package goodgenerator.items; import static bartworks.util.BWUtil.subscriptNumbers; import static gregtech.api.enums.Materials.*; import bartworks.system.material.Werkstoff; import bartworks.system.material.WerkstoffLoader; import bartworks.util.Pair; import goodgenerator.util.CharExchanger; import gregtech.api.enums.TextureSet; public class GGMaterial implements Runnable { protected static final int OffsetID = 10001; // Uranium Based Fuel Line public static final Werkstoff graphiteUraniumMixture = new Werkstoff( new short[] { 0x3a, 0x77, 0x3d }, "Graphite-Uranium Mixture", subscriptNumbers("C3U"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addMixerRecipes() .onlyDust(), OffsetID, TextureSet.SET_DULL, new Pair<>(Graphite, 3), new Pair<>(Uranium, 1)); public static final Werkstoff uraniumBasedLiquidFuel = new Werkstoff( new short[] { 0x00, 0xff, 0x00 }, "Uranium Based Liquid Fuel", subscriptNumbers("U36K8Qt4Rn"), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 1, TextureSet.SET_FLUID); public static final Werkstoff uraniumBasedLiquidFuelExcited = new Werkstoff( new short[] { 0x00, 0xff, 0x00 }, "Uranium Based Liquid Fuel (Excited State)", subscriptNumbers("*(U36K8Qt4Rn)*"), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 2, TextureSet.SET_FLUID); public static final Werkstoff uraniumBasedLiquidFuelDepleted = new Werkstoff( new short[] { 0x6e, 0x8b, 0x3d }, "Uranium Based Liquid Fuel (Depleted)", subscriptNumbers("Pb?Bi?Ba?Xe?"), new Werkstoff.Stats().setToxic(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 3, TextureSet.SET_FLUID); // Thorium Based Fuel public static final Werkstoff uraniumCarbideThoriumMixture = new Werkstoff( new short[] { 0x16, 0x32, 0x07 }, "Uranium Carbide-Thorium Mixture", Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addMixerRecipes() .onlyDust(), OffsetID + 4, TextureSet.SET_DULL, new Pair<>(Thorium, 11), new Pair<>(WerkstoffLoader.Thorium232, 1), new Pair<>(Uranium235, 1), new Pair<>(Carbon, 3)); public static final Werkstoff thoriumBasedLiquidFuel = new Werkstoff( new short[] { 0x50, 0x32, 0x66 }, "Thorium Based Liquid Fuel", subscriptNumbers("Th432Li4D2Hg"), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 5, TextureSet.SET_FLUID); public static final Werkstoff thoriumBasedLiquidFuelExcited = new Werkstoff( new short[] { 0x50, 0x32, 0x66 }, "Thorium Based Liquid Fuel (Excited State)", subscriptNumbers("*(Th432Li4D2Hg)*"), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 6, TextureSet.SET_FLUID); public static final Werkstoff thoriumBasedLiquidFuelDepleted = new Werkstoff( new short[] { 0x7d, 0x6c, 0x8a }, "Thorium Based Liquid Fuel (Depleted)", subscriptNumbers("Th?Pr?B?In?"), new Werkstoff.Stats().setToxic(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 7, TextureSet.SET_FLUID); // Plutonium Based Fuel public static final Werkstoff plutoniumOxideUraniumMixture = new Werkstoff( new short[] { 0xd1, 0x1f, 0x4a }, "Plutonium Oxide-Uranium Mixture", Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addMixerRecipes() .onlyDust(), OffsetID + 8, TextureSet.SET_SHINY, new Pair<>(Plutonium, 10), new Pair<>(Oxygen, 12), new Pair<>(Uranium, 2), new Pair<>(Carbon, 8)); public static final Werkstoff plutoniumBasedLiquidFuel = new Werkstoff( new short[] { 0xef, 0x15, 0x15 }, "Plutonium Based Liquid Fuel", subscriptNumbers("Pu45Nt8Cs16Nq2"), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 9, TextureSet.SET_FLUID); public static final Werkstoff plutoniumBasedLiquidFuelExcited = new Werkstoff( new short[] { 0xef, 0x15, 0x15 }, "Plutonium Based Liquid Fuel (Excited State)", subscriptNumbers("*(Pu45Nt8Cs16Nq2)*"), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 10, TextureSet.SET_FLUID); public static final Werkstoff plutoniumBasedLiquidFuelDepleted = new Werkstoff( new short[] { 0x67, 0x19, 0x19 }, "Plutonium Based Liquid Fuel (Depleted)", subscriptNumbers("Tn?Ce?Au?Kr?"), new Werkstoff.Stats().setToxic(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 11, TextureSet.SET_FLUID); // Thorium-233 public static final Werkstoff oxalate = new Werkstoff( new short[] { 0x79, 0xd8, 0x55 }, "Oxalate", Werkstoff.Types.BIOLOGICAL, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 12, TextureSet.SET_FLUID, new Pair<>(Hydrogen, 2), new