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Difference between revisions of "Steel"

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m (→‎Recipe: recipes have ingredients at the start for a reason. Removed (some) multiple identical links. Also moved Editors' note to top)
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==Recipe==
 
==Recipe==
Steel production is fairly complex compared to the creation of other [[alloy]]s. ''Important note'': in steelmaking, [[coke]] or [[charcoal]] is also used as an ingredient, apart from its use as [[fuel]]. A conventional (non-magma) smelter will require an additional unit of fuel in each reaction.
+
<!-- EDITORS: If you think these calculations are incorrect, please explain on the Talk page. Also see "100% Recipe" in notes at bottom. -->
  
The first step is '''to create [[pig iron]]''':
+
Steel production is fairly complex compared to the creation of other [[alloy]]s, which only involves one step to combine bars of different pure [[metal]]s to create the final product. Steelmaking from iron bars* has 2 steps, and both steps require coke or charcoal ''as part of the actual reaction'', combining that "[[fuel]]" with the other ingredients. This is required ''in addition'' to any heating source, if using a non-magma smelter (full details below).
  
:*1 bar of [[iron]]
+
: ''(* If starting from iron ''[[ore]]'', you will first need to create iron bars. Steel (or Pig Iron) cannot be created directly from ore. 1 ore creates 4 bars, but the recipe only requires 2 at a time.)''
:*1 [[flux]] stone
 
:*1 unit of [[fuel]] (as a source of carbon)
 
:*1 unit of fuel, or magma (to heat the forge)
 
:'''Produces''':
 
:*1 bar of pig iron
 
  
 +
'''Recipe:'''<br>
 +
Necessary ingredients; produces '''2 bars of steel''':
 +
:* 2 bars [[iron]]<sup>1</sup>
 +
:* 2 units [[flux]]<sup>2</sup>
 +
:* 4 units of [[fuel]] (or only 2 if magma powered)<sup>3</sup>
 +
 +
: Notes:
 +
:: 1) If '''non'''-[[magma smelter]]: Smelting iron [[ore]] to create iron bars also requires +1 unit of fuel at a conventional [[smelter]], producing a total of 4 bars of iron, twice what the recipe uses. This translates to also needing "half a unit" of additional fuel to the ingredients above for each recipe. Since you cannot use "half a unit", you will need a full unit up front, producing 4 iron bars to start, but add that in to any larger, long-term calculations for ore -> steel.
 +
:: 2) [[Calcite]], [[Chalk]], [[Dolomite]], [[Limestone]], and/or [[Marble]]
 +
:: 3) If '''non'''-[[magma smelter]]: For larger production runs, you may also have to create more fuel. This means either burning wood at a [[wood furnace]], or using 1 fuel to turn [[bituminous coal]] into +8 fuel or [[lignite]] into +4 fuel. Add this to any larger, long-term calculations for steel production. (Read: Don't get caught short, and don't consume your very last fuel without a way of producing more!)
 
[[Image:SteelSword.png|thumb|right|200px|''A [[steel]] [[short sword]].'']]
 
[[Image:SteelSword.png|thumb|right|200px|''A [[steel]] [[short sword]].'']]
 +
'''Step 1:''' Use one iron bar to '''create [[pig iron]]''':
  
The second step combines the pig iron with plain iron '''to produce steel''':
+
:* 1 bar of [[iron]]
 +
:* 1 [[flux]] stone
 +
:* 1 unit of [[fuel]] (as a source of carbon)
 +
:* 1 unit of fuel, or magma (to heat the forge)
 +
: '''Produces''':
 +
:* 1 bar of pig iron
  
:*1 bar of iron
+
'''Step 2:''' Combine the pig iron bar with the second iron bar to '''produce steel''':
:*1 bar of pig iron
 
:*1 [[flux]] stone
 
:*1 unit of fuel (as a source of carbon)
 
:*1 unit of fuel, or magma (to heat the forge)
 
:'''Produces''':
 
:*2 bars of steel
 
  
The overall reaction consumes 2 bars of iron, 2 units of flux, and 2 units of fuel as ingredients (plus an extra 2 fuel at a conventional smelter for heating). This produces 2 bars of steel.
+
:* 1 bar of iron
 +
:* 1 bar of pig iron
 +
:* 1 [[flux]] stone
 +
:* 1 unit of fuel (as a source of carbon)
 +
:* 1 unit of fuel, or magma (to heat the forge)
 +
: '''Produces''':
 +
:: '''2 bars of steel'''
  
Remember that smelting [[iron]] [[ore]] also requires 1 unit of fuel at a conventional smelter, producing 4 bars of [[iron]], which translates to half a unit of additional fuel used in the recipe above (although you will need a full unit up front.)
+
To go from raw materials to finished products (assuming 1 bar per crafted item) at a conventional forge, a total of...
 
+
* 8 iron bearing ore (= 32 iron bars)
<!-- NOTE: If you think these calculations are incorrect, please explain on the talk page -->
+
* 32 flux stone
To go from raw materials to finished products (assuming 1 bar per crafted item) at a conventional forge, a ratio of 8 iron bearing ore: 32 flux stone: 13 bituminous coal (or 26 lignite or 104 logs) will have no leftover raw material and will yield 32 single-bar steel items.  This is assuming, of course, that your dwarves can time travel and use the last remaining piece of coke to fire the first bituminous coal (or lignite).
+
* 13 bituminous coal (or 26 lignite or 104 logs)  
 +
... will have no leftover raw material and will yield '''32''' single-bar steel items.  This is assuming, of course, that your dwarves can time travel and use the last remaining piece of coke to fire the [[furnace]] to create the first [[fuel]] to get things rolling.
  
