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Difference between revisions of "v0.31:Magma-safe"

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(Undo revision 128227 by Leonidas (Talk) then you were doing something else wrong (e.g. linking them to a lever with a magma-unsafe mechanism))
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* {{l|Fortification}}s will allow the passage of {{l|magma}}, but not the assorted magma creatures. Fire snakes are vermin, so they can spawn anywhere near the magma. They are not affected by fortifications, grates, or even solid walls.  Also, there is a bug with fluids which may sometimes let magma (and water) push living things through barriers such as fortifications, bars and grates.  {{l|Pump}}s are a positive defense, but can change the dynamics of fluid {{l|pressure}}.
 
* {{l|Fortification}}s will allow the passage of {{l|magma}}, but not the assorted magma creatures. Fire snakes are vermin, so they can spawn anywhere near the magma. They are not affected by fortifications, grates, or even solid walls.  Also, there is a bug with fluids which may sometimes let magma (and water) push living things through barriers such as fortifications, bars and grates.  {{l|Pump}}s are a positive defense, but can change the dynamics of fluid {{l|pressure}}.
 
* If not submerged (that is, not opened to let magma flow over/past/around them), {{l|door}}s, {{l|floodgate}}s, and raised {{l|bridge}}s (provided that there is no magma on the space the bridge would occupy when lowered) of non-magma-safe stone or metal are safe. So long as they are just in contact with magma, only acting as a passive "wall", they are fine. If opened, they will melt.
 
* If not submerged (that is, not opened to let magma flow over/past/around them), {{l|door}}s, {{l|floodgate}}s, and raised {{l|bridge}}s (provided that there is no magma on the space the bridge would occupy when lowered) of non-magma-safe stone or metal are safe. So long as they are just in contact with magma, only acting as a passive "wall", they are fine. If opened, they will melt.
** Raised drawbridges have a notable exception, in that allowing magma to flow over the area that the bridge would normally occupy when lowered ''will'' cause the bridge's components to heat up and potentially melt.
+
** Raised drawbridges have a notable exception, in that allowing magma to flow over the center of the area that the bridge would normally occupy when lowered ''will'' cause the bridge's components to heat up and potentially melt.
 
* A {{L|pump}} made with magma-safe metal pipes and screws and with magma-safe metal blocks or magma-safe stone blocks is fully magma-safe.  A pump made with glass pipes and screws or any type of{{Verify}} metal pipes and screws, and glass blocks, any type of metal blocks, or magma-safe stone blocks is magma-safe as long as no magma ever occupies the passable tile of the pump.  Pumps made with {{L|wood}}en components will burst into flames the instant they are turned on, and pumps made with non-magma-safe stone blocks have been reported to melt after prolonged operation.
 
* A {{L|pump}} made with magma-safe metal pipes and screws and with magma-safe metal blocks or magma-safe stone blocks is fully magma-safe.  A pump made with glass pipes and screws or any type of{{Verify}} metal pipes and screws, and glass blocks, any type of metal blocks, or magma-safe stone blocks is magma-safe as long as no magma ever occupies the passable tile of the pump.  Pumps made with {{L|wood}}en components will burst into flames the instant they are turned on, and pumps made with non-magma-safe stone blocks have been reported to melt after prolonged operation.
  

Revision as of 15:50, 8 October 2010

This article is about an older version of DF.

Magma-safe materials are materials which will not melt, burn or evaporate when in close contact with Template:L. Most frequently, this comes into play when using Template:Ls operated by Template:Ls.

In order to construct mechanisms from a magma-safe stone, simply ensure that they are the closest available stone to your Template:L, ideally by placing a restricted Template:L around your Template:L. Template:Ls can also be of assistance here, as dwarves will not attempt to pick up stone out side of their burrow assignments. However, if you have an active metalworking industry and have access to Template:L or Template:L, constructing Template:L mechanisms is much more straightforward.

When linking a trigger to an object, the first mechanism selected is attached to the object, and the second is attached to the trigger. Unless the trigger itself will be submerged in magma (as could be the case with a Template:L), only the first mechanism (attached to the object that will be submerged) need be magma-safe. If you do not have any magma-safe stones available, you can also work around floodgate-based flow control by using Template:Ls to pump the magma over Template:L-barriers, or using water to form Template:L to plug flows and channel through them to reopen them (necessity and invention and all that).

Constructions that resist magma are:

  • Constructions (Template:L, Template:L, Template:L, and Template:L) of any material can never melt or burn - there is nothing wrong with a Template:Len magma reservoir. Natural (but not constructed) Template:L walls/floors/ramps/stairs may melt however.
  • Template:Ls will allow the passage of Template:L, but not the assorted magma creatures. Fire snakes are vermin, so they can spawn anywhere near the magma. They are not affected by fortifications, grates, or even solid walls. Also, there is a bug with fluids which may sometimes let magma (and water) push living things through barriers such as fortifications, bars and grates. Template:Ls are a positive defense, but can change the dynamics of fluid Template:L.
  • If not submerged (that is, not opened to let magma flow over/past/around them), Template:Ls, Template:Ls, and raised Template:Ls (provided that there is no magma on the space the bridge would occupy when lowered) of non-magma-safe stone or metal are safe. So long as they are just in contact with magma, only acting as a passive "wall", they are fine. If opened, they will melt.
    • Raised drawbridges have a notable exception, in that allowing magma to flow over the center of the area that the bridge would normally occupy when lowered will cause the bridge's components to heat up and potentially melt.
  • A Template:L made with magma-safe metal pipes and screws and with magma-safe metal blocks or magma-safe stone blocks is fully magma-safe. A pump made with glass pipes and screws or any type of[Verify] metal pipes and screws, and glass blocks, any type of metal blocks, or magma-safe stone blocks is magma-safe as long as no magma ever occupies the passable tile of the pump. Pumps made with Template:Len components will burst into flames the instant they are turned on, and pumps made with non-magma-safe stone blocks have been reported to melt after prolonged operation.