Pair<>(Carbon, 2), new Pair<>(Oxygen, 4)); public static final Werkstoff vanadiumPentoxide = new Werkstoff( new short[] { 0xde, 0x8d, 0x12 }, "Vanadium Pentoxide", Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 13, TextureSet.SET_SHINY, new Pair<>(Vanadium, 2), new Pair<>(Oxygen, 5)); public static final Werkstoff thoriumNitrate = new Werkstoff( new short[] { 0xba, 0xe8, 0x26 }, "Thorium Nitrate", subscriptNumbers("Th(NO3)4"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 14, TextureSet.SET_DULL); public static final Werkstoff thoriumOxalate = new Werkstoff( new short[] { 0x50, 0x63, 0x13 }, "Thorium Oxalate", subscriptNumbers("Th(C2O4)2"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 15, TextureSet.SET_DULL); public static final Werkstoff thoriumHydroxide = new Werkstoff( new short[] { 0x92, 0xae, 0x89 }, "Thorium Hydroxide", subscriptNumbers("Th(OH)4"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 16, TextureSet.SET_SHINY); public static final Werkstoff sodiumOxalate = new Werkstoff( new short[] { 0xe4, 0xf8, 0x9b }, "Sodium Oxalate", subscriptNumbers("Na2C2O4"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 17, TextureSet.SET_DULL); public static final Werkstoff thoriumTetrachloride = new Werkstoff( new short[] { 0x13, 0x7c, 0x16 }, "Thorium Tetrachloride", subscriptNumbers("ThCl4"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 18, TextureSet.SET_FLUID); public static final Werkstoff thoriumTetrafluoride = new Werkstoff( new short[] { 0x15, 0x6a, 0x6a }, "Thorium Tetrafluoride", subscriptNumbers("ThF4"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 19, TextureSet.SET_FLUID); public static final Werkstoff thorium232Tetrafluoride = new Werkstoff( new short[] { 0x15, 0x6a, 0x6a }, "Thorium-232 Tetrafluoride", new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 20, TextureSet.SET_FLUID, new Pair<>(WerkstoffLoader.Thorium232, 1), new Pair<>(Fluorine, 4)); // Orundum public static final Werkstoff orundum = new Werkstoff( new short[] { 0xcd, 0x26, 0x26 }, "Orundum", "Or", new Werkstoff.Stats().setProtons(120) .setMass(300), Werkstoff.Types.ELEMENT, new Werkstoff.GenerationFeatures().addGems() .addMolten(), OffsetID + 22, TextureSet.SET_DIAMOND); // Atomic Separation Catalyst public static final Werkstoff atomicSeparationCatalyst = new Werkstoff( new short[] { 0xe8, 0x5e, 0x0c }, "Atomic Separation Catalyst", "the melting core...", new Werkstoff.Stats().setMeltingPoint(5000), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMetaSolidifierRecipes(), OffsetID + 21, TextureSet.SET_SHINY, new Pair<>(GGMaterial.orundum, 2), new Pair<>(Plutonium, 1), new Pair<>(Naquadah, 2)); // Naquadah Fuel Rework public static final Werkstoff extremelyUnstableNaquadah = new Werkstoff( new short[] { 0x06, 0x26, 0x05 }, "Extremely Unstable Naquadah", "Nq" + CharExchanger.shifter(9734), new Werkstoff.Stats().setMeltingPoint(7000) .setBlastFurnace(true) .setProtons(200) .setMass(450) .setRadioactive(true) .setDurOverride(180224) .setSpeedOverride(100f) .setQualityOverride((byte) 11) .disableAutoGeneratedBlastFurnaceRecipes() .disableAutoGeneratedVacuumFreezerRecipes(), Werkstoff.Types.ELEMENT, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMetaSolidifierRecipes() .addMetalCraftingSolidifierRecipes(), OffsetID + 23, TextureSet.SET_SHINY); public static final Werkstoff lightNaquadahFuel = new Werkstoff( new short[] { 92, 203, 92 }, "Light Naquadah Fuel", "far from enough", new Werkstoff.Stats().setToxic(true) .setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 24, TextureSet.SET_FLUID); public static final Werkstoff heavyNaquadahFuel = new Werkstoff( new short[] { 54, 255, 54 }, "Heavy Naquadah Fuel", "still need processing", new Werkstoff.Stats().setToxic(true) .setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 25, TextureSet.SET_FLUID); public static final Werkstoff naquadahGas = new Werkstoff( new short[] { 93, 219, 0 }, "Naquadah Gas", "Who need it?", new Werkstoff.Stats().setToxic(true) .setRadioactive(true) .setGas(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 26, TextureSet.SET_FLUID); public static final Werkstoff naquadahAsphalt = new Werkstoff( new short[] { 5, 37, 5 }, "Naquadah Asphalt", "It will damage the reactor.", new