.5microns sintered porous Ti plate acts as both anode and cathode electrodes in PEM fuel cells. It provides the supporting structure of the catalyst layer and provides a conductive path for the oxidation reaction of hydrogen and the reduction reaction of oxygen, thereby realizing the electrochemical reaction of fuel and oxygen and generating electricity. Parameters Material: pure titanium powder Technical: sintering and coating Size:as drawing Porosity:30-40% Pore size:0.5microns Advantages High electrical conductivity: The sintered porous titanium plate has good electrical conductivity and can effectively conduct electrons. This is crucial for the electrode reaction to proceed, ensuring smooth transport of electrons between the anode and cathode. High surface area: The porous structure of the sintered porous titanium plate provides a large amount of surface area, increasing the contact area with the catalyst reaction. This increases the reaction rate and enhances the efficiency of the electrochemical reaction between fuel and oxygen. Good chemical stability: Sintered porous titanium plate has good chemical stability and can resist corrosion under acidic environment and high temperature conditions. This makes it work stably for a long time in PEM fuel cells. Suitable for catalyst immobilization: The surface of sintered porous titanium plate can accommodate and immobilize catalysts, such as platinum or its alloys. This provides good catalytic activity and maintains catalyst stability and dispersibility. Strong adaptability: The sintered porous titanium plate can be customized in shape and size according to needs, so as to adapt to fuel cell stack designs of different sizes and forms. It can also be used in combination with other materials to achieve better electrode performance. There are several commonly used materials that can be used in combination with sintered porous titanium plates to enhance electrode performance, the following are some of these common combinations: Platinum Catalyst Carbon materials Oxide Conductive polymers Transition metal nitrides

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 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.

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.

Constituent part an electrolytic circuit board and two electrodes (a cathode and an anode) which consists of a system that uses electricity to break water into hydrogen and oxygen in a process called electrolysis. Electrolytic circuit board: Patented medical grade electrolytic water technology can accurately control the current. Electrodes: Gr1 Titanium, nano-coating and high sintering, coated with Platinum, Iridium, Ruthenium. Superior corrosion resistance and high electrolytic rate. Application: smart toilet, bathtub, mopping machine, washing machine, dental irrigator, household dishwasher, etc.

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.

Material: Ta0 Ta1 Ta2 Ta7 Ta9 etc. Thickness: 0.25mm, 0.3mm, 0.4mm, 0.6mm, 0.8mm, 1.0mm etc. Porosity: 50-60%,55%, 65%, 60-70%, 75% 70-80% Size: 100x100mm, 200x200mm, 300x300mm, 400x400mm, 500x500mm, 600x600mm etc. Applicationï¼? The field of hydrogen production by electrolysis of water; PEM electrolyzer diffusion layer; Hydrogen fuel; Hydrogen suction machine, hydrogen-rich water dispenser, hydrogen-rich cup;

Product Introduction Pure Titanium Electrode Porous Fiber Felts, also known as ti felts or ti fiber felts, are commonly used in electrolyzer stacks as the diffusion layer or flow field material on the oxygen (anode) side. Unlike carbon-based gas diffusion layers that cannot be used at the oxygen evolution electrode due to immediate oxidation, titanium fiber felt is an ideal diffusion medium that provides electrical contact between the anode catalyst layer and bipolar plate or current collector component. Its unique properties, including high porosity and uniform pore size distribution, enable efficient gas transport and water management within the cell, enhancing the overall efficiency of the electrolysis process. Overall, the use of titanium fiber felt in electrolyzer stacks improves their durability, reliability, and efficiency in hydrogen production. Parameter Material: pure titanium fiber Max Size: 1000x1000mm Other Size: 200x200mm, 205x205mm, 300x300mm, 305x305mm or customized Porosity: 60%-80% Thickness: 0.25-2mm Features 1. Uniform pore size distribution: Titanium fiber felt´s consistent pore size distribution ensures efficient filtration and separation processes, providing reliable filtration performance. 2. Strong corrosion resistance: Titanium fiber felt´s exceptional corrosion resistance makes it suitable for harsh environments and ensures reliable performance in applications requiring durability and longevity. 3. Good water permeability: Titanium fiber felt´s good water permeability makes it useful for water filtration and wastewater treatment applications, providing clean and safe water for various applications. 4. High porosity: Titanium fiber felt´s high porosity enables high gas and liquid flow rates, allowing for efficient heat transfer and suitable for thermal management applications. 5. Good heat dissipation: Titanium fiber felts excellent heat dissipation properties make it ideal for high-temperature environments, ensuring stable performance and long-term durability.

