Pure titanium plate with light quanlity is suitable for using in the fields of Aerospace industry, marine industrial machinery, etc. Pure titanium plate has many characters that one of the most significant feature is the excellent corrosion resistance--far superior to stainless steel. It employs a lot of technologies in the production process, such as: hot forging, hot rolled, cold rolled, annealing and pickling.
Name Titanium Sheet / Titanium Plate
Standard ASTM, AMS, ISO, GB/T
Grade Commercially Pure and Alloys
Dimension Cold Rolled: THK 0.5~5.0 Hot Rolled: THK 5.0~60
Condition Annealed
Surface Polished or Pickled
Application Chemical Industry, Petroleum Industry, Nuclear Power Industry, Marine Industry, Electrolytic Industry etc.
Certificate ISO 9001:2008, MTC or The Third Party
TOPTITECH's Customized Titanium Cathode Plate for PEMFC Electrolysis is specifically designed to meet the demanding requirements of Proton Exchange Membrane Fuel Cell (PEMFC) systems. Crafted from premium-grade GR1 titanium, the cathode plates serve as an essential component in the PEM electrolysis cell, working in conjunction with titanium anodes to facilitate efficient electrochemical processes.
Specifications
Material: titanium
Grade: GR1
Size: Customized by the drawing
Certificate: ISO9001
Surface treatment: Polishing, pickling, sandblasting, brushing precious metals
Features
Exceptional Performance
Tailored Dimensions and Configurations
Precision Engineering
Long-lasting Durability
Enhanced Catalytic Activity
Sustainable and Cost-effective
Applications
Proton Exchange Membrane Fuel Cells (PEMFC): Our cathode plates are specifically designed for use in PEMFC systems, where they play a crucial role in facilitating efficient electrochemical processes. They are utilized in PEM electrolysis cells as essential components, working in conjunction with titanium anodes to enable hydrogen production and other electrochemical reactions.
Hydrogen Generation: The Customized Titanium Cathode Plate is an integral part of the electrolysis process for hydrogen generation. It provides a reliable and durable platform for the electrochemical splitting of water into hydrogen and oxygen gases, contributing to the production of clean and sustainable energy.
Energy Storage and Conversion: Our cathode plates find application in energy storage and conversion systems that rely on PEMFC technology. They enable the efficient conversion of chemical energy into electrical energy, making them suitable for various applications such as portable power systems, backup power supplies, and electric vehicles.
Research and Development: Our cathode plates are utilized in research laboratories and academic institutions for studying and advancing the field of PEMFC electrolysis. They provide a reliable and customizable platform for conducting experiments, optimizing cell design, and investigating new electrochemical processes.
Industrial Applications: Our Customized Titanium Cathode Plate finds application in industrial settings where PEMFC electrolysis is employed for large-scale hydrogen production. Industries such as chemical manufacturing, electronics, and transportation can benefit from the efficient and sustainable hydrogen generation facilitated by our cathode plates.
Environmental Sustainability: With the increasing focus on clean and sustainable energy solutions, our cathode plates contribute to the development of environmentally friendly technologies. By enabling efficient PEMFC electrolysis, they support the transition towards a greener future with reduced carbon emissions.
TOPTITECH's 0.25mm Titanium Sheet enables seamless and efficient transport of reactants within the electrolysis cell. By acting as a PTL, it facilitates the smooth flow of water to the catalyst layers, ensuring effective electron conduction and removing generated oxygen gas. This promotes enhanced utilization of the catalyst layers, resulting in improved overall electrolysis efficiency and hydrogen production.
The 0.25mm Titanium Sheet plays a critical role as a Porous Transport Layer (PTL) within water electrolyzers, unlocking enhanced performance and efficiency in the electrolysis process.
Titanium sponge is a pure, coarse powder or granular form of titanium metal. It is used as a raw material for producing refined titanium. Further refining the titanium sponge allows the creation of titanium ingots, titanium bars, and other materials. Grinding titanium sponge produces titanium powder, which is commonly used for coating and machining parts of machinery and instruments.
Titanium sponge is a metallic material with numerous tiny pores, known for its delicacy and high strength-to-weight ratio. It exhibits excellent heat resistance, corrosion resistance, and low electrical conductivity. Titanium sponge powder serves as an intermediate product for manufacturing various titanium products, such as sheets, rods, and plates. It finds wide applications in industries such as aerospace, naval, chemical, petroleum, and medical.
