![]() It should be noted that while these formulas should give the maximum pressure a wall can withstand before taking damage, in some cases there appears to be a rounding error of less than 1kg. Where t is the thickness of the wall (either 1 or 2), s is the strength of the material (located in the solid.yaml file) making up the wall, and k is the "strength multiplier", found in the table below. Max pressure = (liquid MPT) * (1 + t * s * k), The maximum pressure a liquid tile can be at before damaging its tank walls can be calculated using the following formula: Some pressure-immune tiles and buildings are airflow tiles, manual airlocks, mechanized airlocks, bunker doors, and solar panels. In addition, certain tiles are immune to pressure damage under any circumstances. Walls 3 tiles or thicker are immune to pressure damage entirely. The mass at which a tile begins to take pressure damage is dependent upon the liquid's mass per tile(that is, the maximum amount of liquid that can be put in a tile without it overflowing), the tile's strength, the type of tile, and the thickness of the wall. Liquid tiles which accumulate too much mass (such as from depth stacking) will begin to visually crack before causing pressure damage to the tiles containing them and seep through as droplets until either the tile breaks entirely (losing all materials used to construct it and allowing the liquid to flow out), the pressure is released, or the tile is reinforced with more tiles. Sedimentary Rock Tiles taking pressure damage from over 962kg of petroleum Liquids cannot exist in amounts smaller than 10g, unless if it's in pipes.This pressure can eventually cause damage to surrounding solid tiles. If several such liquid tiles are "stacked" atop each other, pressure will build in the bottom tiles, adding approximately 1% of the above mass to each tile. All liquids have a certain max mass per tile above this limit, the liquid will "flow" to the tile above it (provided it's not a solid tile), pushing away the air in the tile.This includes tiles with virtually zero Thermal Conductivity, such as Abyssalite. If a liquid is atop any tile with a temperature exceeding a phase change temperature, it will under go a phase change. ![]()
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