Noun
/ɔːl-slaɪm saɪənaɪˈdeɪʃən/
All-slime cyanidation is a metallurgical process used primarily in the extraction of gold and silver from ores by treating the crushed ore with a cyanide solution. The process is characterized by the fact that all of the material, including the slime (fine particles), is subjected to the cyanide treatment.
This term is more commonly found in technical and specialized texts on mining and metallurgy, making it more prevalent in written contexts than in oral speech.
The term is used primarily in industrial and academic circles related to mining, hence its frequency of use is limited to these fields.
Метод всевключающего цианирования увеличивает извлечение золота из руд с мелкими частицами.
Engineers are exploring new ways to improve the efficiency of all-slime cyanidation in gold processing plants.
Инженеры исследуют новые способы повышения эффективности всевключающего цианирования на золотообрабатывающих заводах.
The environmental impact of all-slime cyanidation has led to the development of more sustainable mining practices.
While "all-slime cyanidation" itself is a technical term and is not frequently included in idiomatic expressions, related phrases within the mining industry may be derived from processes involving cyanide leaching. Here are a few sentences illustrating related idioms:
Горнодобывающие компании должны добыть золото с помощью эффективных методов, таких как всевключающее цианирование.
In achieving high recovery rates, always remember that time is gold when dealing with all-slime cyanidation technology.
The term cyanidation is derived from "cyanide," which traces back to the Greek word "kyanos," meaning "dark blue" or "blue dye." The prefix "all-slime" refers to the comprehensive treatment of ore, indicating that all particle sizes, including slimes, are processed together.
In summary, all-slime cyanidation represents a crucial process in the mining industry context, specifically for effective gold and silver extraction, and while its usage is mainly technical, it holds significant value in discussions about resource recovery and environmental impacts.