Distinctive Features:
High Strength-to-Weight Ratio: Titanium sponge is highly suitable for aerospace and military applications due to its excellent strength-to-weight ratio, making weight reduction crucial.
Excellent Corrosion Resistance: Titanium sponge exhibits strong corrosion resistance even in harsh environments.
Biocompatibility: Titanium sponge possesses biocompatibility, making it an ideal material for medical implants and devices.
Heat Resistance: With a high melting point and excellent heat resistance, titanium sponge is well-suited for high-temperature applications.
Applications:
Defense and Aerospace: Due to its outstanding corrosion resistance and high strength-to-weight ratio, titanium sponge is widely used in defense and aerospace industries.
Chemical and Petrochemical: Titanium sponge finds applications in chemical and petrochemical industries due to its exceptional corrosion resistance. It is utilized in heat exchangers, pressure vessels, and reactors.
Medical: Titanium sponge's biocompatibility makes it highly suitable for medical implants and devices, such as dental implants, joint replacements, and pacemakers.
Sports Equipment: Titanium sponge is employed in sports equipment, including golf club shafts, tennis rackets, and bicycle frames, due to its high strength-to-weight ratio.
Jewelry: Titanium sponge is used in jewelry production due to its unique properties, such as lightweight and corrosion resistance.
The microporous pure titanium aeration head uses industrial pure titanium powder (purity 99.6%) as the main raw material and is sintered under high temperature and high vacuum. Its structure is uniform, the micropore diameter is 0.2-100�¼m, the porosity is 35%~50%, the filtration resistance is small, the separation and purification efficiency is high, and the mechanical properties are good.
Products Parameters
Tubular type:
Diameter: 30mm, 50mm, 60mm Length: 10~1000mm, other specifications can also be customized
The connection can be internal or external threads, and can also be customized according to customer needs.
Spherical type:
Diameter: 30mm, 50mm, 60mm, 100, 150mm, 180mm
The connection can be internal or external thread, and can also be customized according to customer needs.
Flat plate type:
Diameter: 125, 180mm, other specifications can also be customized
The connection can be internal or external threads, and can also be customized according to customer needs.
Products Features
The bubbles spread evenly, the aeration bubble diameter is small, and the gas-liquid interface area is large
No hole clogging, good chemical stability, acid, and alkali corrosion resistance
Robust construction, well-sealed, resistant to damage, ideal for demanding operational environments
It has a long service life, is simple to clean, and can be regenerated online
Products Applications
The scope of application includes urban sewage, chemical industry, petrochemical industry, bioengineering, pharmaceutical industry, food industry, new expansion and expansion of large water-use plants, and renovation of old aeration tanks, etc.
The 20um pore size of our titanium plate ensures optimal gas and liquid flow, maximizing the efficiency of your electrolytic process. It provides a large surface area for effective electrochemical reactions, resulting in improved product yields and reduced energy consumption. Whether you're involved in water electrolysis, electroplating, or any other electrolytic process, our porous titanium plate is the ideal choice for achieving superior results.
Parameter
Material: titanium powder
Length: 250mm
Width: 95mm
Pore size: 20um
Hole diameter: 7mm
Coating: Can be coated with platinum, ruthenium-iridium, iridium-tantalum coating upon request
Features
Enhanced Efficiency: The 20�¼m pore size enables efficient gas and liquid flow, improving mass transfer rates and reducing energy consumption.
Superior Corrosion Resistance: Crafted from high-quality titanium, the plate offers exceptional resistance to corrosion, ensuring durability in challenging environments.
Optimal Mechanical Strength: Maintains excellent mechanical strength, withstanding high temperatures and pressures for reliable performance.
Uniform Porosity: Provides consistent electrochemical performance and precise control over electrolytic processes.
Versatility: Suitable for various electrolytic applications, catering to different industries' needs.
Lightweight and Easy Handling: The thin and lightweight design allows for easy installation and reduces downtime during maintenance.
Application in the Electrolytic Cells
Electrolytic cells are vital components of electrochemical systems that enable controlled chemical reactions through the application of an electric current. These versatile cells have a wide range of applications in industries, research laboratories, and everyday life.
At the heart of an electrolytic cell lies the dynamic interplay between two key elements: electrodes and an electrolyte solution. However, to optimize the performance and efficiency of these cells, the choice of electrode material becomes critical. This is where the remarkable characteristics of porous titanium plates come into play.
Porous titanium plates, featuring precisely engineered microscale pores, offer unique advantages in electrolytic cell design. These plates, crafted from high-quality titanium, possess exceptional corrosion resistance, ensuring longevity and reliability in demanding electrolytic environments. Additionally, their remarkable mechanical strength enables them to withstand high temperatures and pressures, making them an ideal choice for challenging operating conditions.
