Anodization: Difference between revisions

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(Created page with "<html><div class="mw-content-ltr" dir="ltr" id="mw-content-text" lang="en"><div class="floatright"><a class="image" href="/index.php?title=File:Anodize-1.jpg"><img alt="Anodize-1.jpg" height="218" src="/images/8/82/Anodize-1.jpg" width="300"/></a></div> <p><b>Anodizing</b> is a chemical process akin to rusting, in that it works through electrically building up an oxide layer on a metal. When light hits the metal, part of the light bounces off the outside of this layer, a...")
 
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<p><b>Anodizing</b> is a chemical process akin to rusting, in that it works through electrically building up an oxide layer on a metal. When light hits the metal, part of the light bounces off the outside of this layer, and part bounces off of the inside. Depending on the thickness of the oxide layer, different wavelengths of light are "cancelled out" and the metal appears to be a different color.
'''Anodizing''' is a chemical process akin to rusting, in that it works through electrically building up an oxide layer on a metal. When light hits the metal, part of the light bounces off the outside of this layer, and part bounces off of the inside. Depending on the thickness of the oxide layer, different wavelengths of light are "cancelled out" and the metal appears to be a different color.
</p><p>Many metals can be colored through the process of anodization, but <a href="/index.php?title=Niobium" title="Niobium">niobium</a> and <a href="/index.php?title=Titanium" title="Titanium">titanium</a> are the only two commonly anodized metals that are used in the body modification industry. The range of colors available is dictated by the different thicknesses of oxide layer that can be built up, and not all colors are available.
</p><p>It should be noted that <i>black</i> niobium or titanium is actually achieved through a thick <a class="new" href="/index.php?title=Firescale&amp;action=edit&amp;redlink=1" title="Firescale (page does not exist)">firescaled</a> oxide and not through the process described above. It should also be noted that "anodized aluminum" and other metals may not actually be anodized as described here, but may instead be "glazed" with a coloring agent.
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Many metals can be colored through the process of anodization, but [[Niobium|niobium]] and [[Titanium|titanium]] are the only two commonly anodized metals that are used in the body modification industry. The range of colors available is dictated by the different thicknesses of oxide layer that can be built up, and not all colors are available.


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It should be noted that ''black'' niobium or titanium is actually achieved through a thick [[Firescale|firescaled]] oxide and not through the process described above. It should also be noted that "anodized aluminum" and other metals may not actually be anodized as described here, but may instead be "glazed" with a coloring agent.

Latest revision as of 23:39, 16 September 2023

Anodize-1.jpg

Anodizing is a chemical process akin to rusting, in that it works through electrically building up an oxide layer on a metal. When light hits the metal, part of the light bounces off the outside of this layer, and part bounces off of the inside. Depending on the thickness of the oxide layer, different wavelengths of light are "cancelled out" and the metal appears to be a different color.

Many metals can be colored through the process of anodization, but niobium and titanium are the only two commonly anodized metals that are used in the body modification industry. The range of colors available is dictated by the different thicknesses of oxide layer that can be built up, and not all colors are available.

It should be noted that black niobium or titanium is actually achieved through a thick firescaled oxide and not through the process described above. It should also be noted that "anodized aluminum" and other metals may not actually be anodized as described here, but may instead be "glazed" with a coloring agent.