Cobalt Uses: Batteries and More

cobalt-uses:-batteries-and-more

batteries

Cobalt is currently best known as an important ingredient in lithium-ion batteries, but there are plenty of other cobalt uses to know.

Cobalt, whose name is derived from a German word meaning “evil spirits,” has been valued by humans since the Egyptians used it as a coloring agent.

Today, the metal is considered one of the world’s essential elements. With its high melting point and ability to maintain strength even at raised temperatures, it is useful in cutting tools, superalloys, surface coatings, high-speed steels and many other materials.

Below is an overview of those and other cobalt uses. While this critical metal is currently best known as a raw material in lithium-ion batteries, it has plenty of other applications investors should know about.

Cobalt uses: Rechargeable batteries

One of cobalt’s main applications right now is in rechargeable batteries of all kinds. It is crucial in the manufacturing of these batteries because it helps them overcome numerous issues.

For example, early iterations of nickel-metal hydride batteries had issues such as a poor lifecycle, internal cell pressure and corrosion. Engineers found that adding cobalt solved many of these problems.

Similarly, the first versions of lithium-ion batteries were found to be too reactive, resulting in battery fires. These batteries have been stabilized and now contain up to 60 percent cobalt per cell.

Demand for rechargeable batteries has risen sharply in the last couple of decades. Case in point: in the mid-1990s, only 1 percent of cobalt was used in electronics, but now the Cobalt Institute states that 50 percent of the cobalt produced globally is found in rechargeable batteries.

This number is expected to continue to rise due to increased demand for smartphones, electric cars and other electronics that require rechargeable batteries.

Electric cars in particular have become a huge source of cobalt demand in recent years. They are powered by lithium-ion batteries, and as noted, cobalt is one of the key raw materials in these batteries.

This increasing need for cobalt drove prices up substantially in 2017 and early 2018, and there have been efforts to find a substitute for the material in lithium-ion batteries. Some battery makers are now looking at ways to use more nickel and less cobalt in lithium-ion batteries.

For instance, Asian battery manufacturers are aiming to change the ratio of their cathode materials from 60 percent nickel, 20 percent cobalt and 20 percent manganese to 80 percent nickel, 10 percent cobalt and 10 percent manganese.

As yet, it is not possible to totally replace cobalt, but some battery makers are trying to do so due to the stigma of human rights violations associated with its mining, particularly in the cobalt mines of the Democratic Republic of Congo. Cobalt production in the African country is about 60 percent of the world’s total cobalt supply, with most cobalt mined as by-product of copper.

If progress is made in substitution, it’s possible battery technologies could change to include less cobalt, and as a result have higher energy density.

Cobalt uses: Superalloys and beyond

Bolstering demand are the many other cobalt uses aside from batteries. As noted, cobalt’s ability to stand up to high temperatures and its good oxidation resistance make it an important alloying element for superalloys, which are used for casting airfoils and other structural parts of jet turbine engines.

Cobalt alloys also have a fairly high tolerance for thermal fatigue and can be repaired easily. Most high-bypass turbofan jet engines contain between 110 and 132 pounds of cobalt. The metal is also magnetic, and can be used to produce permanent magnets.

Another cobalt use is as an essential element in the metabolism of humans and animals — those who cannot retain cobalt naturally have to be treated with B12 vitamin therapy, which contains cobalt. Cobalt-60 is also used for cancer treatment via radiotherapy, and cobalt is applied in soil dressings in cobalt-deficient soil to prevent “wasting disease” in grazing animals.

This is an updated version of an article originally published by the Investing News Network in June 2013.

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Securities Disclosure: I, Melissa Pistilli, hold no direct investment interest in any company mentioned in this article.

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