Titanium Expanded Mesh 3*6mm Hole 1mm Thickness for Fuel Cell, this product is specially designed for fuel cells. Made of high-quality titanium material, this stretch mesh has excellent corrosion resistance and excellent mechanical properties, providing stable and reliable performance for fuel cell systems.
Parameter
Material: GR1 titanium
Size: 200x200mm
Pore size: 3x6mm, 2x3mm or customized
Thickness: 1mm, 0.5mm or customized
Technique: expanding
Features
1. This titanium stretch mesh is made of high-quality titanium material, which has excellent corrosion resistance and excellent mechanical properties. The titanium material itself has the characteristics of low density and high strength, allowing the stretch mesh to maintain stability and durability in long-term use.
2. The moderate hole diameter of 3*6mm can ensure the free flow of gas and liquid in the fuel cell system. This appropriate mesh size helps achieve good gas diffusion and fluid distribution, thereby improving fuel cell efficiency and performance.
3.The thickness of 3.1mm provides this stretch mesh with sufficient strength and structural stability. It is able to withstand the stress and pressure in the fuel cell system while maintaining shape stability and not easily deformed or damaged.
This titanium stretch mesh is precision manufactured with an excellent surface finish and meticulous detail. It exhibits high-quality appearance and workmanship while also meeting fuel cell system requirements for material purity and cleanliness.
The Application in the Fuel Cell
1.Electrode Support Material: The titanium expanded mesh serves as a reliable support material for fuel cell electrodes, ensuring uniform distribution and strong contact. Its mesh structure enables efficient gas diffusion and electrolyte transport.
2.Flow Field Plate: The mesh is utilized in the flow field plates of fuel cells, facilitating the flow and distribution of fuel gas and oxygen. With its carefully designed hole size and thickness, it promotes effective gas flow and provides structural stability.
3.Catalyst Layer Support: The mesh can be employed as a support material for the oxygen reduction reaction (ORR) catalyst layer. Its high surface area and excellent conductivity enhance catalyst adhesion and electron transfer, improving the efficiency of the ORR.
The 10m Porous Titanium Plate with Chamfers for PEMFC is a high-performance filter designed specifically for Proton Exchange Membrane Fuel Cells (PEMFC). With its dimensions of 50*50mm and exceptional precision, this product fulfills the stringent filtration requirements of PEMFC systems.
Features
High precision: The product has excellent 10um precision and can effectively filter out the tiny particulate matter required by PEMFC.
Long-lasting and durable: Using high-quality materials and precision manufacturing processes to ensure excellent performance and long life of the product.
Safety design: The chamfer design provides two options, semi-circular and straight edge types, which facilitates installation and disassembly and prevents sharp edges from causing harm to operators or equipment.
Wide application: Whether in research laboratories or industrial applications, this product is ideal for PEMFC filtration.
Clean environment: It can efficiently filter tiny particulate matter and provide a clean working environment for fuel cells.
Chamfering process
For semi-circular chamfers, we use suitable tools, such as filleting tools or sheet metal processing machines, to weaken, cut and trim the edges to give them a smooth, rounded shape.
For straight-edge chamfers, we use cutting or cutting tools in the process to precisely cut and trim the edges to form a straight-line chamfer.
We attach great importance to safety and precision when performing chamfering operations. We ensure the chamfering process is completed using the proper tools and equipment, as well as experienced operators, to ensure a smooth and consistent edge.
The design and processing of chamfers help facilitate installation and removal while eliminating the dangers that may arise from sharp edges. Such a design not only improves the convenience and safety of operation, but also ensures product quality and reliability.
Sintered titanium products find application as filters in various industries, including pharmaceuticals, water treatment, food processing, biological engineering, chemicals, petrochemicals, metallurgy, and gas purification. Porous titanium sheets are particularly utilized as Gas Diffusion Layers in next-generation fuel cells, specifically Proton Exchange Membrane Fuel Cells (PEMFC).
Titanium bipolar plates are a high performance component designed for battery fuel cell systems. It is made of high-purity titanium material with excellent mechanical properties, corrosion resistance and electrical conductivity, providing reliable support and excellent performance for fuel cells. Through advanced manufacturing process, titanium bipolar plates ensure high precision and consistency, with flat surface and fine processing to ensure the stable operation of the battery fuel cell system and provide the best gas and liquid sealing performance.