Werkstoff.Stats().setToxic(true) .setRadioactive(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 27, TextureSet.SET_FLUID); public static final Werkstoff ether = new Werkstoff( new short[] { 0xeb, 0xbc, 0x2f }, "Ether", subscriptNumbers("CH3CH2OCH2CH3"), new Werkstoff.Stats().setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 28, TextureSet.SET_FLUID, new Pair<>(Carbon, 4), new Pair<>(Hydrogen, 10), new Pair<>(Oxygen, 1)); public static final Werkstoff antimonyTrichloride = new Werkstoff( new short[] { 0x0f, 0xdc, 0x34 }, "Antimony Trichloride Solution", subscriptNumbers("SbCl3"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 29, TextureSet.SET_FLUID); public static final Werkstoff antimonyPentachlorideSolution = new Werkstoff( new short[] { 0x15, 0x93, 0x2c }, "Antimony Pentachloride Solution", subscriptNumbers("SbCl5"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 30, TextureSet.SET_FLUID); public static final Werkstoff antimonyPentachloride = new Werkstoff( new short[] { 0x15, 0x93, 0x2c }, "Antimony Pentachloride", subscriptNumbers("SbCl5"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 31, TextureSet.SET_FLUID); public static final Werkstoff antimonyPentafluoride = new Werkstoff( new short[] { 0x16, 0xd5, 0xe2 }, "Antimony Pentafluoride", subscriptNumbers("SbF5"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 32, TextureSet.SET_FLUID); public static final Werkstoff fluoroantimonicAcid = new Werkstoff( new short[] { 0x16, 0xd5, 0xe2 }, "Fluoroantimonic Acid", subscriptNumbers("HSbF6"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 33, TextureSet.SET_FLUID); public static final Werkstoff radioactiveSludge = new Werkstoff( new short[] { 0xb3, 0x49, 0x1e }, "Radioactive Sludge", ">>> DANGER <<<", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 34, TextureSet.SET_DULL); public static final Werkstoff acidNaquadahEmulsion = new Werkstoff( new short[] { 0x25, 0x22, 0x22 }, "Acid Naquadah Emulsion", "??Nq??H" + CharExchanger.shifter(8314), new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 35, TextureSet.SET_FLUID); public static final Werkstoff naquadahEmulsion = new Werkstoff( new short[] { 0x4a, 0x46, 0x45 }, "Naquadah Emulsion", "??Nq??", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 36, TextureSet.SET_FLUID); public static final Werkstoff naquadahSolution = new Werkstoff( new short[] { 0x84, 0x81, 0x80 }, "Naquadah Solution", "~Nq~", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 37, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkI = new Werkstoff( new short[] { 0x62, 0x5c, 0x5b }, "Naquadah Based Liquid Fuel MkI", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 38, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkIDepleted = new Werkstoff( new short[] { 0xcb, 0xc3, 0xc1 }, "Naquadah Based Liquid Fuel MkI (Depleted)", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 39, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkII = new Werkstoff( new short[] { 0x52, 0x4e, 0x4d }, "Naquadah Based Liquid Fuel MkII", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 40, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkIIDepleted = new Werkstoff( new short[] { 0xb5, 0xb0, 0xae }, "Naquadah Based Liquid Fuel MkII (Depleted)", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 41, TextureSet.SET_FLUID); /* These materials will be enable when they are removed in GregTech */ /* * public static final Werkstoff praseodymium = new Werkstoff( new short[]{0xff,0xff,0xff}, "praseodymium", "Pr", * new Werkstoff.Stats(), Werkstoff.Types.ELEMENT, new * Werkstoff.GenerationFeatures().disable().onlyDust().addMolten().addMetalItems(), OffsetID + 42, * TextureSet.SET_METALLIC ); public static final Werkstoff rubidium = new Werkstoff( new short[]{0xff,0x2a,0x00}, * "rubidium", "Rb", new Werkstoff.Stats(), Werkstoff.Types.ELEMENT, new * Werkstoff.GenerationFeatures().disable().onlyDust().addMolten().addMetalItems(), OffsetID + 43, * TextureSet.SET_SHINY ); public static final Werkstoff thulium = new Werkstoff( new short[]{0xff,0xff,0xff}, * "Thulium", "Tm", new Werkstoff.Stats(), Werkstoff.Types.ELEMENT, new * Werkstoff.GenerationFeatures().disable().onlyDust().addMolten().addMetalItems(), OffsetID + 44, * TextureSet.SET_METALLIC ); */ public static