Copper

Copper is one of the first metal used by human kind, and it has given vital contributions to improve society. Copper is easily stretched, moulded, and shaped. It resists to corrosion and conducts heat and electricity efficiently. Today it continues to be a diffuse material in many fields.


Native copper.

image source: http://www.wikiwand.com/en/Copper


 

What is copper?

In its pure form, Copper has a face-centred cubic crystal structure. It is ductile and possesses a high level of electrical and thermal conductivity. With cold-working, copper becomes harder, but it can become soft again with the process known as “annealing”. Nowadays, copper is still found in its native form, unaltered, but more frequently mixed with other minerals.

Although copper deposits are present in every continent, 70 per cent of world reserves are found in seven countries: Chile, the United States, Russia, Congo (Kinshasa), Peru, Zambia, and Mexico. The greatest known reserve of copper is the deposit at El Teniente mine in Chile.

 

El Teniente mine, in Chile.
El Teniente mine, in Chile.

image source: http://www.mining-technology.com/projects/el-teniente-new-mine-level-project/


When and where copper was  discovered ? 

Copper was discovered for the first time during the Neolithic Period, or New Stone Age probably about 8000 BCE. This material was chosen by primitive men to make knives and other utensils leaving the stone age behind. The malleability of this mineral made it relatively easy to shape just by beating it. Its bright reddish colour and its durability made it highly appreciated.

After 6000 BCE, it was discovered that copper could be melted and shaped as desired. It was the dawn of the metallic age and the birth of metallurgy.
The early development of copper probably was in Egypt. In fact, copper weapons and implements were left in pharaohs graves as a support for the dead.
The oldest known piece of this material is a bronze rod found in the pyramid at Maydūm (Medum), near Memphis in Egypt, about 3700 BCE.
Bronze, an alloy of copper and tin, was widely employed to mould weapons and art objects. From Egypt, the use of bronze rapidly spread over the Mediterranean area: to Crete, Sicily, France and other parts of Europe in 2000 BCE, Britain and the Scandinavian area in 1800 BCE.

Bronze water spouts in the form of lion masks, at Cyprus.
Bronze water spouts in the form of lion masks, at Cyprus.

image source: http://www.metmuseum.org/toah/hd/cyco/hd_cyco.htm


What are its characteristics?

  • Strengths: Copper is a weak metal with a tensile strength about half that of mild carbon steel. Which is why copper is easily formed by hand but is not a good option for structural applications.
  • Toughness: Copper may not be very strong but it is not easy to break due to its high toughness. So this property is useful for piping and tube applications.
  • Ductility: Copper is very ductile and also very malleable. For this reason, the electrical and jewellery industries benefit from his ductility.
  • Conductivity: Second only to silver, copper is an excellent conductor of electricity, but also heat. As a result, copper is used in applications such as cookware, where it quickly moves heat to the food inside.

-Common alloys

      • Bronze: 88-95% Cu by weight. Used in coins, cymbals and artwork.
      • Aluminium bronze: 74-95% Cu by weight. Higher corrosion resistance and useful in marine applications.
      • Brass: a wide range of alloys containing 50-90% Cu by weight. Made into everything from ammunition cartridges to doorknobs.
      • Cupronickel: 55-90% Cu by weight. Used in coins, marine applications and musical instrument strings.
      • Nickel silver: 60% Cu by weight. Contains no silver, but has a similar appearance. Often made into musical instruments and jewellery.
French horn made in brass.
French horn made in brass.

image source: http://www.educationscotland.gov.uk/nqmusic/national3/concepts/brass.asp


How is it used today?

  • Wire and cable: Copper is the most adopted electrical conductor in all categories of electrical wiring. The only exception is in the transmission of electricity where aluminium is often preferred. Many electrical devices rely on copper wiring. It has multiple inherent useful properties, like its high electrical conductivity, tensile strength, ductility, corrosion resistance, low thermal expansion.
  • Electric motors: Copper’s conductivity improves the efficiency of electrical motors. In fact, motors and motor-driven systems represent 43%–46% of all global electricity consumption and 69% of all electricity used by industry.
  • Architecture: It is used as a durable, corrosion resistant, and weatherproof architectural material. Which is why roofs, flashings, rain gutters, downspouts, domes, spires, vaults, and doors have been made from copper for hundreds and thousands years. Copper’s architectural use has been expanded in modern times to include interior and exterior wall cladding or antimicrobial and decorative indoor products such as attractive handrails, bathroom fixtures. Some of copper’s other important usage are as lightning protection and recyclability material.

Finally, Copper has excellent brazing and soldering properties. The best results are obtained with gas metal arc welding.

Statue of Liberty has 80 metric tons of copper sheeting.[56] New York City, U.S
Statue of Liberty has 80 metric tons of copper sheeting.[56] New York City, U.S

image source: http://www.wikiwand.com/en/Copper_in_architecture

info sources: https://www.britannica.com/technology/copper-processing

https://www.thebalance.com/what-is-copper-2340037

https://www.thebalance.com/metal-profile-copper-2340132