Parameter
Material: titanium
Size: according to the drawing
Type: Etching / Chemical Machining, Other Machining Services
Etching accuracy: Line width: 0.01mm; Aperture: 0.03mm; Tolerance: �±0.01mm
Features
1.Lightweight design: The titanium bipolar plate is made of titanium material, which has the characteristics of light weight. Compared with traditional metal materials, such as steel, titanium material has a lower density, so it can reduce the overall weight of the fuel cell system. This is especially important for automotive and other mobile applications, improving energy efficiency and driving range.
2.High Electrical Conductivity: Titanium bipolar plates have excellent electrical conductivity and can effectively conduct electric current. This helps reduce energy loss and increases the efficiency and responsiveness of the fuel cell system. Good electrical conductivity can also help maintain stable current distribution and balance, and improve the operating stability of the system.
3.Corrosion resistance: Titanium material has excellent corrosion resistance and can resist the erosion of corrosive substances such as acid and alkali. In fuel cells, where acidic or alkaline environments are involved, the use of titanium bipolar plates can provide longer life and reduce maintenance requirements.
4.High temperature resistance: Titanium bipolar plates can maintain stable performance under high temperature conditions. Some parts of the fuel cell system may be exposed to high temperature environments, such as inside the fuel cell stack. Titanium's high temperature resistance makes it ideal for reliable operation in these demanding conditions.
Titanium plates with flow fields are essential components used in electrolyzers for various industrial applications. These plates, made from corrosion-resistant titanium materials, are designed with intricate flow field patterns to optimize the electrochemical process of water electrolysis. Electrolyzers equipped with titanium plates and flow fields play a crucial role in industries such as hydrogen production, water treatment, and chemical processing.
Specifications:
Material: Titanium (Grade 2 or Grade 5)
Plate Thickness: 0.5-30 mm
Flow Field Pattern: Serpentine, Interdigitated, or Customizable
Dimensions: 90*90mm Customizable
Features
Enhanced Mass Transfer: The flow field pattern on titanium plates promotes efficient mass transfer of gases and electrolytes, ensuring uniform distribution and maximizing the electrochemical reaction efficiency.
Improved Current Distribution: The optimized flow field design helps achieve uniform current distribution across the electrode surface, minimizing localized effects and improving electrolyzer performance.
Extended Lifespan: Titanium's corrosion resistance and durability contribute to the longevity of electrolyzers, reducing maintenance costs and downtime.
Customizable Designs: Titanium plates with flow fields can be customized to meet specific electrolyzer requirements, allowing for optimized gas and electrolyte flow patterns tailored to the application.
Applications
Hydrogen Generation: Electrolyzers equipped with titanium plates and flow fields are extensively used in industries involved in hydrogen production, enabling the production of clean and sustainable hydrogen gas for fuel cell applications, energy storage, and industrial processes.
Chlor-Alkali Industry: Titanium plates find applications in the chlor-alkali industry, where electrolysis is employed to produce chlorine, caustic soda (sodium hydroxide), and hydrogen. The plates' resistance to highly corrosive electrolytes and durability make them suitable for this demanding application.
Desalination: Titanium plates with flow fields are utilized in electrochemical desalination processes, where they play a vital role in the removal of salt and other impurities from seawater, making it suitable for drinking water or industrial use.
Electrosynthesis: Titanium plates are used in electrosynthesis applications, where electrochemical reactions are employed to synthesize various chemicals and pharmaceutical intermediates. The flow field design on the plates helps facilitate efficient mass transfer and uniform current distribution, enabling controlled and precise electrochemical reactions.
A 10 micron ultra-long microporous metal titanium plate is a material made from sintered titanium powder, possessing high gas diffusion and electrical conductivity. The manufacturing process involves blending titanium powder, shaping it, and then subjecting it to high-temperature sintering to form a sturdy titanium plate with a specific porous structure.
1.High gas diffusion performance: The porous sintered titanium plate features a uniform pore structure, enabling efficient gas diffusion. This characteristic makes it suitable as a gas diffusion layer in polymer electrolyte membrane fuel cells (PEMFC), facilitating the effective transport of fuel and oxygen.
2.Excellent high-temperature resistance: Due to titanium's high melting point and excellent corrosion resistance, the porous sintered titanium plate exhibits remarkable stability and durability in high-temperature and corrosive environments. This property makes it an ideal material for filters, capable of effectively removing impurities in harsh conditions.