final Werkstoff naquadahBasedFuelMkIII = new Werkstoff( new short[] { 0x29, 0x22, 0x21 }, "Naquadah Based Liquid Fuel MkIII", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 45, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkIIIDepleted = new Werkstoff( new short[] { 0x66, 0x40, 0x38 }, "Naquadah Based Liquid Fuel MkIII (Depleted)", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 46, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkIV = new Werkstoff( new short[] { 0x0e, 0x0c, 0x0c }, "Naquadah Based Liquid Fuel MkIV", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 47, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkIVDepleted = new Werkstoff( new short[] { 0x8e, 0x34, 0x22 }, "Naquadah Based Liquid Fuel MkIV (Depleted)", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 48, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkV = new Werkstoff( new short[] { 0x00, 0x00, 0x00 }, "Naquadah Based Liquid Fuel MkV", "THE END", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 49, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkVDepleted = new Werkstoff( new short[] { 0xff, 0xff, 0xff }, "Naquadah Based Liquid Fuel MkV (Depleted)", "THE END (literally)", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 50, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkVI = new Werkstoff( new short[] { 0x30, 0x00, 0x00 }, "Naquadah Based Liquid Fuel MkVI", "THE FUTURE", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 115, TextureSet.SET_FLUID); public static final Werkstoff naquadahBasedFuelMkVIDepleted = new Werkstoff( new short[] { 0x99, 0x33, 0x33 }, "Naquadah Based Liquid Fuel MkVI (Depleted)", "THE FUTURE (achieved)", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 116, TextureSet.SET_FLUID); public static final Werkstoff zincChloride = new Werkstoff( new short[] { 0x73, 0xa5, 0xfc }, "Zinc Chloride", subscriptNumbers("ZnCl2"), new Werkstoff.Stats().setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 51, TextureSet.SET_SHINY, new Pair<>(Zinc, 1), new Pair<>(Chlorine, 2)); public static final Werkstoff zincThoriumAlloy = new Werkstoff( new short[] { 0x12, 0x34, 0x56 }, "Zn-Th Alloy", subscriptNumbers("ZnTh"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust() .addMolten() .addMetalItems(), OffsetID + 52, TextureSet.SET_SHINY, new Pair<>(Zinc, 1), new Pair<>(Thorium, 1)); // Naquadah Rework Materials public static final Werkstoff naquadahEarth = new Werkstoff( new short[] { 0x4c, 0x4c, 0x4c }, "Naquadah Oxide Mixture", subscriptNumbers("??NqTiGaAd??"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures(), OffsetID + 53, TextureSet.SET_METALLIC); public static final Werkstoff titaniumTrifluoride = new Werkstoff( new short[] { 0xc0, 0x92, 0xa8 }, "Titanium Trifluoride", subscriptNumbers("TiF3"), new Werkstoff.Stats().setElektrolysis(false), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 54, TextureSet.SET_METALLIC, new Pair<>(Titanium, 1), new Pair<>(Fluorine, 3)); public static final Werkstoff lowQualityNaquadahEmulsion = new Werkstoff( new short[] { 0x4c, 0x4c, 0x4c }, "Low Quality Naquadah Emulsion", subscriptNumbers("??NqGaAd??"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 55, TextureSet.SET_FLUID); public static final Werkstoff galliumHydroxide = new Werkstoff( new short[] { 0xa6, 0xa6, 0xa6 }, "Gallium Hydroxide", subscriptNumbers("Ga(OH)3"), new Werkstoff.Stats().setElektrolysis(false), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 56, TextureSet.SET_DULL, new Pair<>(Gallium, 1), new Pair<>(Oxygen, 3), new Pair<>(Hydrogen, 3)); public static final Werkstoff lowQualityNaquadahSolution = new Werkstoff( new short[] { 0x71, 0x62, 0x62 }, "Low Quality Naquadah Solution", subscriptNumbers("~??NqAd??