Porous Titanium Sheet is made of high purity titanium powder with a uniform aperture, flat and no rag, and minimum filtration accuracy up to 0.5 microns.
Porous Titanium Sheet is used in the following aspects
1. Corrosion resistance, acid, and alkali resistant environment.
2. High-temperature resistance, temperature resistance of 300 degrees.
3. It can be accurately filtered and intercept 98% as small as 0.5-micron particles.
4. Sharable and can be customized according to customer specifications.
5. It can be reused and used again after cleaning, doubling the service life.
Application
1. Petrochemical industry, water filtration, water purification.
2. Pharmaceutical industry, pharmaceutical, and liquid filtration.
3. Hydrogen production industry, hydrogen energy electrolytic electrode.
4. Gas purification industry, as a gas purification sieve.
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.
The platinum-coated porous titanium electrode sheets are highly effective electrode materials in acidic environments. These products find applications in organic electrolysis, such as cysteine, Cr3+, Cr6+, CN, and toxic substance electrolysis. They can also serve as auxiliary electrodes in the electroplating industry, including as auxiliary anodes for chromium, electrolytic copper, and electrolytic zinc, as well as in electrolytic cobalt and nickel processes.
Parameters
Material: Sintered Porous Titanium Sheet
Coating: Platinum (Pt)
Thickness of platinum: 1 microns
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.
Porous titanium sheets are versatile materials used as gas diffusion layers (GDLs) in various industries. With their unique properties, these sheets enable efficient gas transfer, making them crucial components in fuel cells, electrolyzers, and other electrochemical applications.
Porous titanium sheets are typically produced through a process called powder metallurgy. It involves compacting titanium powder into a desired shape and sintering it at high temperatures. The sintering process creates interconnected pores, resulting in the desired porosity.
Feature
Efficient Gas Distribution: The interconnected pore structure of porous titanium sheets allows for uniform gas distribution across the surface area, ensuring efficient gas diffusion and transport.
Enhanced Catalyst Utilization: The high surface area of porous titanium sheets allows for the deposition of catalyst materials, promoting efficient electrochemical reactions and maximizing catalyst utilization.
Low-Pressure Drop: The design of porous titanium sheets ensures minimal pressure drop across the gas diffusion layer, optimizing overall system performance.
Surface Area: Porous titanium sheets offer a high surface area, enhancing the gas diffusion process and providing better electrochemical performance.
Electrical Conductivity: These sheets exhibit good electrical conductivity, ensuring efficient current distribution within the electrochemical systems.
Water Management: Porous titanium sheets assist in managing water within the gas diffusion layer, preventing flooding and aiding in effective electrochemical reactions.
Application:
Fuel Cells: Porous titanium sheets serve as essential components in proton exchange membrane fuel cells (PEMFC) and solid oxide fuel cells (SOFC). They enable effective gas distribution, and water management, and provide electrical conductivity.
Electrolyzers: Porous titanium sheets are used in electrolyzers for hydrogen production. They facilitate efficient gas diffusion and enable water management, resulting in improved electrolysis performance.
Batteries: Porous titanium sheets find application in various types of batteries, including lithium-air batteries and redox flow batteries. They enhance gas diffusion, and electrolyte distribution, and provide structural support for the electrode materials.
Chemical and Petrochemical Industry: Porous titanium sheets play a vital role in catalytic reactors, gas separation units, and other chemical processes. They provide a high surface area for catalyst deposition and facilitate efficient gas transport.
Porous titanium sheets are versatile materials used as gas diffusion layers (GDLs) in various industries. With their unique properties, these sheets enable efficient gas transfer, making them crucial components in fuel cells, electrolyzers, and other electrochemical applications.
Feature
Efficient Gas Distribution: The interconnected pore structure of porous titanium sheets allows for uniform gas distribution across the surface area, ensuring efficient gas diffusion and transport.
Enhanced Catalyst Utilization: The high surface area of porous titanium sheets allows for the deposition of catalyst materials, promoting efficient electrochemical reactions and maximizing catalyst utilization.
Low-Pressure Drop: The design of porous titanium sheets ensures minimal pressure drop across the gas diffusion layer, optimizing overall system performance.
Surface Area: Porous titanium sheets offer a high surface area, enhancing the gas diffusion process and providing better electrochemical performance.
Electrical Conductivity: These sheets exhibit good electrical conductivity, ensuring efficient current distribution within the electrochemical systems.
Water Management: Porous titanium sheets assist in managing water within the gas diffusion layer, preventing flooding and aiding in effective electrochemical reactions.
Application:
Fuel Cells: Porous titanium sheets serve as essential components in proton exchange membrane fuel cells (PEMFC) and solid oxide fuel cells (SOFC). They enable effective gas distribution, and water management, and provide electrical conductivity.