Titanium sheet and plate are defined with the only difference of sizes. All these products are made from titanium slabs by cold rolling or hot rolling. ASTM B265 is the most common used standard. We can also supply materials as per AMS 4911, ASTM F136 etc. Annealed materials can be furnished as descaled and sandblasted on your request. We have a rich stock of these products in CP and 6Al4V alloy, and they can be cut to any custom sizes at reasonable charge. Please contact our sales department if you have interest. Grade CP Ti Grade 5 Ti-6Al-4V Grade 6 Ti-5Al-2.5Sn Grade 7 Ti-0.2Pb Grade 9 Ti-3Al-2.5V Grade 12 Ti-0.3Mo-0.8Ni Grade 23 Ti-6Al-4V ELI Standards ASTM B265, ASME SB265, ASTM F67, ASTM F136, AMS 4911

Product Introduction Sintered titanium felt is a kind of porous material created from tiny titanium fibers that have been flattened down and annealed to provide a smooth, flat surface ideal for use in a variety of industrial applications. This unique material has a range of features that make it ideal for use in a wide range of applications. In the production of hydrogen and fuel cells, sintered titanium felt is used as a Liquid/Gas Diffusion Layer (LGDL) in stacks, where it helps to distribute the reactant gases and provide electrical contact between the catalyst layer and the bipolar plate or current collector assembly. The material´s high corrosion resistance, even under highly acidic and humid conditions, makes it an ideal material for use in these applications. Parameters Material: Titanium Size: 1500 1200mm Fiber size: 20 microns-40 microns Thickness: 0.20mm, 0.25mm, 0.40mm, 0.60mm Porosity: 60%-75% Porosity and size can be customized. Features Porous structure: Sintered titanium fiber felt has an excellent porous structure, which provides high filtration efficiency and large dirt holding capacity. Thermal conductivity: The material has strong thermal conductivity, making it an ideal material for use in high-temperature applications. Precisionandaperture control:Sintered titanium fiber felthas precise precision and aperture control, which makes it suitable for use in applications where precise filtration is necessary. Corrosion resistance: The material has high corrosion resistance, even under highly acidic and humid conditions, making it ideal for use inharsh environments.

Platinized titanium felt is a specialist material frequently utilized as a flow field or diffuser material in electrolyzer stacks and single cells, particularly on the oxygen (anode) side. This material is made by depositing a thin layer of platinum onto flattened titanium fibers that have been compressed and annealed to create a smooth, flat surface suitable for use in electrolyzers. Platinum coating thickness: 0.5 micron or customized Substrate: titanium fiber felt Felt thickness: 0.2-5.0mm Porosity: 60%-80% Fiber diameter: 10~100 microns Features High electrocatalytic activity: Platinum is known for its high electrocatalytic activity, particularly for the oxygen reduction reaction. When deposited on a titanium felt substrate, platinum forms a highly porous material with a large surface area, providing ample space for electrochemical reactions to occur. High durability: Platinized titanium felt is highly resistant to corrosion and can withstand harsh operating conditions, making it ideal for use in a variety of industrial and scientific applications. Applications Platinized titanium felt is used as an anode material in the production of chlorine and caustic soda in the The platinum coating on the titanium substrate prevents the formation of a passivating oxide layer on the anode surface, ensuring high electrochemical performance and durability. Electrowinning: Platinized titanium felt is used as an electrode material in the electrowinning of metals such as copper, zinc, and lead. The platinum coating on the titanium substrate provides excellent electrical conductivity and corrosion resistance, making it an ideal electrode material. Electrosynthesis: Platinized titanium felt is used as a catalyst support in electrosynthesis reactions, such as the production of organic compounds and fine chemicals. The platinum coating on the titanium substrate enhances the catalytic activity of the supported catalyst, leading to higher yields and selectivity. Electrolytic capacitors: Platinized titanium felt is used as an electrode material in high-performance electrolytic capacitors. The platinum coating on the titanium substrate provides excellent electrical conductivity and corrosion resistance, ensuring high performance and long-term reliability. Water treatment: Platinized titanium felt is used as an electrode material in electrochemical water treatment systems, such as electrocoagulation and electrooxidation. The platinum coating on the titanium substrate enhances the electrochemical performance of the electrode, leading to effective water treatment and disinfection.