~"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 57, TextureSet.SET_FLUID); public static final Werkstoff towEthyl1Hexanol = new Werkstoff( new short[] { 0x80, 0xb5, 0x57 }, "2-Ethyl-1-Hexanol", subscriptNumbers("C8H18O"), new Werkstoff.Stats().setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 58, TextureSet.SET_FLUID, new Pair<>(Carbon, 8), new Pair<>(Oxygen, 1), new Pair<>(Hydrogen, 18)); public static final Werkstoff P507 = new Werkstoff( new short[] { 0x29, 0xc2, 0x2a }, "P-507", subscriptNumbers("(C8H17)2PO3H"), new Werkstoff.Stats().setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 59, TextureSet.SET_FLUID, new Pair<>(Carbon, 16), new Pair<>(Phosphorus, 1), new Pair<>(Oxygen, 3), new Pair<>(Hydrogen, 35)); public static final Werkstoff naquadahAdamantiumSolution = new Werkstoff( new short[] { 0x3d, 0x38, 0x38 }, "Naquadah-Adamantium Solution", subscriptNumbers("~NqAd~"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 60, TextureSet.SET_FLUID); public static final Werkstoff naquadahRichSolution = new Werkstoff( new short[] { 0x33, 0x33, 0x33 }, "Naquadah-Rich Solution", subscriptNumbers("~?Nq?~"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 61, TextureSet.SET_FLUID); public static final Werkstoff naquadahine = new Werkstoff( new short[] { 0x33, 0x33, 0x33 }, "Naquadahine", subscriptNumbers("NqO2"), new Werkstoff.Stats().setElektrolysis(false), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 62, TextureSet.SET_METALLIC, new Pair<>(Naquadah, 1), new Pair<>(Oxygen, 2)); public static final Werkstoff fluorineRichWasteLiquid = new Werkstoff( new short[] { 0x13, 0x68, 0x62 }, "Fluorine-Rich Waste Liquid", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 63, TextureSet.SET_FLUID); public static final Werkstoff wasteLiquid = new Werkstoff( new short[] { 0x14, 0x1c, 0x68 }, "Waste Liquid", new Werkstoff.Stats().setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 64, TextureSet.SET_FLUID); public static final Werkstoff adamantine = new Werkstoff( new short[] { 0xb7, 0xb7, 0xb7 }, "Adamantine", subscriptNumbers("Ad2O3"), new Werkstoff.Stats().setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 65, TextureSet.SET_DULL, new Pair<>(Adamantium, 2), new Pair<>(Oxygen, 3)); public static final Werkstoff enrichedNaquadahEarth = new Werkstoff( new short[] { 0x82, 0x68, 0x68 }, "Enriched-Naquadah Oxide Mixture", subscriptNumbers("??KeNq") + CharExchanger.shifter(8314) + "??", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures(), OffsetID + 66, TextureSet.SET_METALLIC); public static final Werkstoff triniumSulphate = new Werkstoff( new short[] { 0xda, 0xda, 0xda }, "Trinium Sulphate", subscriptNumbers("KeSO4"), new Werkstoff.Stats().setElektrolysis(false), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 67, TextureSet.SET_METALLIC, new Pair<>(Trinium, 1), new Pair<>(Sulfur, 1), new Pair<>(Oxygen, 4)); public static final Werkstoff enrichedNaquadahRichSolution = new Werkstoff( new short[] { 0x52, 0x39, 0x39 }, "Enriched-Naquadah-Rich Solution", subscriptNumbers("~?Nq") + CharExchanger.shifter(8314) + "?~", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 68, TextureSet.SET_FLUID); public static final Werkstoff concentratedEnrichedNaquadahSludge = new Werkstoff( new short[] { 0x52, 0x39, 0x39 }, "Concentrated Enriched-Naquadah Sludge", subscriptNumbers("?Nq") + CharExchanger.shifter(8314) + "?", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 69, TextureSet.SET_METALLIC); public static final Werkstoff enrichedNaquadahSulphate = new Werkstoff( new short[] { 0x52, 0x39, 0x39 }, "Enriched-Naquadah Sulphate", "Nq" + CharExchanger.shifter(8314) + subscriptNumbers("(SO4)2"), new Werkstoff.Stats().setRadioactive(true) .setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 70, TextureSet.SET_DULL, new Pair<>(NaquadahEnriched, 1), new Pair<>(Sulfur, 2), new Pair<>(Oxygen, 8)); public static final Werkstoff naquadriaEarth = new Werkstoff( new short[] { 0x4d, 0x4d, 0x55 }, "Naquadria Oxide Mixture", subscriptNumbers("??Nq*BaIn??"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures(), OffsetID + 71, TextureSet.SET_METALLIC); public static final Werkstoff indiumPhosphate = new Werkstoff( new short[] { 0x2b, 0x2e, 0x70 }, "Indium Phosphate", subscriptNumbers("InPO4"), new Werkstoff.Stats().setToxic(true) .setElektrolysis(false), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 72, TextureSet.SET_DULL, new Pair<>(Indium, 1), new Pair<>(Phosphorus, 1), new Pair<>(Oxygen, 4)); public static final Werkstoff lowQualityNaquadriaPhosphate = new Werkstoff( new short[] { 0x4d, 0x4d, 0x55 }, "Low Quality Naquadria Phosphate", subscriptNumbers("??Nq*3(PO4)4??"