Chinese Titanium Plate Suppliers and Manufacturers

Material : TA2,TA3,Gr2,Gr3 Use: Medical Size: 0.5*(300-500)*(1000-2000)mm Tolerance: +/-0.03 Woodencase or as customer's requirement.

C.P.Ti,Ti-6Al-4V, Ti-6Al-4V ELI.Ti-6242,Ti-15333,Ti-3Al-2.5V,Ti-0.2Pd,Ti-38644 and Ti-0.3Mo-0.8Ni etc. according to ASTM, AMS,ASME,MIL,DMS,JIS specification respectively. Thickness(mm) Width(mm) Length(mm) Deliver Condition 0.6-

Titanium plate

Titanium plate

ASTM B265,AMS 4911 PLYWOOD CASES

1. We are a professional production of titanium and titanium alloy sheet manufacturers, supply various grades of titanium alloy sheet, can be cut according to your needs, you can contact us at any time to quote. 2. The thickness of our spot material is from 0.5 mm to 200 mm, which can be cut according to your requirements. You can contact us for the price. 3. We provide product processing services, you can contact us to send drawings, we can process products according to your requirements.

1. We are a professional production of titanium and titanium alloy sheet manufacturers, supply various grades of titanium alloy sheet, can be cut according to your needs, you can contact us at any time to quote. 2. The thickness of our spot material is from 0.5 mm to 200 mm, which can be cut according to your requirements. You can contact us for the price. 3. We provide product processing services, you can contact us to send drawings, we can process products according to your requirements.

Titanium plates and sheets produced by Luoyang Shunyi Titanium Industry Co., Ltd are a diverse assortment, with various dimensions and specifications. Hot-rolled plate/sheet thickness: 4-100 mm Hot-rolled plate/sheet width x length: 2500 x 6000 mm Cold-rolled plate/sheet thickness: 0.2 - 3 mm Cold-rolled plate/sheet width x length: 500 x 2500-6000

Pure titanium foil /rolled plate Grade: 1,2,3,4 for industry use . Standard: ASME SB265,ASTM B265,AMS 4911,AMS 4907. Dimension: Thk. 0.03-0.5 X coil /

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. We mainly supply: CP titanium plate & sheet CP grade 2 titanium plate & sheet ASTM B265 titanium plate & sheet Customized non-standard size titanium plate

Titanium tube plate is mainly used in chemical industry.

Product name: Titanium sheet Material grade: Gr1, Gr2, Gr4, Gr5,Gr7, Gr9, Gr23, TI-6Al4v, Certificate: ISO9001:2008,TUV, material test certificate EN10204.3.1 Standard: ASTM B265,ASME SB265,AMS4911,ASTM F136,ASTM F67 Tehnique: Hot/cold rolled Surface: Acid wash,polished Thickness:0.3-100mm Width:20-1220mm Length:500-6000mm

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

Platinum-coated titanium bipolar plates are essential components in fuel cells, where titanium serves as a sturdy base material and platinum is applied as a thin layer to enhance electrical conductivity and catalytic activity. These plates play a vital role in facilitating electrochemical reactions within fuel cells, particularly in proton exchange membrane fuel cells (PEMFCs), by providing a durable and efficient platform for electricity generation. The combination of titanium's corrosion resistance and platinum's catalytic properties ensures improved performance, longevity, and reliability in harsh electrochemical environments, making them integral to the efficiency of fuel cell systems. Specifications: Material: pure titanium, titanium alloy, or others. Size: 54*54*20mm, customized according to the drawings Coating: Platinum Coating thickness: 1 micron Coating area: All sides Type: Etching / Chemical Machining, Other Machining Services Surface: Smooth and flat surface Advantages of platinum-coated titanium bipolar plates in fuel cell applications: 1. Enhanced Catalyst Activity: The platinum coating on the titanium bipolar plates serves as a catalyst, promoting the necessary electrochemical reactions within the fuel cell. This leads to increased efficiency and improved overall performance of the fuel cell system. 2. Reduced Overpotential: Platinum-coated titanium bipolar plates help lower the overpotential required for various electrochemical reactions, which translates to more efficient conversion of chemical energy into electrical energy within the fuel cell. 3. Improved Heat Dissipation: The thermal conductivity of titanium combined with the catalytic properties of platinum allows for effective heat dissipation during fuel cell operation, contributing to the overall thermal management of the system. 4. Longevity and Durability: The corrosion-resistant nature of titanium, augmented by the protective platinum coating, enhances the durability and longevity of the bipolar plates, resulting in a longer service life for the fuel cell system. 5.Environmental Benefits: By enabling the efficient conversion of chemical energy into electricity, platinum-coated titanium bipolar plates contribute to the reduction of greenhouse gas emissions and help promote environmentally friendly energy generation.