Sintered Titanium Frit well suited for use in Electrolyzers. These frits have a smooth, porous surface (80 micron filter rating) that gives good support for membranes. A much finer surface than our Expanded Titanium Mesh, this product is recommended to be placed against the membrane when designing higher pressure electrolyzers ( 20 psi). Custom sizes are available upon request. Titanium Foam Frit Specifications: Raw Material: Titanium Filter Rating: 80 Micron Thickness: 1.5 mm Working Temperature: 300 C Membrane Filtration Corrosion resistance Why not use a Carbon based Gas Diffusion Layer in an Electrolyzer Carbon based GDL materials will be consumed and converted into CO2 gas in the presence of the Oxygen ions and Voltage found on the Anode (Oxygen) side of the electrolyzer. This secondary reaction of oxidizing the Carbon in the GDL will give temporarily lower electrolysis voltage, but this is a short lived phenomenon. The carbon GDL is quickly consumed, resulting in poor compression in the stack, and thus high resistance and lower performance. You can still used carbon cloth or carbon paper material on the Hydrogen side (cathode) since there is oxygen on that side that will oxidize the GDL material.

Customized titanium fiber felt for fuel cell is a high-performance material made through a process of sintering titanium fibers. The result is a porous and lightweight material that is exceptionally strong and corrosion-resistant. The material is commonly used in industries such as aerospace, chemical processing, and medical equipment manufacturing. Parameters Material: Ti Porousity: 50%-80% Size: 1000 2000mm Thickness: 0.2mm-1.0mm(0.2mm 0.4mm 0.8mm 1.0mm) Filtration rate: 10um 20um 30um and so on Features: Sintered titanium fiber felt is a unique material that possesses several features that make it ideal for various industrial applications. Firstly, the material has a high strength-to-weight ratio, making it an attractive choice for applications where weight is a critical factor. Additionally, sintered titanium fiber felt is highly resistant to corrosion, even in harsh environments, making it an excellent choice for chemical processing applications. The material is also highly durable and can withstand high temperatures, making it a suitable choice for aerospace applications. Application Sintered titanium felt has a wide range of applications in the field of proton exchange membrane and gas diffusion layer (GDL). Here are some of the applications of sintered titanium felt in these fields: fuel cells: Sintered titanium felt is used as a gas diffusion layer in fuel cells. It is an excellent material for this application because it is highly porous and has good electrical conductivity. The high porosity of the sintered titanium felt allows for uniform gas distribution and efficient mass transport, which is critical for the performance of fuel cells. Electrolyzers: Sintered titanium felt is also used as an electrode substrate in water electrolysis systems. The high surface area of the sintered titanium felt provides a large active surface for the electrode reactions to occur, which enhances the efficiency of the electrolysis process. Gas purification: Sintered titanium felt is used as a gas purification medium in gas separation and purification systems. Its high porosity and good thermal conductivity make it an ideal material for this application because it can effectively remove impurities from gases and maintain a stable temperature during the purification process. Catalysis: Sintered titanium felt is also used as a catalytic support material in various chemical and industrial processes. Its high surface area and porosity make it an excellent substrate for supporting catalysts, which can enhance the efficiency and selectivity of chemical reactions.