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 73, TextureSet.SET_DULL); public static final Werkstoff naquadriaRichSolution = new Werkstoff( new short[] { 0x1f, 0x1e, 0x33 }, "Naquadria-Rich Solution", subscriptNumbers("~?Nq*?~"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 74, TextureSet.SET_FLUID); public static final Werkstoff lowQualityNaquadriaSulphate = new Werkstoff( new short[] { 0x73, 0x72, 0x84 }, "Low Quality Naquadria Sulphate", subscriptNumbers("??Nq*(SO4)2??"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 75, TextureSet.SET_METALLIC); public static final Werkstoff lowQualityNaquadriaSolution = new Werkstoff( new short[] { 0x73, 0x72, 0x84 }, "Low Quality Naquadria Sulphate", subscriptNumbers("~??Nq*??~"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 76, TextureSet.SET_FLUID); public static final Werkstoff naquadriaSulphate = new Werkstoff( new short[] { 0x1f, 0x1e, 0x33 }, "Naquadria Sulphate", subscriptNumbers("Nq*(SO4)2"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true) .setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 77, TextureSet.SET_METALLIC, new Pair<>(Naquadria, 1), new Pair<>(Sulfur, 2), new Pair<>(Oxygen, 8)); public static final Werkstoff naquadahGoo = new Werkstoff( new short[] { 0x4c, 0x4c, 0x4c }, "Naquadah Goo", subscriptNumbers("??NqTiGaAd??"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 78, TextureSet.SET_FLUID); public static final Werkstoff enrichedNaquadahGoo = new Werkstoff( new short[] { 0x82, 0x68, 0x68 }, "Enriched Naquadah Goo", subscriptNumbers("??KeNq") + CharExchanger.shifter(8314) + "??", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 79, TextureSet.SET_FLUID); public static final Werkstoff naquadriaGoo = new Werkstoff( new short[] { 0x4d, 0x4d, 0x55 }, "Naquadria Goo", subscriptNumbers("??Nq*BaIn??"), new Werkstoff.Stats().setRadioactive(true) .setToxic(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 80, TextureSet.SET_FLUID); // material for reactor stuff public static final Werkstoff zircaloy4 = new Werkstoff( new short[] { 0x8a, 0x6e, 0x68 }, "Zircaloy-4", subscriptNumbers("Zr34Sn5Fe2Cr"), new Werkstoff.Stats().setCentrifuge(true) .setBlastFurnace(true) .setMeltingPoint(2800), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMixerRecipes((short) 4), OffsetID + 81, TextureSet.SET_METALLIC, new Pair<>(WerkstoffLoader.Zirconium, 34), new Pair<>(Tin, 5), new Pair<>(Iron, 2), new Pair<>(Chrome, 1)); public static final Werkstoff zircaloy2 = new Werkstoff( new short[] { 0xa4, 0x8f, 0x8b }, "Zircaloy-2", subscriptNumbers("Zr34Sn4FeCrNi"), new Werkstoff.Stats().setCentrifuge(true) .setBlastFurnace(true) .setMeltingPoint(2800), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMixerRecipes((short) 2), OffsetID + 82, TextureSet.SET_METALLIC, new Pair<>(WerkstoffLoader.Zirconium, 34), new Pair<>(Tin, 4), new Pair<>(Iron, 1), new Pair<>(Chrome, 1), new Pair<>(Nickel, 1)); public static final Werkstoff incoloy903 = new Werkstoff( new short[] { 0xa4, 0x8f, 0x8b }, "Incoloy-903", subscriptNumbers("Fe12Ni10Co8Ti4Mo2Al"), new Werkstoff.Stats().setCentrifuge(true) .setBlastFurnace(true) .setMeltingPoint(3700), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMixerRecipes((short) 6), OffsetID + 83, TextureSet.SET_METALLIC, new Pair<>(Iron, 12), new Pair<>(Nickel, 10), new Pair<>(Cobalt, 8), new Pair<>(Titanium, 4), new Pair<>(Molybdenum, 2), new Pair<>(Aluminium, 1)); public static final Werkstoff adamantiumAlloy = new Werkstoff( new short[] { 0xa0, 0xa0, 0xa0 }, "Adamantium Alloy", subscriptNumbers("Ad5Nq2La3"), new Werkstoff.Stats().setCentrifuge(true) .setBlastFurnace(true) .setMeltingPoint(5500) .setSpeedOverride(191.2F) .setDurOverride(102400), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMixerRecipes((short) 3), OffsetID + 84, TextureSet.SET_SHINY, new Pair<>(Adamantium, 5), new Pair<>(Naquadah, 2), new Pair<>(Lanthanum, 3)); public static final Werkstoff ethanolGasoline = new Werkstoff( new short[] { 0xe4, 0xc6, 0x61 }, "Ethanol Gasoline", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 85, TextureSet.SET_FLUID); public static final Werkstoff cyclopentadiene = new Werkstoff( new short[] { 0xff, 0xf6, 0xbd }, "Cyclopentadiene", subscriptNumbers("C5H6"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 86, TextureSet.SET_FLUID); public static final Werkstoff ferrousChloride = new