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Difference between revisions of "v0.34:Tetrahedrite"

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(Undo revision 176001 by 131.92.192.231 (talk) I just created a test fortress and successfully made billon from 2 chunks of tetrahedrite - you are WRONG)
 
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'''Tetrahedrite''' is an incredibly common ore of both [[copper]] and [[silver]]. [[Smelter|Smelting]] tetrahedrite will always produce 4 copper [[bar|bars]] and has a 20% chance of producing an additional single silver [[bar]].  
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'''Tetrahedrite''' is an incredibly common [[ore]] of both [[copper]] and [[silver]]. [[Smelter|Smelting]] tetrahedrite will produce 4 copper [[bar]]s and 0-4 silver [[bar]]s (with a 20% chance of each silver bar being produced). On average, each nugget of tetrahedrite will produce less than one bar of silver when smelted.
  
Tetrahedrite can be used in all reactions requiring a copper ore, but will only be used as ''silver'' ore if no other silver ores are available - in this situation, two tetrahedrite ores can be smelted together to make two [[billon]] bars.
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Tetrahedrite can also be used in [[alloy]] reactions requiring either a copper-bearing ore or a silver-bearing ore, but will only be used as a ''silver'' ore if no other silver ores are available. Two tetrahedrite nuggets can be smelted together as a copper-bearing ore and a silver-bearing ore to make eight [[billon]] bars for a roughly 70% increase in value compared to smelting the nuggets independently.
  
When alloying Tetrahedrite into other metals as copper, it's best to smelt it down into bars and work with them, in order to get some [[silver]] out of it, than to smelt it directly from an ore into an alloy, unless you're direly short on fuel.
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When using Tetrahedrite as a copper-bearing ore, it's often best to smelt it into bars first and then create the alloy using copper bars. This allows you to produce a few [[silver]] bars in addition to the bars of alloy, but does require additional [[fuel]], dwarf effort, and time. Note, however, that when producing [[billon]] from two tetrahedrite nuggets, the benefits of using tetrahedrite as a silver-bearing ore outweigh the drawbacks of using tetrahedrite as a copper-bearing ore.
  
 
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Latest revision as of 15:15, 3 May 2024

Tetrahedrite
£ £ £ £ £ £ £
* = = = £ £ £
* * = = = £ £
* * * * = = £
* * * * * * =
Uses

Location

Properties
Fire-safe Not magma-safe

Wikipedia article

This article is about an older version of DF.

Tetrahedrite is an incredibly common ore of both copper and silver. Smelting tetrahedrite will produce 4 copper bars and 0-4 silver bars (with a 20% chance of each silver bar being produced). On average, each nugget of tetrahedrite will produce less than one bar of silver when smelted.

Tetrahedrite can also be used in alloy reactions requiring either a copper-bearing ore or a silver-bearing ore, but will only be used as a silver ore if no other silver ores are available. Two tetrahedrite nuggets can be smelted together as a copper-bearing ore and a silver-bearing ore to make eight billon bars for a roughly 70% increase in value compared to smelting the nuggets independently.

When using Tetrahedrite as a copper-bearing ore, it's often best to smelt it into bars first and then create the alloy using copper bars. This allows you to produce a few silver bars in addition to the bars of alloy, but does require additional fuel, dwarf effort, and time. Note, however, that when producing billon from two tetrahedrite nuggets, the benefits of using tetrahedrite as a silver-bearing ore outweigh the drawbacks of using tetrahedrite as a copper-bearing ore.

Sedimentary
Igneous
Intrusive
Extrusive
Metamorphic
Ore
Economic
Other