Pure titanium processing parts have high titanium content, good plasticity, easy processing and forming, and good stamping and welding performance. It is resistant to corrosion in the atmosphere, ocean, and other conditions. Pure titanium processing parts are mainly used in aircraft skeletons, ship pipes, valves, pumps, heat exchangers, distillation towers, coolers, ion pumps, and compressor valves. In the industry, Ta1 is generally required for high formability, Ta3 is used for wear resistance and high strength, and Ta2 is the most widely used in general. Product parameters Product Name: Titanium Processing Parts Material grade: TA1 TA2 TC4 TA9 TA10 TA15 TC11 Executive standard: GB/T, GJB, AWS, ASTM, AMS, JIS Process state: Annealed state (M) hot working state (R) cold working state (Y) (annealing, ultrasonic flaw detection) Surface treatment: Sandblasting surface bright surface Product use: Aerospace equipment, petrochemical, shipbuilding, automobiles, watch accessories, etc. Features High-quality material selection Professional processing Fine workmanship Special customization The characteristics of titanium 1. It has a low density, a high strength, and a high specific strength. Titanium has a density of 4.51g/cm3, which is 57% that of steel, less than twice that of aluminum, and three times stronger. Titanium alloy has the highest specific strength of any regularly used industrial alloy. Titanium alloy has a specific strength that is 3.5 times that of stainless steel, 1.3 times that of aluminum alloy, and 1.7 times that of magnesium alloy. As a result, it is a necessary structural material in the aerospace sector. 2. Excellent corrosion resistance Titanium's passivity is dependent on the presence of an oxide film; its corrosion resistance in oxidizing media is far superior to that in reducing medium, and fast rate corrosion can occur in reducing medium. Titanium is not rusted in some corrosive environments. 3. Excellent heat resistance Aluminum typically loses its initial high mechanical qualities at 150 C, stainless steel at 310 C, and titanium alloys retain good mechanical properties at around 500 C. When the airplane achieves 2.7 times the speed of sound, the surface temperature of the aircraft mechanism hits 230 C, and the aluminum alloy and magnesium alloy can no longer be used, while the titanium alloy can. Titanium has a high heat resistance, making it ideal for turbine disks, aeroengine compressor blades, and aircraft rear fuselage skins.

Dia 40mm titanium fiber felt is made by a special laying process and a special ultra-high temperature vacuum sintering process. Compared with titanium powder sintered plate, Ti fiber felt has an excellent three-dimensional network, porous structure, high porosity, large surface area, uniform pore size distribution, special pressure, and corrosion resistance, and can be rolled and processed. Titanium fiber felts are widely used in military, aerospace, civil, medical care, and other industries abroad. Titanium fiber felts are primarily used in electrolyzer stacks as the flow field or diffuser material, particularly on the oxygen (anode) side. Features: has an excellent three-dimensional network porous structure; high porosity, several times larger surface area; uniform pore size distribution, strong corrosion resistance, good water permeability; high porosity, and heat dissipation; good performance, high current density, low voltage, stable performance, long life, and so on. Parameters Color: Light grey Dimension: Customized as request Thickness:0.2mm-2mm Often made thickness (0.25,0.4,0.6,0.8mm) Porosity:30-50%

We offer Titanium Ore Rutile Sand & Powder. Parameters: Ti 67% Fe 10% Si 1.0% Mg 7.1% P 0.3% V 0.2% Terms: Minimum Order: 25MT, F.O.B. Price: 1.230 USD per MT, from APAPA, LAGOS, NIGERIA

Titanium sheet, titanium plate Titanium alloy sheet, titanium alloy plate Medical titanium plate, medical titanium plate Titanium plate and sheet used for industry and chemical, aerospace, boat, oil field, and so on. Grade: Gr1.Gr2.Gr3.Gr4.Gr5.Gr7.Gr9, Gr11, Gr12, Gr23, Ti15333, Ti-6Al-4V, Ti-6Al-4V ELI Standard: ASTM B265, ASME B348, ASTM F136, ASTM B381, AMS 4911, ASTM F67 Thickness:0.5-30mm Length:50-4500mm Width:10-2500 Condition: Hot Rolled / Cold Rolled, Annealed Surface: Polish, smooth and straight Good rolling technology and annealing technology to supply the perfect titanium plate All the products with high quality, competitive price, quick delivery and wonderful service. Standard export wooden case PVC coating As your special need.