[recipe-name] general-purpose-structure-reconstruction=Ferric general purpose structure reconstruction mechanical-components-reconstruction=Mechanical components reconstruction conductive-coil-reconstruction=Conductive coil reconstruction modular-circuit-reconstruction=Modular circuit reconstruction print-ai-processor=AI processor printing mineral-glass-cooling=Mineral glass cooling #assembler efficiency-module=Efficiency module speed-module=Speed module #micro assembler mineral-glass-singing=Mineral glass singing conductive-coil-anti-winding=Conductive coil anti-winding #supercomputer introspection-science=Introspection data verification exploration-science=Exploration data verification #Chemistry plant hydrocarbon-seperation=Hydrocarbon seperation hydrocarbon-concentration=Hydrocarbon concentration ferric-ore-washing=Ferric ore washing microbe-extraction=Microbe extraction bio-polymerisation=Bio-polymerisation organic-carbon-liquefaction=Organic carbon liquefaction excited-crystal-quenching=Excited crystal quenching thruster-fuel=Thruster fuel thruster-oxidizer=Thruster oxidizer #refinery hydrocarbon-slush-distillation=Hydrocarbon slush distillation water-filtration=Water filtration organic-sludge-cultivation=Organic sludge cultivation ferric-solution-reduction=Ferric solution reduction #furnace ferric-ore-smelting=Ferric ore smelting pure-iron-ore-smelting=Pure iron ore smelting hot-mineral-plate-smelting=Hot mineral plate smelting from crystalline ore mineral-glass-smelting=Mineral glass smelting from crystalline ore titanium-ore-smelting=Titanium ore smelting #crushing ferric-chunk-crushing=Ferric chunk crushing crystalline-chunk-crushing=Crystalline chunk crushing excited-crystalline-chunk-red=Crystal excitation #radiators evaporation-cooling=Evaporation cooling #redundant recipe name once HSP foundation added heavy-space-platform=Heavy space platform foundation [recipe-description] general-purpose-structure-reconstruction=Reconstruct general purpose structures from ferric asteroid chunks. mechanical-components-reconstruction=Reconstruct mechanical components from ferric asteroid chunks mineral-glass-cooling=Prevent the formation of crystals by agitating the mineral plate as it cools. print-ai-processor=The matter reconstructor has allowed you to print ai processors, through a process being beyond your current understanding. \nYou attempt to study it, but you feel like it's judging you. ai-processor=Fused crystals can be engraved with neural traces, allowing for uniquely efficient AI computation impossible with conventional computers. cliff-explosives=You don't want to know. #supercomputer introspection-science=To verify introspection data, you must combine [virtual-signal=signal-A] with [virtual-signal=signal-B] using the provided mathematical operator (One of [virtual-signal=signal-plus] or [virtual-signal=signal-minus] or [virtual-signal=signal-multiplication] or [virtual-signal=signal-division]), to produce some value of [virtual-signal=signal-X], which must be input in the supercomputers input terminal. exploration-science=To verify exploration data you must calculate the distance between two points ([virtual-signal=signal-x-0],[virtual-signal=signal-y-0] and[virtual-signal=signal-x-1],[virtual-signal=signal-y-1]) and input the distance as signal [virtual-signal=signal-distance].\n\nRemember, circuit signals are integers, while the true distance may be a decimal value, as such, any [virtual-signal=signal-distance] ±1 from the true answer is acceptable.\n\nDon't be afraid to use the internet for guidance if you get stuck. exploitation-science=To verify exploitation data you must sort a list of 16 signals sequentially [virtual-signal=signal-0]-[virtual-signal=signal-F] (hexadecimal order). You will be provided with each of the signals, with a signal value corresponding to their place in the list. 1 meaning first, and 16 meaning last.\n\nTo reorder items in the list, you must provide [virtual-signal=signal-A][virtual-signal=signal-B] with signal values corresponding to the places in the list you wish to swap.\n\nEg, if you provide [virtual-signal=signal-A]1 [virtual-signal=signal-B]2 then positions 1 and 2 will be swapped.(Be aware this happens every tick)\n\n #refinery hydrocarbon-slush-distillation=Heat up hydrocarbon slush and separate it into its components. water-filtration=By mixing hydrocarbons and water at high heat before filtering it we can isolate more water from the mixture. organic-sludge-cultivation=By feeding hydrocarbons to organic sludge, and incubating the microbes, the sludge= will grow. ferric-solution-reduction=Heating ferric solution allows for the hydrocarbons to break down and release the dissolved iron back into its solid form. #chemistry plant hydrocarbon-seperation=By centrifuging a mixture of substances, we can separate hydrocarbons into pure water and organic sludge. hydrocarbon-concentration=By mixing our chemicals we can concentrate hydrocarbons out of equal parts water and organic sludge. ferric-ore-washing=By "washing" ferric ore with hydrocarbons, the iron can be dissolved into a ferric solution, leaving behind only the impurities in the ore. microbe-extraction=Organic sludge contains a high concentration of microbes, some of these microbes have been identified as potentially useful, and happen to have a behaviour which causes them to avoid mineral crystals, this behavior can be abused to seperate the useful microbes from the waste, which is burnt off. bio-polymerisation=Feeding the microbe cultures with hydrocarbons will allow them to sustain their cocooning behaviour for long enough to make useful quantities of polymers. capacitor-discharged=Capacitors are fabricated by filling a polymer container with ferric solution and thin layers of crystal. excited-crystal-quenching=attempting to fuse two excited crystals results in a destructive and sudden release of energy. Water can be used to absorb the energy and prevent its self destruction. #furnace ferric-ore-smelting=more resource efficient smelting of ferric plates, at the cost of taking more time. ferric-plate=The simplest means of converting ferric chunks into plates, not the most efficient. but requires minimal infrastructure. hot-mineral-plate=Smelting crystalline chunks in space results in hot mineral plates, which can cool into crystalline plates hot-mineral-plate-smelting=Smelting crystalline ore in space results in hot mineral plates, which can cool into crystalline plates. mineral-glass=Smelting crystalline chunks on the surface always yields mineral glass, due to the fragile crystal structures being unable to form while under the influence of gravity. mineral-glass-smelting=Smelting crystalline ore on the surface always yields mineral glass, due to the fragile crystal structures being unable to form while under the influence of gravity. titanium-ore-smelting=Smelt titanium ore into titanium plates. #charger capacitor-charged=Capacitors can be charged via a generous application of electricity, this process isn't perfectly efficient and some energy is lost. excited-crystalline-chunk-red=Impart a large current on a crystalline chunk to destabilise it. #rocket #radiators evaporation-cooling=Utilising waters high heat of vaporisation, cooling can be done quickly in a small form factor. #micro assembler mineral-glass-singing=By "singing" to the cooling mineral plates in their natural resonant frequencies, the formation of crystal structures can be prevented. The simplicity of this process allows it to be used in a more compact form factor. conductive-coil-anti-winding=The conventional method of creating conductive coils from ferric plates by the conventional process of rolling, extruding and winding is a manufacturing dead end with limited potential for miniaturisation. Instead, unwinding the ferric plates into conductive coils directly in a process known as "anti-winding" proved much more compact.