Difference between revisions of "Element:CLST"

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CLST produces {{Material | PSTE}} when in contact with water. CLST particles are naturally 'sticky' and tend to cling to each other, when cold. Particles literally freeze at about -70°C (I.E. turn to a pseudo-solid state). It melts at about 984°C
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Clay dust is a 'sticky' powder, whose particles tend to cling to each other. Stickiness becomes stronger with lower temperatures, turning clay dust almost into a solid below -78°C.
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Because of its clinging abilities, clay dust tends to stack on top of itself like [[Element:CNCT|concrete]].
  
Because of it's clinging abilities, CLST tends to stack on top of itself, almost like concrete.
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The texture effect comes from the fact that the color of a clay dust particle is based on its .tmp value, which is random. The same effect is used in [[Element:QRTZ|quartz]] and [[Element:PQRT|powdered quartz]].
  
CLST will make {{Material | TNT}} when mixed with {{Material | NITR}}.
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== Creation ==
  
The texture effect comes from the fact that the color of a CLST particle is based on its .tmp value, which is random. The same effect is used in {{Material | QRTZ}} and {{Material | PQRT}}.
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[[Element:CRMC|Ceramic]] will break into clay dust below -30.0 pressure:
  
{{Languages}}
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{{MaterialBtn|CRMC}} → {{MaterialBtn|CLST}}
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[[Element:GEL|Gel]] and [[Element:SPNG|sponge]] absorb water from [[Element:PSTE|paste]] and turn it into clay dust:
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{{MaterialBtn|PSTE}} + {{MaterialBtn|GEL}} → {{MaterialBtn|CLST}} + {{MaterialBtn|GEL}}
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{{MaterialBtn|PSTE}} + {{MaterialBtn|SPNG}} → {{MaterialBtn|CLST}} + {{MaterialBtn|SPNG}}
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Molten [[Element:SLCN|silicon powder]] with [[Element:OXYG|oxygen]] may randomly produce molten clay dust with 1/3 probability if the temperature of molten silicon is below {{Temperature|t=7719.45}}:
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3×{{MaterialBtn|SLCN}} + 3×{{MaterialBtn|OXYG}} → {{MaterialBtn|SAND}} + {{MaterialBtn|STNE}} + {{MaterialBtn|CLST}}
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== Reactions ==
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Clay dust with water gives [[Element:PSTS|solid paste]]:
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{{MaterialBtn|WATR}} + {{MaterialBtn|CLST}} → {{MaterialBtn|PSTS}}
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Molten quartz and molten clay dust combine into ceramic:
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{{MaterialBtn|QRTZ}} + {{MaterialBtn|CLST}} → 2×{{MaterialBtn|CRMC}}
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Clay dust mixed with [[Element:NITR|nitroglycerin]] produces [[Element:TNT|TNT]]:
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{{MaterialBtn|NITR}} + {{MaterialBtn|CLST}} → {{MaterialBtn|TNT}}
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{{Languages|Element:CLST}}

Latest revision as of 04:49, 16 August 2023

CLST.png Clay dust
Properties
Section Powders
Spawn temperature 22°C
Heat Conductivity 28%
Relative weight 55
Gravity 0.2
Acid dissolve rate 0.2%
Flammability 0
State Powder
Transitions
High temperature LAVA.png above 982.85°C
Source code


Clay dust is a 'sticky' powder, whose particles tend to cling to each other. Stickiness becomes stronger with lower temperatures, turning clay dust almost into a solid below -78°C. Because of its clinging abilities, clay dust tends to stack on top of itself like concrete.

The texture effect comes from the fact that the color of a clay dust particle is based on its .tmp value, which is random. The same effect is used in quartz and powdered quartz.

Creation

Ceramic will break into clay dust below -30.0 pressure:

CRMC.pngCLST.png

Gel and sponge absorb water from paste and turn it into clay dust:

PSTE.png + GEL.pngCLST.png + GEL.png

PSTE.png + SPNG.pngCLST.png + SPNG.png

Molten silicon powder with oxygen may randomly produce molten clay dust with 1/3 probability if the temperature of molten silicon is below 7446.3°C:

SLCN.png + 3×OXYG.pngSAND.png + STNE.png + CLST.png

Reactions

Clay dust with water gives solid paste:

WATR.png + CLST.pngPSTS.png

Molten quartz and molten clay dust combine into ceramic:

QRTZ.png + CLST.png → 2×CRMC.png

Clay dust mixed with nitroglycerin produces TNT:

NITR.png + CLST.pngTNT.png

Language: English