What We Do
Research and development, production and manufacturing of rare metal material products
Further processed products of high entropy/refractory metals
Production and manufacture of precious metal electrolysis products
SOFC/SOEC (Solid Oxide Fuel Cell/Electrolyzer) Device Module
Aerospace/marine/military high-end titanium material products
Why Choose Us
* Metal material whole industry chain production line and processing experience, reliable and
stable quality
* Professional technical team and R&D team to solve technical problems and continuously
improve product performance
* Excellent sales team, timely solve the problems in the order process
* Rich customer base, understand the pain points of customers in various industries and give
professional advice
Company Partner
Product Application Field
1)Titanium Products:
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Applications of Titanium and Titanium Alloys |
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Application field |
Specific purpose |
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Aerospace |
Jet engine parts, fuselage parts, rockets, artificial satellites, missiles and other parts; |
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Chemistry, Petrochemical |
Electrolyzers, reactors, distillation towers, concentrators, separators, heat exchangers, pipes, electrodes, etc. |
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Ship |
Submarine pressure hull, propeller, water jet propulsion, seawater heat exchange system, ship pump (valve and pipe); |
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Marine Engineering |
Seawater desalination pipes, offshore oil drilling pumps, valves, pipe fittings, etc. |
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Biomedical |
Artificial joints, artificial dental implants and orthodontics, cardiac pacemakers, cardiovascular stents, surgical instruments, etc. |
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Sports equipment |
Golf heads, tennis rackets, badminton rackets, pool cues, trekking sticks, ski poles, ice skates, etc. |
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Articles for daily use |
Spectacle frames, watches, crutches, fishing rods, kitchen utensils, digital product casings, handicrafts, decorations, etc. |
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Architecture |
Building roofs, exterior walls, decorations, signs, railings, pipes, etc. |
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Automobile |
Automobile exhaust and muffler systems, load-bearing springs, connecting rods and bolts, etc. |
2)Tungsten And Molybdenum Products:
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Tungsten, molybdenum deep processing products application field |
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Application field |
Specific purpose |
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National defense industry |
Gyro rotors, counterweight screws, and adjustment pieces of missile instruments; high-density alloy missile bodies; counterweights in tank engine governors and nuclear submarines; shielding materials for nuclear reactors, etc. |
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Aerospace |
Corrosion-resistant components, counterweights, etc. in the propulsion systems of aircraft, rockets, and spacecraft; |
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Medical equipment |
Shielding elements or containers for radioactive sources, collimators, multi-leaf gratings and radiation shielding materials; |
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Sapphire crystal growth furnace thermal field |
Sapphire crystal growth furnace thermal field accessories; |
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microelectronic information |
Sputtering targets for semiconductor integrated circuits, optical discs, and flat-panel displays; |
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Tungsten electrodes and high voltage switches |
Tungsten copper alloy is used as arc contact and vacuum contact of high and medium voltage switch or circuit breaker; |
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Furnace heat field |
In the Kyropoulos process, tungsten is used as a heating element, and tungsten and molybdenum are used as insulation materials; |
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Semiconductor |
Materials for heating elements and structural parts used in integrated circuit related equipment, such as filaments, electron guns, etc. |
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vapor deposition |
Thin film element materials, heating element components of vapor deposition equipment, etc.; coating of high-end electronic products and optical components, etc. |
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Tungsten and molybdenum sputtering targets |
Large size display coating; |
3)Titanium Anode Products:
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Titanium-based precious metal electrode product application fields |
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Coating system |
Specific purpose |
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Lead dioxide titanium anode |
Electroplating, smelting, domestic sewage treatment, persulfate production, fading treatment of phenolic wastewater, oilfield wastewater, printing and dyeing wastewater, ammonia nitrogen wastewater, etc. |
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Ruthenium series titanium anode |
Chlor-alkali industry, diaphragm alkali production, chlorate industry, electrolytic production of chlorine dioxide, acidic water electrolysis, electrolysis of seawater to chlorine production, power plant circulating water for sterilization and algae removal, chloride system electrowinning metal, ionized water electrolysis, electrodialysis, etc. |
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Iridium series titanium anode |
Metal foil, electrolytic copper foil, galvanized steel plate, cathodic protection, organic electrolytic synthesis, electrochrome plating, etching solution regeneration and copper recovery, swirl electrolysis, hydrometallurgy, HHO generator, sewage treatment and other industries; |
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Platinum series titanium anode |
Electrolyzed ionized water, electroplating, oxidized acidic potential water, HHO generator, hydrogen production by electrolyzed water, etc. |
4)SOFC/SOEC Supporting Products:
Solid oxide fuel cells (SOFC) and solid oxide electrolysis cells (SOEC) are advanced energy systems that convert chemical energy into electrical energy. The components of these cells are carefully designed to ensure their optimal performance.
One of the most important parts of SOFC/SOEC is the piping system. This system is responsible for supplying fuel, oxygen, and other gases to the cell. It consists of high-quality metal pipes that maintain the gas flow and prevent any leakage of harmful substances. The piping system ensures that the fuel and oxygen reach the fuel cell or electrolysis cell without any interference or mixing.
The plate exchange system in SOFC/SOEC is responsible for exchanging heat between the gases passing through the cell and the surrounding air. The system consists of plates, made of metallic or ceramic materials, to optimize the heat exchange process and transfer heat from the hot side to the cold side of the cell.
The electric cell system is the heart of the SOFC/SOEC, where the electrochemical reactions occur to convert the hydrogen and oxygen to electricity. The cell system is composed of metallic plates that enclose the different layers of the cell, forming the anode, cathode, and electrolyte layer.
In addition, there are other components that work together to make the cell fully functional. These include the fuel and air supply system, the exhaust system, the cooling system, and a control system to manage and monitor the entire process.
All these components, particularly the metal ones, play a crucial role in ensuring the efficient operation of SOFC/SOEC. They must be chosen carefully to prevent any corrosion, leakage, or deformation that could negatively affect the performance of the cell. With well-designed and carefully chosen components, SOFC/SOEC can provide reliable, efficient, and clean energy for various applications, making a significant contribution to the transition to a sustainable energy system.
5)Rare Metal Alloy Products:
High-entropy alloys such as tungsten-copper, titanium-tantalum, high-vanadium, niobium-carbon, and tungsten-carbon alloys, have numerous applications. These alloys typically possess exceptional mechanical, thermal, and electrical properties, making them a popular choice in high-performance devices and machinery.
One promising application of high-entropy alloys is in the aerospace industry, where they can be used in manufacturing turbine blades, which require high strength, thermal stability, and corrosion resistance. In addition, the tungsten-copper alloy is used in the production of heat sinks for electronic devices, while the titanium-tantalum alloy is employed in surgical implants and military armor due to its biocompatibility and toughness.
Another significant application of high-entropy alloys is in renewable energy systems. The niobium-carbon alloy, for instance, is ideal for producing supercapacitors, which are essential in energy storage and conversion systems. Additionally, high-vanadium alloys have been shown to be highly effective catalysts in chemical reactions employed in hydrogen production, while tungsten-containing alloys show excellent corrosion resistance, making them useful in environments with high temperatures or corrosive fluids.
In conclusion, rare metal alloy products such as high-entropy alloys provide a multitude of possibilities for improving the overall performance of various devices and systems. As research and innovation continue, these materials' applications will further expand, opening an array of opportunities across various fields.