 
[[File:SteelChart.png|center|485px]]
 
[[File:SteelChart.png|center|485px]]
 
 
  
 
<!--
 
<!--
 
==100% Reaction Recipes==
 
==100% Reaction Recipes==
 
  
 
''' Recipe: Magma + catalyst '''
 
''' Recipe: Magma + catalyst '''

Revision as of 18:34, 18 March 2020

Steel
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Uses
Graphic

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Recipe
Properties
Fire-safe Magma-safe

Wikipedia article

This article is about the current version of DF.
Note that some content may still need to be updated.

Steel is an alloy of iron and carbon (refined coal), made at a smelter. It is the best common metal for smithing most weapons and armor. Steel also has the third highest value of all metals, tied with that of gold.

Steel can be created at a smelter by a dwarf with the furnace operator labor activated.

Sedimentary layers

To smelt steel, you will need iron bars, flux stone, and fuel. Flux is used to remove impurities, including carbon, during the smelting process, while fuel (charcoal or coke) removes oxygen and puts back in a small amount of carbon. The end result is steel: iron with just the right amount of carbon in it. The three ores of iron (hematite, magnetite, and limonite) can only be found in sedimentary layers, with the exception of hematite, which can occasionally be found in igneous extrusive layers. Furthermore, four of the five flux stones (calcite, chalk, dolomite, and limestone) are found only in sedimentary layers, as well as both coal ores (bituminous coal and lignite).

If you have no sedimentary layers at your fortress site, your only hope to make steel is with:

If you embark in a forest biome, you can produce thousands of units of wood from the surface trees alone, without even tapping into the caverns. Charcoal requires more labor per unit than coke, but is often easier to acquire.

Note that bituminous coal and lignite, like most stones, costs only 3☼ at embark or from caravans. With a cunning enough starting build, it is possible to embark with enough coal boulders to produce several hundred units of coke. This is only possible if your parent civilization has access to coal; otherwise, it will not be available at all.

Recipe

Steel production is fairly complex compared to the creation of other alloys, which only involves one step to combine bars of different pure metals to create the final product. Steelmaking from iron bars* has 2 steps, and both steps require coke or charcoal as part of the actual reaction, combining that "fuel" with the other ingredients. This is required in addition to any heating source, if using a non-magma smelter (full details below).

(* If starting from iron ore, you will first need to create iron bars. Steel (or Pig Iron) cannot be created directly from ore. 1 ore creates 4 bars, but the recipe only requires 2 at a time.)

Recipe:
Necessary ingredients; produces 2 bars of steel:

  • 2 bars iron1
  • 2 units flux2
  • 4 units of fuel (or only 2 if magma powered)3
Notes:
1) If non-magma smelter: Smelting iron ore to create iron bars also requires +1 unit of fuel at a conventional smelter, producing a total of 4 bars of iron, twice what the recipe uses. This translates to also needing "half a unit" of additional fuel to the ingredients above for each recipe. Since you cannot use "half a unit", you will need a full unit up front, producing 4 iron bars to start, but add that in to any larger, long-term calculations for ore -> steel.
2) Calcite, Chalk, Dolomite, Limestone, and/or Marble
3) If non-magma smelter: For larger production runs, you may also have to create more fuel. This means either burning wood at a wood furnace, or using 1 fuel to turn bituminous coal into +8 fuel or lignite into +4 fuel. Add this to any larger, long-term calculations for steel production. (Read: Don't get caught short, and don't consume your very last fuel without a way of producing more!)

Step 1: Use one iron bar to create pig iron:

  • 1 bar of iron
  • 1 flux stone
  • 1 unit of fuel (as a source of carbon)
  • 1 unit of fuel, or magma (to heat the forge)
Produces:
  • 1 bar of pig iron

Step 2: Combine the pig iron bar with the second iron bar to produce steel:

  • 1 bar of iron
  • 1 bar of pig iron
  • 1 flux stone
  • 1 unit of fuel (as a source of carbon)
  • 1 unit of fuel, or magma (to heat the forge)
Produces:
2 bars of steel

To go from raw materials to finished products (assuming 1 bar per crafted item) at a conventional forge, a total of...

  • 8 iron bearing ore (= 32 iron bars)
  • 32 flux stone
  • 13 bituminous coal (or 26 lignite or 104 logs)

... will have no leftover raw material and will yield 32 single-bar steel items. This is assuming, of course, that your dwarves can time travel and use the last remaining piece of coke to fire the furnace to create the first fuel to get things rolling.

SteelChart.png


Automated steel production

You can fully automate the production of steel via the use of a work order. The arrangement of these orders would be:

  • Make 9 coke from bituminous coal (or 18 lignite or make 72 charcoal), then add the condition to restart if completed, checked daily.
  • Smelt 8 magnetite (or hematite) ore, then add the condition to restart if completed, checked daily. then set the order condition to "Make 9 coke from bituminous coal"
  • Make 16 pig iron bars, then add the condition to restart if completed, checked daily. then set the order condition to "Smelt 8 magnetite ores"
  • Make 16 steel bars, then add the condition to restart if completed, checked daily. then set the order condition to "Make 16 pig iron bars"
  • Wait until the "Smelt 8 magnetite" order activates (once the coke or charcoal is done) to set it'sorder to "Make 16 steel bars"

This automated process would produce 32 steel bars every 4 days (assuming you have a constant flow of ore, coke-producing stone, Flux stone and labourers). You can also make multiple work order sets to increase production as much as necessary.

"Steel" in other Languages Books-aj.svg aj ashton 01.svg
Dwarven: deler
Elven: inire
Goblin: zodsto
Human: kadest
Base
AluminumBismuthCopperGoldIronLeadNickelPlatinumSilverTinZinc
Alloys
Special