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.

GR1 titanium plate is a high-purity titanium material extensively employed in diverse fields. GR1 represents the grade or material level of the titanium alloy, also identified as pure titanium Grade 1. It comprises pure titanium with a purity exceeding 99.5%, making it among the purest commercially available titanium. GR1 titanium plate displays exceptional physical and chemical properties. Additionally, it exhibits favorable thermal conductivity and a low coefficient of thermal expansion, ensuring stability in high-temperature environments. This enables it to endure stress under conditions of elevated temperature and pressure while preserving its structural integrity and performance. Commercial Pure Titanium (also referred to as CP Ti or commercial pure titanium) is commonly employed in grades GR1 (TA1) and GR2 (TA2). It is a dense titanium metal with at least 99% titanium content with minor impurities including iron, carbon, oxygen, nitrogen, and hydrogen. Among these impurities, oxygen, nitrogen, and iron exert the most significant influence on the mechanical properties of pure titanium, with oxygen being particularly impactful. Even a 0.01% oxygen content can substantially enhance its strength. The interaction between hydrogen and titanium is reversible, and the primary effect of hydrogen on titanium's performance is "hydrogen embrittlement." Consequently, it is typically mandated that the hydrogen content does not exceed 0.015%. Commercial pure titanium generally contains 0.03%-0.08% oxygen and 0.03%-0.05% nitrogen. Specification: Size:100*100*1.0mm Grade: GR1 Standard: ASTM B265 Surface Finishes: Brushed What are the surfaces of titanium plates? The surface of titanium plate can be treated and processed differently, with the following common surface treatments: 1. Untreated surface: The original surface of titanium plate is usually untreated and keeps its natural state. This surface usually has a smooth metallic luster. 2. Pickled surface: Titanium plate can be pickled to remove surface oxides and impurities to improve its purity and surface quality. Pickled surface is smoother and cleaner, suitable for applications with high surface requirements. 3. Polished surface: The surface of titanium plate can be polished by mechanical or chemical methods to give it a very smooth and mirror-like appearance. Polished surface is widely used in decoration, electronics and high-end industrial fields. 4. Anodized surface: Anodized surface of different colors and textures can be obtained by forming an oxide layer on the surface of titanium plate. This treatment method can increase the corrosion resistance of titanium plates and provide more decorative options. 5. Sandblasting surface: Through high-pressure sandblasting, a fine grit effect can be formed on the surface of titanium plates. Sandblasting surfaces are often used to increase the roughness of titanium plates, provide better adhesion, or for decorative purposes.

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. Specifications Material: GR1 titanium powder Pore size/Filtration grade: 20um Size:100x100mm Thickness: 0.25mm Porosity: 40%-50% Technique: Sintering Features Enhanced Catalyst Layer Utilization Excellent Transport Properties Precise Thickness and Durability Seamless Integration and Compatibility Sustainable and Eco-Friendly The role of 0.25mm Titanium Sheet as PTL 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. Efficient Reactant Transport Enhanced Gas Removal Effective Electron Conduction Structural Support and Stability Scalability and Compatibility