Electrolyzers: Porous titanium sheets are used in electrolyzers for hydrogen production. They facilitate efficient gas diffusion and enable water management, resulting in improved electrolysis performance.
Batteries: Porous titanium sheets find application in various types of batteries, including lithium-air batteries and redox flow batteries. They enhance gas diffusion, and electrolyte distribution, and provide structural support for the electrode materials.
Chemical and Petrochemical Industry: Porous titanium sheets play a vital role in catalytic reactors, gas separation units, and other chemical processes. They provide a high surface area for catalyst deposition and facilitate efficient gas transport.
Porous Titanium Sheet is an innovative porous filter material that exhibits high efficiency. It is manufactured using industrial high-purity titanium powder (>99.6%) through processes such as powder classification, molding, sintering, and mechanical welding. This material offers adjustable porosity and filtration accuracy across a wide range. With its open cell structure, porous titanium is highly promising as an implant material, thanks to its low elastic modulus, excellent bioactivity, biocompatibility, and ability to support bone regeneration.
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).
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 is a metal needed to make a variety of high-performance alloys. Most of the Titanium ore mined worldwide is used to manufacture titanium dioxide an important pigment, whiting, and polishing abrasive.
We are instrumental in exporting and supplying of premium quality Titanium ore. It is basically a black heavy ore of iron and titanium.
We can supply 3000-5000mt of Titanium ore per month to any destination.
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
Titanium granite is a luxurious black natural stone with bold swirls of gold, white, and gray veins. Its high durability, striking contrast, and resistance to heat and scratches make it a popular choice for countertops, vanities, and accent walls.
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.
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.
A porous titanium plate is a type of material made from titanium that has many small holes or pores throughout its surface. These pores can range in size from a few micrometers to several millimeters, depending on the manufacturing process and the intended use of the plate.
Porous titanium plates are commonly used in a variety of applications, includingbiomedical implants, filtration systems, and catalytic converters. One of their most important properties is their high surface area-to-volume ratio, which allows for efficient mass transfer and gas exchange.
Parameters
Material: titanium sponge
Porosity: 35%
Filtration rate: 0.22mm- 100mm
Thickness: above 1mm
Size: square round and customized with the drawing
How is the porosity of the plate controlled during manufacturing
The porosity of aporous titaniumplate can be controlled during the manufacturing process. In the powder sintering process,titanium powderis compressed and heated to a temperature just below the melting point of titanium. The powder particles then fuse together to form a solid plate with a controlled porosity. The porosity of the plate can be controlled by adjusting the size and shape of the powder particles, the temperature and pressure of thesintering process, and the amount of binder material used.
Sintered porous titanium plate is a porous material made of titanium powder that is compressed and heated to create a solid block. The block is then treated with acid or other chemicals to remove any remaining impurities and create a porous structure.
Product parameters
Aperture size: 0.1 3mm
Porosity: 30% 60%
Thickness: 0.5mm 6mm
Specific surface area: 100 1000m2/m3
Tensile strength: 300 600MPa
Thermal conductivity: 2 20W/mK
Application fields: widely used in aviation, automobiles, medical equipment, biological materials, filter materials and other fields
Features
1. Efficient transmission of hydrogen: The highly porous structure of the porous titanium plate enables the effective transmission of hydrogen and has good gas transmission performance, which can significantly improve the efficiency of the water electrolysis hydrogen production system.
2. Lightweight and corrosion-resistant: The porous titanium plate is light in weight and is very suitable for making the transmission layer. At the same time, the titanium material can resist the corrosion of many acidic and alkaline media and has a long life and stable performance.
3. Easy to clean: The porous titanium plate has a large opening rate and a large surface area, which is easy to clean and handle, and can effectively reduce the pollution of the water electrolysis hydrogen production system and reduce the impact on the environment.
4. Highly stable: The porous titanium plate has a long service life and high stability, and can keep its pore structure and performance unchanged, further improving the stability of the hydrogen production system, thereby meeting various needs of industrial and scientific laboratories.
Porous titanium plate is a type of material that is characterized by its interconnected network of pores. It is made from titanium, which is a lightweight, strong, and corrosion-resistant metal. The porosity of the titanium plate allows for increased surface area, which can be useful in applications such as filtration, catalysis, and biomedical implants.
Porous titanium plate has several features that make it a unique material.
First, the pore size and distribution can be controlled during manufacturing, allowing for customization of the material for specific applications.
The interconnected network of pores also allows for fluid or gas flow through the material, making it useful for filtration and catalysis.
Porous titanium plate is also biocompatible, which makes it suitable for use in biomedical applications.
