Chloroiridic Acid Recycling
Chloroiridic acid (H₃[IrCl₆]) is a metal complex containing iridium, usually existing as a hydrate in the form of yellow or orange crystals. It is the chloride of iridium produced by the reaction of iridium metal with chlorine and hydrogen chloride. Waste chloroiridic acid is one of the sources of recycling of iridium-containing precious metal catalyst waste. Recycling of iridium-containing precious metal catalyst waste also includes recovery of iridium iodide, recovery of iridium acetate, recovery of chloroiridic acid, recovery of iridium bromide, recovery of iridium chloride, recovery of iridium oxide, etc.
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Name : Chloriridic acid
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Use : Electronic material synthesis, catalysts, reagent analysis, etc.
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Application Areas : High-end chemical industry, research institutes, precious metal recycling, etc.
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Appearance and properties : yellow or orange crystals.
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Settlement Method : On-site payment
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Recycling Type : Iridium recycling
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Door-to-door recycling:worldwide
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Customer service: Free content testing and door-to-door recycling
Iridium Rhodium Alloy Recycling
Iridium-rhodium alloy is an alloy made of two precious metal elements, iridium (Ir) and rhodium (Rh), which has excellent high temperature resistance, corrosion resistance and good mechanical properties. Both iridium and rhodium have very high chemical stability and high melting points, so iridium-rhodium alloy is often used in applications in high temperature and highly corrosive environments, such as catalysts, thermocouples, electrical contacts, and precision instruments. Iridium-rhodium alloy scrap is one of the recycling sources of iridium-containing waste. Recycling of iridium-containing waste also includes iridium-plated titanium sheet recycling, osmium-iridium recycling, platinum-iridium alloy recycling, iridium-titanium mesh recycling, iridium tube recycling, iridium crucible recycling, ruthenium-iridium mesh recycling, and iridium alloy recycling.
Search : Iridium Rhodium Alloy RecyclingIridium Crucible Recycling
Iridium crucibles are high-performance, high-temperature-resistant containers made of iridium metal, mainly used in smelting, chemical reactions, or other experimental operations at very high temperatures. Iridium has a very high melting point (about 2446°C) and excellent corrosion resistance, so iridium crucibles can be used stably for a long time even in high temperature, strong acid, and strong oxidation environments. Therefore, they are widely used in metallurgy, chemical synthesis, metal refining, scientific research experiments, and aerospace material development. Iridium crucibles are particularly suitable when precious metals, high-temperature metals, or substances that are easily oxidized need to be handled under extreme conditions, and can withstand the harsh chemical environment that occurs during high-temperature reactions. Because iridium is rare, iridium crucibles usually have a high cost, but their excellent performance makes them indispensable for high-end applications.
Search : Iridium Crucible RecyclingCrude Iridium Recycling
Crude iridium refers to iridium metal extracted from ores or other iridium minerals without being refined or refined. It usually has a high percentage of impurities such as precious metals such as platinum, palladium, gold and other metallic elements, and has a low purity. The extraction of crude iridium usually goes through a preliminary processing stage such as smelting and chemical decomposition, but does not go through a fine refining process and requires further processing to improve purity. Waste crude iridium is one of the important sources of recycling of iridium-containing waste. Recycling of iridium-containing waste also includes iridium-rhodium alloy recycling, iridium rod recycling, iridium gold recycling, iridium block recycling, iridium tube recycling, iridium crucible recycling, iridium powder recycling, and iridium wire recycling.
Search : Crude Iridium RecyclingIridium Slag Recycling
Iridium slag refers to waste or by-products produced by oxidation, impurity deposition, or other chemical reactions during the smelting, refining, or processing of iridium metal. Iridium slag usually contains small amounts of iridium metal and other impurities, such as precious metals such as platinum, palladium, and gold, oxides, sulfides, and other chemicals. Iridium slag is generally recycled through chemical treatment, dissolution, and reduction to extract iridium metal and other precious metals, and has a certain recycling value. The processing of iridium slag usually requires processes such as high-temperature smelting and acid solution leaching to maximize the recovery of valuable metals. Iridium slag is one of the very high-quality sources of iridium-containing waste recycling. Other sources of iridium-containing waste recycling include iridium water recycling, iridium powder recycling, iridium target material recycling, iridium slurry recycling, iridium carbon recycling, and iridium salt recycling.
Search : Iridium Slag RecyclingProduct Details
Chloroiridic acid (H₃[IrCl₆]) is a metal complex containing iridium, usually existing as yellow or orange crystals in the form of a hydrate. It is the chloride of iridium produced by the reaction of iridium metal with chlorine and hydrogen chloride. Chloroiridic acid has important applications in chemistry and catalysis research, mainly in the production of other iridium compounds and catalysts. It can be used as a precursor of iridium and as a catalyst source in catalytic reactions. Chloroiridic acid is also widely used in the synthesis of electronic materials, as a catalyst in chemical synthesis processes, and in certain specialized analytical chemistry methods. Chloroiridic acid plays an important role in high-end chemical industries, laboratories, and precious metal recovery due to its applications in catalysis and synthesis.
Common methods for preparing chloroiridic acid (H₃[IrCl₆]):
1. Reaction method of iridium metal with chlorine: In this method, iridium metal is reacted with chlorine to produce iridium chloride (IrCl₃), which is then reacted with hydrogen chloride (HCl) gas to produce chloroiridic acid. During the reaction, iridium metal reacts with chlorine gas at high temperature to form iridium chloride, and then the iridium ions react with hydrogen chloride gas to be further oxidized to form chloroiridic acid. This process is usually carried out under an inert atmosphere to prevent iridium from reacting with other gases and ensure high reaction efficiency and product purity.
2. Reaction of iridium chloride with hydrogen chloride: Another method is to react iridium chloride (such as IrCl₃) with hydrogen chloride gas to produce chloroiridic acid. In this method, iridium chloride is dissolved in a suitable solvent (usually water or hydrochloric acid solution), and then hydrogen chloride gas is passed through to convert the iridium ions into chloroiridic acid. This method is relatively simple, the reaction conditions are mild, and a relatively high-purity chloroiridic acid solution is usually obtained.
3. Solvothermal method: The solvothermal method is a method that uses a solvent as a reaction medium and performs a high-temperature and high-pressure reaction in a closed vessel. Iridium chloride (such as IrCl₃) reacts with hydrogen chloride gas or a chlorine-containing solution to form chloroiridic acid. By controlling the temperature, pressure, and reaction time, high-purity chloroiridic acid can be obtained in a shorter time. The advantage of this method is that it can be carried out at a higher reaction temperature, which improves the reaction efficiency and product quality, making it suitable for industrial production and laboratory-scale high-purity synthesis.
Waste chloroiridic acid is one of the recycling sources of iridium-containing precious metal catalyst waste. Recycling of iridium-containing precious metal catalyst waste also includes iridium iodide recovery, iridium acetate recovery, iridium chloride recovery, iridium bromide recovery, iridium chloride recovery, iridium oxide recovery, etc. If you need to recycle iridium-containing waste, please call our 24-hour service hotline. Dingfeng precious metal recycling and refining manufacturers have their own recycling and refining plants without any middlemen that create price differences, and our professional technical team and customer service personnel provide one-to-one service and ensure customer privacy during the recycling process.