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Bar

From Dwarf Fortress Wiki
Revision as of 23:55, 13 August 2023 by Zippy (talk | contribs) (→‎Alloys)
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This article is about the current version of DF.
Note that some content may still need to be updated.

For built horizontal and vertical bars, see Bars.
For designated tavern locations, see Tavern.
Metal bars preview.png

A bar (also known as an "ingot") is a sub-type of building material (interchangeable with a block for that purpose), and is the base individual unit of metal, charcoal, coke, potash, ash, pearlash, and soap. All metals are created as bars at a smelter, whether processed from ores, alloyed with other metals, or melted down from existing metal items.

With the exception of non-fire-safe materials, all bars are as durable as others - a wall made from bars of ash, charcoal or soap will last as long as one made from bars of steel. Bars are a storage unit and not an end product in and of themselves, being used for various other tasks:

Bar Used for
ash making lye or potash
charcoal
or coke
powering standard forges, smelters, kilns, and glass furnaces,
and making pig iron and steel
metal smithing
pearlash making clear or crystal glass
potash fertilizing farms or making pearlash
soap health care and cleaning self

All bars are 600 cm3 in size, which means up to 10 will fit into a 6000-capacity bin. The only exception to this 600 cm3 size are possibly partially-used soap bars. In the real world, a 400-tr.oz. bar of gold is approximately the same size, at 645 cm3.

All types of bars can also be used to build workshops, roads, bridges, and other constructions. Different bars require different labors in their construction: smithing is used for metal bars and masonry for all others (including bars of soap).

"Bars" of adamantine metal are referred to as "wafers", but when used as building material they function the same as any other bars.

Pure metals

Metal
Name
Graphic Source(s) Density (g/cm3) Melting point Material
value
Value
difference
Notes
(ASCII) (Image)
Aluminum Aluminum bar sprite.png Native aluminum 2.70 11188 °U 40 +0
Bismuth Bismuth bar sprite.png Bismuthinite 8.93 10488 °U 2 +1 Only useful for alloying into bismuth bronze.
Copper Bismuth bronze bar sprite.png Native copper, Malachite, Tetrahedrite 8.93 11952 °U 2 +0, +0, -1* Can be used to forge all weapons, armor, ammunition, and picks.
Gold Gold bar sprite.png Native gold 19.32 11915 °U 30 +0
Iron Iron bar sprite.png Hematite, Limonite, Magnetite 7.85 12768 °U 10 +2 Can be used to forge all weapons, armor, ammunition, picks, and anvils.
Lead Bismuth bronze bar sprite.png Galena 11.34 10589 °U 2 -3*
Nickel Nickel bar sprite.png Garnierite 8.80 12619 °U 2 +0
Platinum Platinum bar sprite.png Native platinum 21.40 13182 °U 2 +0
Silver Generic grey bar sprite.png Native silver, Horn silver, Galena (50%), Tetrahedrite (20%) 10.49 11731 °U 10 +0, +0, +5*, +7* Can be used to forge melee weapons and ammunition.
Tin Generic grey bar sprite.png Cassiterite 7.28 10417 °U 2 +0
Zinc Generic grey bar sprite.png Sphalerite 7.13 10755 °U 2 +0

Legend:

  • Tile Color corresponds to how items made from that metal are displayed in game, foreground and background colors.
  • Source indicates the specific ores that can provide a metal. If production of the metal is not guaranteed, a percent chance is indicated following the ore.
  • Density is used to determine the different weight of finished objects.
  • Material value is what the base value of an object made of this metal is multiplied by to determine its worth.
* - Values marked with an asterisk denote ores that can yield multiple metals.
  • Value difference indicates the difference in material value between the metal and the ore, separated with commas in cases where multiple ore values differ. Also keep in mind that multiple bars are produced for each ore boulder smelted, increasing the value difference even further.
* - Values marked with an asterisk denote ores that can yield multiple metals. On average, the expected difference in value from smelting tetrahedrite is +1 and galena is +2.

