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Why Do Metals Stick Together in Space? The Cold Welding Effect

Asr-e Iran
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핵심 요약

  • Cold welding is an important phenomenon where metals stick together in the vacuum environment of space.
  • In space, where oxidation does not occur, the atoms of metals that come into contact bond directly.
  • This situation poses a major risk for moving mechanical parts in satellites and spacecraft.

Cold welding, which occurs in space, is a little-known but highly important phenomenon that can change the fate of space missions. This condition causes metals to unexpectedly stick together in the space environment.

Cold welding occurs as a result of the protective oxide layer, normally formed by oxygen on the surfaces of metals, breaking down in the vacuum environment of space. With the removal of the external protection, the atoms of the pure metals that come into contact with each other merge as if they were a single piece of metal, sticking together irreversibly.

This event poses significant risks, especially for the mechanical parts of spacecraft and satellites. The sudden welding of moving parts can lead to equipment malfunctions and the failure of space missions.

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What is cold welding?
Cold welding is the atomic-level welding and sticking together of metals, which lack an oxide layer in the vacuum environment of space, when they come into contact with each other.
Why is this situation dangerous for space missions?
It can cause moving mechanical parts to stick and weld together, leading to the malfunction of spacecraft and the failure of the mission.
Why is there no danger of cold welding on Earth?
The oxygen present in Earth's atmosphere constantly forms an oxide layer on metal surfaces, preventing this atomic bonding and adhesion.

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