Porous titanium plate has a wide range of applications in various industries. In biomedical applications, it is commonly used for bone implants, where the porous structure allows for better integration with surrounding bone tissue. It is also used in dental implants, where the porous structure allows for better anchoring of the implant. In the chemical industry, porous titanium plate is used for catalysis, where the high surface area and pore structure allow for efficient chemical reactions. It is also used in filtration applications, such as air and water filters.
Porous titanium plate can be manufactured using several techniques, including powder metallurgy, sintering, and electrochemical deposition. In powder metallurgy, titanium powder is mixed with a binder material and then pressed into a desired shape. The material is then sintered to remove the binder and fuse the titanium particles together. In electrochemical deposition, a layer of titanium is deposited onto a substrate using an electrochemical process. The resulting layer can be made porous by controlling the deposition parameters.
Platinum-coated porous titanium plates are essential components used in electrolyzers for diverse industrial applications such as hydrogen production, water treatment, and energy storage. These plates play a critical role in facilitating efficient and reliable electrochemical reactions.
Specifications:
Material: porous Titanium plate
Coating: Platinum (usually 0.2-5 microns thick)
Porosity: 30%-40%
Thickness: 0.6-20 mm
Dimensions: Customizable based on specific electrolyzer requirements
Surface Area: Varies based on design and application, usually 50-100 cm�²
Why is platinum used as a coating material?
Platinum is highly resistant to corrosion and possesses excellent catalytic properties, making it ideal for enhancing electrochemical reactions. It ensures long-term stability and efficiency of the electrode, resulting in improved performance and durability of the electrolyzer.
What are the advantages of using porous titanium plates?
The porous structure of titanium plates increases the available surface area for reactions, allowing for greater contact with the electrolyte. This enhances mass transfer and promotes efficient gas diffusion, leading to faster reaction rates and improved overall electrolyzer performance.
Can the dimensions of the plates be customized?
Yes, the dimensions of platinum-coated porous titanium plates can be tailored to suit specific electrolyzer designs and requirements. Customization allows for compatibility with different system sizes and configurations.
Product Introduction
In a proton exchange membrane fuel cell, the main function of the gas diffusion layer is to support the catalyst and provide a channel for the gas participating in the reaction and the water generated. It is one of the key components of the membrane electrode.
The porous titanium plate has a good and uniform large number of pores, the porosity can be controlled by adjusting the diameter of the powder, and it is made of sintering, high-temperature resistance, and corrosion resistance.
Product Parameters
Color: Metallic
Shape: Square plate, disc, can be customized
Process: Powder sintering
Fine filter: 1 m~65m
Material: Pure titanium
Operating Temperature: 300
Thickness: 0.8mm 2.8mm
Performance: Acid resistance, alkali resistance, high-temperature resistance, breathable
Features
1. Corrosion resistance
2. Porous air permeability
3. High conductivity
4. High thermal conductivity
5. Good permeability
Due to its characteristics, porous titanium plates can also be used in the following industries:
(1) Manufacture of sweating material. That is, the pores of ordinary powder metallurgy materials are impregnated with low-melting point substances, and they work at high temperatures
At this time, the impregnation melts and seeps out, making the material sweat to dissipate heat. In this way, ordinary materials can be used to replace expensive heat-resistant alloys, and the service temperature of heat-resistant parts can be further increased.
(2) Manufacture filter material. Used to filter gas, filtrate and poison, etc.
(3) Impregnated with anti-friction agent to manufacture oil-containing and oil-free lubricated bearings; impregnated with spices to manufacture fragrance-containing handicrafts, etc.
(4) Manufacture materials such as vibration reduction, noise reduction, and heat insulation.
Titanium dioxide is a white, odorless, and naturally occurring mineral compound that finds extensive use in various industries. It is most notably recognized as a white pigment in paints, coatings, plastics, and cosmetics due to its exceptional opacity and brightness. Titanium dioxide serves as an effective UV blocker in sunscreens, protecting the skin from harmful ultraviolet rays. In addition to its role in pigmentation and UV protection, it is employed as a catalyst in the chemical industry, and as a strengthening and opacifying agent in the food industry for items like confectionery, sauces, and toothpaste. Its versatility and ability to enhance color, protection, and strength make titanium dioxide an indispensable component in a wide range of everyday products.
Titanium dioxide, also known as Titanium (IV) or Titania, is a simple inorganic compound produced as a pure white powder with the molecular formula TiO2. Generally, it is available in two main crystal forms, which are rutile and anatase. Anatase is economical, easily dispersed in water-based systems, and a perfect opacifier. Untreated titanium dioxide (anatase) has TiO2 with a refractive index of 2.55. However, it is not commonly used in exterior (weather-exposed) paint applications except for highway paints.
Application: Paint and Coating Industry, Paper Industry, Cosmetics Industry, Food Industry, Plastic Industry etc.