Glass

Template:L behaves oddly in regards to magma. All types of glass are technically magma safe, based on a melting point of 13600 (the same as that of bauxite); however, small glass objects (such as Template:Ls) seem to be instantly destroyed if dropped in magma[Verify]. So glass Template:Ls, Template:Ls, and Template:Ls are all fine when submerged in magma.

Glass barriers still require magma-proof mechanisms to operate without deconstructing.

Game calculations

In the game, magma's temperature is exactly 12,000°Template:L, which is equivalent to 2,032°F, or about 1,111°C.

Magma-safe material

The following materials will not melt when submerged in magma. Although true for any item/construction, it's worth specifically mentioning that this includes Template:Ls, Template:Les, Template:Ls, Template:Ls, Template:Ls, and Template:Ls.


Type Material Appearance1 Melting Temperature °U (°F, °C)2 Found in Uses / Notes
Stone Template:L ` 13,690°U (3722°F/2051°C)
Stone Template:L v 12,610°U (2642°F/1450°C)
Stone Template:L # 12,160°U (2192°F/1200°C) Template:L layer stone
Stone Template:L + 13,600°U (3632°F/2000°C) dark red
Stone Template:L " 12,902°U (2934°F/1613°C) Template:L stone
Stone Template:L = 13,101°U (3133°F/1723°C) Template:L layer stone
Stone Template:L = 13,645°U (3677°F/2026°C)
Stone Template:L ` 16,507°U (6539°F/3619°C) Template:L stone
Stone Template:L 12,160°U (2192°F/1200°C) Template:L layer stone
Stone Template:L . 12,457°U (2489°F/1365°C)
Stone Template:L = 13,150°U (3182°F/1751°C) dark red
Stone Template:L v 12,295°U (2327°F/1275°C)
Stone Template:L 13,600°U (3632°F/2001°C) value 3 stone, Template:L layer stone, can be "Template:L"
Stone Template:L % 13,168°U (3200°F/1761°C) green
Stone Template:L % 12,250°U (2282°F/1250°C) yellow
Stone Template:L , 15,040°U (5072°F/2803°C)
Stone Template:L % 12,970°U (3002°F/1650°C) bright red
Stone Template:L * 12,070°U (2102°F/1149°C) purple
Stone Template:L - 12,970°U (3002°F/1650°C) Template:L layer stone
Stone Template:L ` 13,285°U (3214°F/1826°C) purple
Stone Template:L # 12,070°U (2102°F/1149°C) Template:L layer stone
Stone Template:L | 12,700°U (2732°F/1500°C)
Metal Template:L 25,000°U (15,032°F/8333°C) Highest value/utility material in game
Metal Template:L 12,768°U (2800°F/1538°C)
Metal Template:L 12,619°U (2651°F/1455°C)
Metal Template:L 12,106°U (2138°F/1170°C) used in steel making process
Metal Template:L 13,182°U (3214°F/1768°C) High value metal
Metal Template:L 12,718°U (2750°F/1510°C) armour/weapons
Ore Template:L £ * 12,025°U (2057°F/1124°C) tin ore, used in bronze & pewter alloys
Ore Template:L £ * 12,005°U (2037°F/1113°C) lead/silver ore
Ore Template:L3 £ * 12,736°U (2768°F/1520°C) iron ore3
Ore Template:L3 ~ * 12,768°U (2800°F/1538°C) iron ore3
Ore Template:L £ * 13,182°U (3214°F/1768°C)
Ore Template:L4 £ * 12,133°U (2165°F/1185°C) zinc ore - See Notes4
Special Template:L £ * 25,000°U (15,032°F/8333°C)
Leather Template:L 15,000°U (5032°F/2780°C)
Leather Template:L 55,000°U (45032°F/25,044°C)
Bone Template:L 15,000°U (5032°F/2780°C)
Bone Template:L 55,000°U (45032°F/25,044°C)
Glass Green glass 13,600°U (3632°F/2001°C)
Glass Clear glass 13,600°U (3632°F/2001°C)
Glass Crystal glass 13,600°U (3632°F/2001°C)

Notes:

1. Each stone is one of 16 Template:L in the game. Different un-mined stone of the same color have a different symbol to distinguish between them. Once mined, the individual stones themselves can sometimes look identical if the color is the same. Use k to look at items or the terrain for specific information.
2. °U = degrees in Urist, the measure of temperature within the Dwarf Fortress world. As far as is known, there is no functional difference between a material that melts at 12,005°U or 55,000°U - they are both equally "magma safe".
3. There are three iron ores in the game (four if you count Template:L). Of these, only Template:L and Template:L are magma safe.
4. Sphalerite has no melting point, but boils at 12,133°U - further research is necessary in this context - use at your own risk for the time being. This is accurate for the actual mineral, which sublimes at this temperature rather than having a liquid state, but how it behaves in Dwarf Fortress may be unclear.