Metals

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Revision as of 16:34, 14 September 2020 by Hawk777 (talk | contribs) (→‎Melting & Casting: Containers do not have to be empty to receive liquid metal from a firepit or forge)
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TFC has 22 metals, of which 10 are Alloys. They are split into tiers, 1 to 6, each of which is an advancement in the technology tree bringing improvements such as durability and strength. Metals can be processed in 3 unique ways.

Metals

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Metal Ingots can be welded on Anvils one Tier lower than the Ingot. This allows for the player to weld Ingots into Double Ingots to create the next Tier of Anvil. All other smithing and welding must be done on an Anvil of equal or higher Tier.

Metal Name Anvil Tool Castable Armor Tuyere Tier Alloy
Ingot Bismuth.png Bismuth X X X X 0 X
Ingot Tin.png Tin X X X X 0 X
Ingot Zinc.png Zinc X X X X 0 X
Ingot Copper.png Copper 1 X
Ingot Bronze.png Bronze 2
Ingot Bismuth Bronze.png Bismuth Bronze 2
Ingot Black Bronze.png Black Bronze 2
Ingot Brass.png Brass X X X X 2
Ingot Lead.png Lead X X X X 2 X
Ingot Gold.png Gold X X X X 2 X
Ingot Rose Gold.png Rose Gold X X X X 2
Ingot Silver.png Silver X X X X 2 X
Ingot Sterling Silver.png Sterling Silver X X X X 2
Ingot Platinum.png Platinum X X X X X 3 X
Ingot Wrought Iron.png Wrought Iron X 3 X
Ingot Nickel.png Nickel X X X X X 4 X
Ingot Pig Iron.png Pig Iron X X X X X 4 X
Ingot Steel.png Steel X 4 X
Ingot Black Steel.png Black Steel X 5
Ingot Blue Steel.png Blue Steel X 6
Ingot Red Steel.png Red Steel X 6
Ingot Unknown Metal.png Unknown Metal X X X X X -1
  • ¹For compatibility reasons, double ingots, sheets and double sheets can be made from any metal. However, not every item has a valid use. This chart shows items which have a valid use in vanilla TFC. If you make a useless item, it can be recycled back into molten metal in a Crucible, or in a Forge that has ceramic molds in the side slots.
  • ²Unknown Metal is created by mixing an incorrect ratio of metals in a Crucible.

Metal Processing

Metal Processing is carried out by 3 distinct methods: Melting & Casting, the Bloomery and the Blast Furnace. Melting & Casting are for processing the non-iron metals ores and for alloying, whereas the Bloomery is for Wrought Iron production, and the Blast Furnace is for production of Steel.

Melting & Casting

Melting and casting will be your first endeavor into working with metals. Melting can be applied to raw ores, existing metal objects (e.g. ingots or unwanted tools, armor, or anvils), or solidified liquid metal. Melting iron ores is not useful as they melt into unknown metal; melting any other type of ore, or any type of metal object (including iron), results in the expected metal. Melting is achieved by any of the following methods:

  • Heat ore or metal objects in a firepit without a grill, or a forge. Place an empty small vessel or mold, or one containing some unshaped metal of the same type as the objects being melted, in the output slot of the firepit or the storage slot of the forge. Once the item reaches the metal’s melting temperature, it will become liquid and appear in the container. Since the container is not being heated and the metal has just barely reached melting point, the metal will immediately solidify in the container and begin cooling. This method cannot be used in a pit kiln because the liquid metal will soak into the ground and disappear; there is no way to catch it in a container and use it. This method cannot be used for creating alloys because the liquid will only flow into a container holding the same type of metal (e.g. copper will not flow into a container holding tin, so bronze cannot be made); however, metal objects already made of an alloy can be melted back into that alloy’s unshaped form.
  • Heat a small vessel or mold containing solidified metal in a firepit without a grill, forge, pit kiln, or crucible. Once the container reaches the metal’s melting point, the metal will melt back into liquid form in the container. In the case of a crucible, the liquid metal will then slowly pour from the container into the crucible. This method can be used for alloying with a crucible (but not a firepit, forge, or pit kiln) by combining different types of metal in the crucible.
  • Heat a small vessel containing ore in a forge, pit kiln, or crucible. Once the container reaches the Brilliant White temperature, the ore will turn into liquid metal in the vessel. In the case of a crucible, the liquid metal will then slowly pour from the container into the crucible. This method can be used for alloying by placing ores of different types in the vessel in the proper proportions before heating it.
  • Heat ore or metal objects in a crucible. Place the items in the left inventory grid. Once the items reach the metal’s melting point, they will melt and the liquid will be added to the crucible’s contents. This method can be used for alloying by combining different types of metal in the crucible.