Alloys

Metal
Name
Graphic Reaction Density (g/cm3) Melting point Material
value
Value
difference
Notes
(ASCII) (Image)
Billion Billion bar sprite.png Silver + Copper 8.93 11188 °U 6 +0 see note 1.
Bismuth bronze Bismuth bronze bar sprite.png 1 Tin + 2 Copper + 1 Bismuth* 8.25 11868 °U 6 +4 Can be used to forge all weapons, armor, ammunition, and picks. Combat relevant stats are identical to standard Bronze.
Black bronze Bismuth bronze bar sprite.png 2 Copper + 1 Silver + 1 Gold* 8.93 11952 °U 11 +0 Unique color.
Brass Brass bar sprite.png Zinc + Copper 8.55 11656 °U 7 +5 Value difference is +4.5 if tetrahedrite is used instead of copper.
Bronze Bronze bar sprite.png Tin + Copper 8.25 11868 °U 5 +3 Value difference is +2.5 if tetrahedrite is used instead of copper. Can be used to forge all weapons, armor, ammunition, and picks.
Electrum Electrum bar sprite.png Silver + Gold 14.905 11828 °U 20 +0 See note 2.
Fine pewter Generic grey bar sprite.png 3 Tin + 1 Copper 7.28 10417 °U 5 +3 Value difference is +2.75 if tetrahedrite is used instead of copper.
Lay pewter Platinum bar sprite.png 2 Tin + 1 Copper + 1 Lead 7.28 10417 °U 5 +1 Unique color.
Nickel silver Platinum bar sprite.png 2 Nickel + 1 Copper + 1 Zinc* 8.65 11620 °U 3 +1
Pig iron Lead bar sprite.png Iron + flux stone + fuel* 7.85 12106 °U 10 +0 Only used to make steel.
Rose gold Rose gold bar sprite.png 3 Gold + 1 Copper* 19.32 11915 °U 23 +0 Unique color.
Steel Generic grey bar sprite.png Iron + Pig iron + flux stone + fuel* 7.85 12718 °U 30 +20 Can be used to forge all weapons, armor, ammunition, picks, and anvils.
Sterling silver Platinum bar sprite.png 3 Silver
+ 1 Copper*
10.49 11602 °U 8 +0
Trifle pewter Lead bar sprite.png 2 Tin + 1 Copper 7.28 10417 °U 4 +2 Value difference is +1.67 if tetrahedrite is used instead of copper.
Notes
1) Billon can be made with tetrahedrite or galena ore (instead of silver bars) for increased value: (Copper ore + Tetrahedrite: +3.5; Tetrahedrite + Tetrahedrite: +3; Copper ore + Galena: + 2.5; Tetrahedrite + Galena: + 2).
2) Electrum can be made with tetrahedrite or galena ore (instead of silver bars) for increased value: (Gold + Tetrahedrite: +3.5; Gold + Galena: +2.5).

Legend:

  • Tile Color corresponds to how items made from that metal are displayed in game, foreground and background colors.
  • Source indicates the basic recipe for an alloy - this does not include any fuel necessary to operate the smelter. See the article for that alloy or smelting for possible alternatives.
* - You can use only bars of metal in this reaction, not ores.
  • Density is used to determine the different weight of finished objects.
  • Material value is what the base value of an object made of this metal is multiplied by to determine its worth.
  • Value difference indicates the difference between the average value of the required bars of metals vs. the value of the resulting bars of alloy - what went in vs. what comes out, measured per bar. "+0" indicates that the resulting alloy is a perfectly average value of the component metals. Note that substituting tetrahedrite for copper ore always results in a value decrease, while substituting tetrahedrite or galena for silver bars always results in a value increase.

Special metals

Dwarf head pixel.png  This article or section contains minor spoilers. You may want to avoid reading it.
Metal
Name
Graphic Source(s) Density (g/cm3) Melting point Material
value
Value
difference
Notes
(ASCII) (Image)
Adamantine Adamantine bar sprite.png Raw adamantine 0.200 25000 °U 300 +50 (See below)
Divine metal Generic grey bar sprite.png None 1 none 300 (See below)

Adamantine cannot be smelted directly, and must be extracted first.

  • Can be used to forge anything except beds
  • Blades are 10× sharper than standard metals, which when combined with its very high shear fracture/yield makes it more than 100x as effective as steel for bladed weapons
  • Too light to make effective blunt weapons despite nearly unsurpassed yield and fracture values.

Divine metal has procedurally generated (i.e. semi-random) names associated with deities.

  • Blades are 1.2× sharper than standard metals
  • Low density makes it worse than all conventional metals for blunt, although it's still better than adamantine
  • Overall stats make it stronger than steel but weaker than adamantine.

See also

"Bar" in other Languages Books-aj.svg aj ashton 01.svg
Dwarven: ish
Elven: emu
Goblin: zak
Human: tod