3.Coating capability: The porous sintered titanium plate can be coated with precious metals such as platinum (Pt) through electrochemical methods, enhancing its catalytic performance at the anode. This feature presents potential for its application as an anode material in fuel cells, improving fuel cell performance and efficiency.
Applications
Polymer electrolyte membrane fuel cells (PEMFC)
Filters for high-temperature and corrosive environments
Titanium pipes for exhaust and downpipe applications are highly sought after due to their excellent properties, including high strength, lightweight design, corrosion resistance, and heat endurance.
Features
Superior Strength and Durability: Titanium pipes exhibit a remarkable strength-to-weight ratio, making them incredibly strong and durable. This property allows them to withstand high-pressure conditions, extreme temperatures, and mechanical stresses associated with exhaust systems, ensuring long-lasting performance.
Lightweight Design: Titanium is renowned for its exceptional lightweight nature, which contributes to reduced overall weight in vehicles and aircraft. The lighter weight of titanium pipes for exhaust and downpipe applications not only improves fuel efficiency but also enhances the handling and performance of vehicles.
Corrosion Resistance: Titanium is highly resistant to corrosion, making it an ideal choice for exhaust and downpipe systems exposed to harsh environments, such as corrosive gases, high temperatures, and moisture. This corrosion resistance ensures the longevity and reliability of the pipes, even in challenging conditions.
Improved Engine Performance: Titanium pipes offer excellent exhaust gas flow characteristics, reducing backpressure and improving engine performance. The enhanced flow efficiency contributes to increased horsepower, torque, and overall engine responsiveness, providing a thrilling driving experience.
Aesthetic Appeal: In addition to their exceptional performance, titanium pipes often feature a polished or brushed surface finish, adding an aesthetic appeal to the exhaust and downpipe systems. The sleek and sophisticated appearance of titanium pipes enhances the overall visual appeal of vehicles and aircraft.
Applications:
Automotive Industry
Downpipes
Motorsports
Performance Upgrades
Aerospace Industry
Jet Engines
Energy Sector
Power Generation
Marine Industry
Marine Exhaust Systems
Titanium micro porous flow channel plates are widely used materials made from titanium powder using sintering processes. They consist of numerous tiny pores that provide channels and distribution paths for fluid or gas transfer. Titanium porous flow plates find extensive applications in various industrial sectors such as chemical engineering, oil and gas industry, aerospace, and more.
Parameters
Material:pure titanium
Brand:TOPTITECH
Technical:sintering
Size:60*60*1mm
Chamfer:as drawing
Pore size:30 microns
Features
Enhanced mass transfer and heat transfer
Tailorable pore structure
Thermal conductivity
Versatile applications
Applications
Chemical Engineering: Used in chemical reactors, adsorption separation, catalyst carriers, etc., to provide uniform mass transfer and reaction effects.
Oil and Gas Industry: Used in oil well production, gas separation, corrosion protection, etc., to meet complex process requirements and environmental conditions.
Aerospace: Used in aerospace engines, fuel cells, spacecraft thermal control, etc., to provide efficient fluid and thermal management.
Biomedical: Used in artificial organs, tissue engineering, drug delivery, etc., to achieve precise substance transport and biological reactions.
Renewable Energy: Titanium porous flow plates can be used in fuel cells, solar cells, etc., to provide efficient gas and electron transfer.
Porous titanium sheets are highly desirable for use as the porous transport layer (PTL) in polymer electrolyte membrane (PEM) water electrolyzers. However, the passivation of titanium leads to an increase in surface contact resistance, thereby negatively affecting the performance of the electrolyzer. To address this issue and ensure long-term operation, a common approach is to apply platinum or gold coatings on titanium-based PTLs.
Parameters
Material: Sintered Porous Titanium Sheet
Coating: Platinum (Pt)
The thickness of platinum: 1 micron
Porosity: Customizable, commonly between 30% and 40%
Pore Size: 10 microns
Size: 46*46* 2mm
Features
Enhanced Conductivity: The platinum coating on sintered porous titanium sheets provides excellent electrical conductivity, facilitating efficient electron transfer during electrochemical reactions.
Durability and Corrosion Resistance: Titanium's inherent corrosion resistance, combined with the protective platinum coating, ensures prolonged electrode lifespan, even in aggressive chemical environments.
High Surface Area: The porous structure of the titanium sheets offers a large surface area, enabling more active sites for electrochemical reactions and enhancing cell efficiency.
Customizable Pore Size: The pore size of sintered porous titanium sheets can be tailored to specific applications, allowing for optimized mass transport and improved electrolyte flow.
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
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