In all cases, metals will not melt if they are not hot enough. This limits the types of metals that can be melted and may require the use of a bellows to increase temperature. For example, melting copper over a firepit only works with the use of bellows, while ores in vessels cannot be melted on a firepit at all because a firepit cannot be heated to Brilliant White, even with bellows. Even the much hotter forge or crucible will require bellows to melt some higher-tier metals. A pit kiln always gets hot enough to melt any metal in any form, and is a good starting point for early-game metalwork.

Once you have liquid metal, you can pour it between containers of various types until it cools and solidifies. Alloys can be made at this point by mixing liquid metals in a crucible; however, alloys cannot be made by mixing liquids in other containers, as containers other than the crucible only accept liquid metal if they are empty or already contain the same type of metal. Ingots of any metal can be made by filling an ingot mold with liquid metal and letting it cool. Tools can be made by filling tool molds, but only with copper or bronze (higher-tier tools need to be worked on an anvil rather than cast, and such metals cannot be poured into tool molds).

Bloomery

The Bloomery is where you will make an Iron Bloom that is then turned into Wrought Iron. This is the only way of getting Wrought Iron as melting Iron will give you nothing.

Blast Furnace

A Blast Furnace is your gateway to Steel and all the Steel Alloys. Smelting Iron Ore in a blast furnace will give you Pig Iron that is then worked into steel.

Temperatures

Each metal has 4 specific temperature ranges that indicate the work you can do with it: Unworkable, Workable, Weldable and Liquid. Metal must be in either the Workable or Weldable range to be worked, but can only be welded in the Weldable range.

  • Working temperature is found by doing Melting Temp * 0.6
  • Welding temperature is found by doing Melting Temp * 0.8
Item Warming Hot Very Hot Faint Red Dark Red Bright Red Orange Yellow Yellow White White Brilliant White
. . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. :: . . : :. ::
Ingot Bismuth.png Bismuth 162° 216° 270° 3000°
Ingot Tin.png Tin 138° 184° 230° 3000°
Ingot Zinc.png Zinc 252° 336° 420° 3000°
Ingot Copper.png Copper 648° 864° 1080° 3000°
Ingot Bismuth Bronze.png Bismuth Bronze 591° 648° 985° 3000°
Ingot Black Bronze.png Black Bronze 642° 856° 1070° 3000°
Ingot Brass.png Brass 558° 744° 930° 3000°
Ingot Bronze.png Bronze 570° 760° 950° 3000°
Ingot Lead.png Lead 196.8° 262.4° 328° 3000°
Ingot Gold.png Gold 636° 848° 1060° 3000°
Ingot Rose Gold.png Rose Gold 576° 768° 960° 3000°
Ingot Silver.png Silver 576.6° 768.8° 961° 3000°
Ingot Sterling Silver.png Sterling Silver 540° 720° 900° 3000°
Ingot Pig Iron.png Pig Iron 921° 1228° 1535° 3000°
Ingot Platinum.png Platinum 1038° 1384° 1730° 3000°
Ingot Wrought Iron.png Wrought Iron 921° 1228° 1535° 3000°
Ingot Nickel.png Nickel 871.8° 1162.4° 1453° 3000°
Ingot Steel.png Steel 924° 1232° 1540° 3000°
Ingot Black Steel.png Black Steel 891° 1188° 1485° 3000°
Ingot Blue Steel.png Blue Steel 924° 1232° 1540° 3000°
Ingot Red Steel.png Red Steel 924° 1232° 1540° 3000°