Precious Metals Recovery is a technique of refining metals such as gold and silver that is often used to recover or enhance the product made from these metals. It is also used in many chemical reactions that change the properties of the metals, such as the breaking down of a molecule to form another one, thus creating new compounds. There are many different ways in which the precious metals can be recovered, including through melting, solidifying, combining with other elements, and even through physical removal via ionization.Learn more about this at Gannon & Scott, Inc.-Precious Metals Recovery
A precious metals recovery process works by breaking apart a heavy metal catalyst by subjecting it to an extremely high electricity voltage, such as the kind used to electrolysis, which forces the catalyst particles to separate. Because the catalyst is forced to move, the energy produced is enormous, enough to break apart even the most durable of metals. The pieces of metal that are separated from the other by the electricity flow are known as spent catalysts, and they are separated out into different categories depending on the method of their separation used. The different metals may be broken down further by further heating and cooling, resulting in even further classification of metal pieces. As each metal catalyst is separated out, the process becomes more refined, leading to a wider range of possibilities in the reformed metal.
Precious metal refining is an important part of recycling because it makes possible the reuse of otherwise unusable materials and reduces the amount of garbage that ends up in landfills. There are many advantages to using this method of recycling, especially in terms of energy efficiency and cost savings. There are some disadvantages to refining, such as the fact that precious metals recover slowly. In order to be refined, precious metals need to undergo very high temperatures and pressure that can sometimes damage the stability of the crystals. Some precious metals can also suffer from wear and tear after undergoing the process, although this is very rare and unlikely to occur.