From ore to cathodes

The process of turning copper ore into cathodes involves several key steps.

First, copper ore is mined, then crushed and ground into a fine powder. This powdered ore is mixed with water and chemicals, a process called flotation, which separates valuable copper minerals from waste materials.

The resulting concentrate, rich in copper, undergoes smelting, where it is heated to extract pure copper.


Glencore-Copper-Anodes-at-Lomas-Bayas-Chile-scaled

This pure copper is then converted into anodes and refined through electrorefining. In this step, anodes are placed in an electrolytic cell with a copper sulfate solution. Electricity is applied, causing copper ions to migrate from the anodes to the cathodes, where they plate onto pure copper cathodes.

↓ See timeline further down ↓

Kobalt_Kongo-1-1536x864-1-1024x576
Cobalt Hydroxide

30% cobalt hydroxide

Cobalt hydroxide, a byproduct of copper mining, plays a crucial role in various industries, particularly in the booming EV market. While its significance is undeniable, ethical and environmental considerations emphasize the need for responsible mining and supply chain practices.

Cobalt hydroxide, particularly the 30% cobalt variant, is not just a byproduct of copper mining; it’s a vital component driving innovation and sustainability across various industries. By investing in this product, you are not only gaining access to its versatile applications but also playing a part in shaping a cleaner, more advanced, and ethical future.

Production Timeline

Want a deal? Click to contact now.

A small river named Duden flows by their place and supplies it with the necessary regelialia.
It is a paradisematic country, in which