Ir Bal.
Pt 0.002
Pd 0.001
Rh 0.003
Ru 0.001
Au 0.001
Ag 0.001
Fe 0.001
Cu 0.002
Application:
1. Iridium is the only precious metal thermocouple that can measure temperature up to 2100 C in the atmosphere because of its high temperature oxidation resistance and thermoelectric properties. Iridium can be used as a container material for radioactive heat source. Iridium anodic oxide film is a promising electrochromic material. Ir192 is a gamma ray source, which can be used for nondestructive testing and radiochemical therapy. Iridium is also an important alloying element;
2. Iridium powder/Iridium gold melting into gold can increase the weight, hardness and density of gold, generally adding about 5%~30%(K gold) of gold weight for mixed melting;
3. It is used for electronic pastes, reduce the sintering temperature of the electronic pastes;
4. It is used for welding of alloy, reduce the alloy melting point;
5. It's for in the alloy, improve the abrasion resistance of alloy;
6. It's for lubricants, improve the wear resistance of lubricating oil;
7. In the application of coatings, improve transparency and abrasion resistance, resistance to scratch and conductive ability;
The Ruthenium Iridium Titanium Electrode for Hydrogen-rich Water Cup is a crucial component used in hydrogen-rich water cups. This electrode utilizes a titanium alloy coated with a ruthenium-iridium layer as its primary material. This high-performance electrocatalytic material facilitates the electrolysis reaction in water, splitting water molecules into hydrogen and oxygen gases. The ruthenium-iridium coated titanium alloy possesses excellent conductivity and corrosion resistance, ensuring stable performance over extended periods.
Parameter
Base Material: GR1 titanium
Coating: Ruthenium-Iridium
Size: according to customersâ?? requirements
Technique: brushing or electroplating
Features
1.Efficient electrolysis: The electrode uses ruthenium-iridium coated titanium alloy as a high-efficiency electrocatalytic material to promote the electrolysis process of water and decompose water molecules into hydrogen and oxygen.
2.Excellent conductivity: The ruthenium-iridium coated titanium alloy electrode has excellent conductivity, ensuring the smooth transmission of electrons in the electrolysis reaction and improving the efficiency of hydrogen production.
3.Corrosion Resistance: The electrodes are designed to be corrosion resistant, ensuring stability over long periods of use. The combination of titanium alloy and ruthenium-iridium coating provides excellent corrosion resistance and remains stable even in aqueous and electrolytic conditions.
4.Increase surface area: Electrodes usually adopt composite structures, including multi-layer films and nanostructures, to increase the surface area of the electrode and increase the contact area with water, promoting more efficient electrolysis reactions.
5.RELIABILITY & DURABILITY: Ruthenium Iridium Titanium Electrode is manufactured using strict quality control measures. This includes selection of high-quality materials, precise manufacturing processes and comprehensive performance testing. The electrode design is stable, reliable and highly durable.
Application in the Hydrogen-rich Water Cup
The Ruthenium Iridium Titanium Electrode plays a vital role in hydrogen-rich water cups, enabling the generation of hydrogen-rich water through efficient electrolysis. This high-performance electrode, composed of a titanium alloy coated with a ruthenium-iridium layer, facilitates the electrolytic process, splitting water molecules into hydrogen and oxygen gases.
