The sources of iridium scrap are diverse, primarily found in electronic products, chemical catalysts, and medical devices. In electronics, iridium is used to manufacture high-end semiconductors and specific alloys. In the chemical industry, iridium catalysts, known for their excellent chemical stability and catalytic efficiency, are applied in important chemical reactions. Additionally, iridium is used in the manufacture of medical equipment, particularly in key components of radiation therapy devices.
The recycling process of iridium metal begins with the classification and preliminary treatment of scrap. This step involves mechanically crushing the scrap and using methods like magnetic separation and gravity separation to remove non-metallic impurities. When recovering iridium metal from electronic products, it is necessary to first remove plastic and other non-metal parts, then provide purer iridium metal raw materials for subsequent chemical processing.文章源自平泽贵金属回收公司 www.51gjs.comPINGZE Precious Metals Recycling-https://en.51gjs.com/47108.html
The preliminary treatment of iridium metal in scrap not only affects the efficiency of recovery but also directly relates to the cost of recycling and environmental impact. Efficient preliminary processing can significantly improve the recovery rate of iridium metal, while reducing energy consumption and waste emissions.文章源自平泽贵金属回收公司 www.51gjs.comPINGZE Precious Metals Recycling-https://en.51gjs.com/47108.html
Taking electronic products as an example, the initial processing flow for recycling iridium includes: first, crushing the obsolete electronic products to facilitate the separation of metal and non-metal parts. Then, magnetic separation is used to remove iron and other magnetic metals, followed by further purification using gravity separation techniques.文章源自平泽贵金属回收公司 www.51gjs.comPINGZE Precious Metals Recycling-https://en.51gjs.com/47108.html 文章源自平泽贵金属回收公司 www.51gjs.comPINGZE Precious Metals Recycling-https://en.51gjs.com/47108.html