TOPTITECH has developed the thinnest porous titanium plate on the market for use as an anode diffusion layer in standard PEM electrolysers. Metallic or titanium-based electrodes serve as the flow field or diffusion material in standard PEM electrolyzers, particularly on the oxygen (anode) side, to ensure improved mass transport and a compact design. The use of carbon-based gas diffusion layers (GDLs) is not viable at the anode due to immediate carbon oxidation to CO2 (under acidic conditions) or carbonate ions (under basic conditions). To address this limitation, the titanium porous transfer layer emerges as an optimal choice for the diffusion medium. Additionally, the titanium porous transfer layer facilitates electrical connectivity between the anode catalyst layer and the bipolar plate or current collector component. Specification Material: Pure Titanium powder Thickness: 0.1mm Porosity: Above 60% Pore size: 60 microns Size: Customized Technique: Sintering Features: 1. Porous Structure: The ultra-thin titanium plate features a precisely engineered porous structure, resulting in a high surface area-to-volume ratio. This unique design allows for efficient gas diffusion and electrolyte flow, enhancing the electrochemical reactions within the electrolyser. 2. Ultra-Thin Design: With its ultra-thin profile, the plate minimizes the electrical and mass transfer resistance, improving the overall efficiency of the PEM electrolyser. Its thinness also enables compact and lightweight electrolyser designs. 3. High Purity Titanium: The plate is made from high-purity titanium, ensuring excellent corrosion resistance and long-term durability in harsh electrolysis environments. It maintains its structural integrity and performance even under high current densities and extended operating periods. 4. Customizable Specifications: The ultra-thin porous titanium plate can be tailored to specific dimensions, including length, width, and thickness, to suit various PEM electrolyser configurations and designs. Applications: 1. Hydrogen Production: The ultra-thin porous titanium plate is primarily used as the cathode and anode electrodes in PEM electrolysers for hydrogen production. Its high surface area and efficient gas diffusion properties promote the electrolysis of water, resulting in the generation of high-purity hydrogen gas. 2. Energy Storage: The plate can also be employed in energy storage systems, particularly in regenerative fuel cells. It facilitates the conversion of electrical energy into chemical energy by allowing efficient hydrogen production during the charging phase and subsequent power generation during the discharging phase. 3. Research and Development: The ultra-thin porous titanium plate finds applications in academic and industrial research laboratories for studying electrochemical reactions, testing new catalysts, and optimizing the performance of PEM electrolysers.

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 square porous titanium plate is manufactured using advanced sintering technology, which results in a highly porous structure with interconnected channels and a large surface area. The porous structure of titanium plates allows for effective gas permeation and rapid exchange of gases. The interconnected network of pores provides a large surface area for gas interactions, promoting efficient gas diffusion and ensuring uniform distribution across the entire plate. This characteristic is particularly beneficial in applications where optimized gas diffusion is critical, such as fuel cells, electrolyzers, and gas purification systems. The compatibility of porous titanium plates with various gases further expands their utility. They find extensive use in industries such as fuel cells, electrolyzers, metal-air batteries, and gas purification systems, where efficient gas diffusion is crucial for optimal performance. Specifications: - Porosity: 30% to 40% - Pore Size: 5 microns - Dimensions: 50 mm x 50 x 1mm - Surface Coatings: Optional coatings such as platinum can be applied to enhance catalytic properties. Features: 1. High Gas Diffusion Efficiency: The porous structure ensures excellent gas diffusion and enables rapid exchange of gases. 2. Corrosion Resistance: Titanium is known for its excellent corrosion resistance. The porous titanium plate can withstand exposure to corrosive environments, making it suitable for applications where contact with aggressive substances is expected. 3. Mechanical Strength: The sintering process used to manufacture the porous titanium plate results in a structurally robust material. It possesses good mechanical strength, ensuring durability and reliability even under challenging operating conditions. 4. Customizability: The parameters of the porous titanium plate, such as pore size distribution and porosity, can be tailored to specific application requirements. This allows for the optimization of gas diffusion characteristics, ensuring optimal performance in various industries. 5. Compatibility: The porous titanium plate is compatible with a wide range of gases, making it suitable for diverse applications. It finds use in industries such as fuel cells, electrolyzers, metal-air batteries, and chemical processing, where efficient gas diffusion is essential. Applications: - Fuel Cells: The porous titanium plate serves as a gas diffusion layer in proton exchange membrane fuel cells (PEMFCs) and solid oxide fuel cells (SOFCs). - Electrolyzers: It is used in water electrolysis systems for efficient gas diffusion during hydrogen production. - Metal-Air Batteries: The plate enhances oxygen diffusion in metal-air battery systems, improving their performance. - Environmental Protection: The plate finds applications in air filters, gas purifiers, and exhaust gas treatment systems. - Chemical Processing: It is utilized in gas-liquid contactors, catalytic reactors, and gas sensors.