Werkstoff( new short[] { 0x5b, 0x5b, 0x5b }, "Iron II Chloride", subscriptNumbers("FeCl2"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 87, TextureSet.SET_FLUID); public static final Werkstoff diethylamine = new Werkstoff( new short[] { 0x69, 0x77, 0xca }, "Diethylamine", subscriptNumbers("C4H11N"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 88, TextureSet.SET_FLUID); public static final Werkstoff impureFerroceneMixture = new Werkstoff( new short[] { 0x79, 0x55, 0x08 }, "Impure Ferrocene Mixture", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 89, TextureSet.SET_FLUID); public static final Werkstoff ferroceneSolution = new Werkstoff( new short[] { 0xde, 0x7e, 0x1c }, "Ferrocene Solution", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 90, TextureSet.SET_FLUID); public static final Werkstoff ferroceneWaste = new Werkstoff( new short[] { 0x35, 0x1d, 0x03 }, "Ferrocene Waste", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 91, TextureSet.SET_FLUID); public static final Werkstoff ferrocene = new Werkstoff( new short[] { 0xf1, 0x8f, 0x2b }, "Ferrocene", subscriptNumbers("Fe(C5H5)2"), new Werkstoff.Stats(), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 92, TextureSet.SET_SHINY); public static final Werkstoff ironedKerosene = new Werkstoff( new short[] { 0x97, 0x00, 0x61 }, "Jet Fuel No.3", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 93, TextureSet.SET_FLUID); public static final Werkstoff ironedFuel = new Werkstoff( new short[] { 0xff, 0x98, 0x00 }, "Jet Fuel A", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 94, TextureSet.SET_FLUID); public static final Werkstoff marM200 = new Werkstoff( new short[] { 0x51, 0x51, 0x51 }, "MAR-M200 Steel", new Werkstoff.Stats().setCentrifuge(true) .setBlastFurnace(true) .setMeltingPoint(5000), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMixerRecipes((short) 7), OffsetID + 95, TextureSet.SET_SHINY, new Pair<>(Niobium, 2), new Pair<>(Chrome, 9), new Pair<>(Aluminium, 5), new Pair<>(Titanium, 2), new Pair<>(Cobalt, 10), new Pair<>(Tungsten, 13), new Pair<>(Nickel, 18)); public static final Werkstoff marCeM200 = new Werkstoff( new short[] { 0x38, 0x30, 0x30 }, "MAR-Ce-M200 Steel", new Werkstoff.Stats().setCentrifuge(true) .setBlastFurnace(true) .setMeltingPoint(5000) .setMass(1200) .setProtons(1000) .setSpeedOverride(150F) .setDurOverride(204800), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems(), OffsetID + 96, TextureSet.SET_METALLIC, new Pair<>(marM200, 18), new Pair<>(Cerium, 1)); public static final Werkstoff lithiumChloride = new Werkstoff( new short[] { 0xb7, 0xe2, 0xce }, "Lithium Chloride", new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .enforceUnification(), OffsetID + 97, TextureSet.SET_DULL, new Pair<>(Lithium, 1), new Pair<>(Chlorine, 1)); public static final Werkstoff signalium = new Werkstoff( new short[] { 0xd4, 0x40, 0x00 }, "Signalium", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(4000), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems(), OffsetID + 98, TextureSet.SET_SHINY, new Pair<>(AnnealedCopper, 4), new Pair<>(Ardite, 2), new Pair<>(RedAlloy, 2)); public static final Werkstoff lumiinessence = new Werkstoff( new short[] { 0xe8, 0xf2, 0x24 }, "Lumiinessence", subscriptNumbers("(Al??)2(PO4)4"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust(), OffsetID + 99, TextureSet.SET_DULL); public static final Werkstoff lumiium = new Werkstoff( new short[] { 0xe8, 0xf2, 0x24 }, "Lumiium", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(4000), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems(), OffsetID + 100, TextureSet.SET_SHINY, new Pair<>(TinAlloy, 4), new Pair<>(SterlingSilver, 2), new Pair<>(lumiinessence, 2)); public static final Werkstoff artheriumSn = new Werkstoff( new short[] { 0x60, 0x36, 0xf7 }, "Artherium-Sn", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(6500) .setCentrifuge(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMixerRecipes((short) 6), OffsetID + 101, TextureSet.SET_SHINY, new Pair<>(adamantiumAlloy, 12), new Pair<>(orundum, 9), new Pair<>(Tin, 8), new Pair<>(Arsenic, 7), new Pair<>(Caesium, 4), new Pair<>(Osmiridium, 3)); public static final Werkstoff titaniumBetaC = new Werkstoff( new short[] { 0xc7, 0x2f, 0xcc }, "Tanmolyium Beta-C", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(5300) .setCentrifuge(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMixerRecipes((short) 5), OffsetID + 102, TextureSet.SET_METALLIC, new Pair<>(Titanium, 5), new Pair<>(Molybdenum, 5), new Pair<>(Vanadium, 2), new Pair<>(Chrome, 3), new Pair<>(Aluminium, 1)); public static final Werkstoff dalisenite = new Werkstoff( new short[] { 0xb0, 0xb8, 0x12 }, "Dalisenite", new Werkstoff.Stats().setMeltingPoint(8700) .setCentrifuge(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMetaSolidifierRecipes() .addMetalCraftingSolidifierRecipes() .addMixerRecipes((short) 6), OffsetID + 103, TextureSet.SET_SHINY, new Pair<>(titaniumBetaC, 14), new Pair<>(Tungsten, 10), new Pair<>(NiobiumTitanium, 9), new Pair<>(WerkstoffLoader.LuVTierMaterial, 8), new Pair<>(Quantium, 7), new Pair<>(Erbium, 3)); public static final Werkstoff hikarium = new Werkstoff( new short[] { 0xff, 0xd6, 0xfb }, "Hikarium", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(5400) .setCentrifuge(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMixerRecipes((short) 3), OffsetID + 104, TextureSet.SET_SHINY, new Pair<>(lumiium, 18), new Pair<>(Silver, 8), new Pair<>(Sunnarium, 4)); public static final Werkstoff tairitsu = new Werkstoff( new short[] { 0x36, 0x36, 0x36 }, "Tairitsu", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(7400) .setCentrifuge(true), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMetaSolidifierRecipes() .addMetalCraftingSolidifierRecipes() .addMixerRecipes((short) 6), OffsetID + 105, TextureSet.SET_SHINY, new Pair<>(Tungsten, 8), new Pair<>(Naquadria, 7), new Pair<>(Bedrockium, 4), new Pair<>(Carbon, 4), new Pair<>(Vanadium, 3), new Pair<>(BlackPlutonium, 1)); public static final Werkstoff antimonyPentafluorideSolution = new Werkstoff( new short[] { 0x16, 0xd5, 0xe2 }, "Antimony Pentafluoride Solution", subscriptNumbers("SbF5"), new Werkstoff.Stats(), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().disable() .addCells(), OffsetID + 106, TextureSet.SET_FLUID); public static final Werkstoff magnesiumSulphate = new Werkstoff( new short[] { 0x87, 0x74, 0x91 }, "Magnesium Sulphate", subscriptNumbers("MgSO4"), new Werkstoff.Stats().setElektrolysis(true), Werkstoff.Types.COMPOUND, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 107, TextureSet.SET_DULL, new Pair<>(Magnesium, 1), new Pair<>(Sulfur, 1), new Pair<>(Oxygen, 4)); public static final Werkstoff preciousMetalAlloy = new Werkstoff( new short[] { 0x9d, 0x90, 0xc6 }, "Precious Metals Alloy", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(10000) .setCentrifuge(true) .setSpeedOverride(100F), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMetaSolidifierRecipes() .addMetalCraftingSolidifierRecipes() .addMixerRecipes((short) 6), OffsetID + 108, TextureSet.SET_SHINY, new Pair<>(WerkstoffLoader.Ruthenium, 1), new Pair<>(WerkstoffLoader.Rhodium, 1), new Pair<>(Palladium, 1), new Pair<>(Platinum, 1), new Pair<>(Osmium, 1), new Pair<>(Iridium, 1)); public static final Werkstoff enrichedNaquadahAlloy = new Werkstoff( new short[] { 0x16, 0x07, 0x40 }, "Enriched Naquadah Alloy", new Werkstoff.Stats().setBlastFurnace(true) .setMeltingPoint(11000) .setCentrifuge(true) .setSpeedOverride(180F), Werkstoff.Types.MIXTURE, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMixerRecipes((short) 4), OffsetID + 109, TextureSet.SET_METALLIC, new Pair<>(NaquadahEnriched, 8), new Pair<>(Tritanium, 5), new Pair<>(WerkstoffLoader.Californium, 3), new Pair<>(BlackPlutonium, 2)); public static final Werkstoff metastableOganesson = new Werkstoff( new short[] { 0x14, 0x39, 0x7f }, "Metastable Oganesson", "Og*", new Werkstoff.Stats().setBlastFurnace(true) .setProtons(118) .setMass(294) .setMeltingPoint(11000), Werkstoff.Types.ELEMENT, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMetaSolidifierRecipes() .addMetalCraftingSolidifierRecipes(), OffsetID + 110, TextureSet.SET_SHINY); public static final Werkstoff shirabon = new Werkstoff( new short[] { 0xe0, 0x15, 0x6d }, "Shirabon", "Sh" + CharExchanger.shifter(9191), new Werkstoff.Stats().setProtons(500) .setMass(750) .setMeltingPoint(13000) .setSpeedOverride(640.0F) .setDurOverride(15728640) .setQualityOverride((byte) 26), Werkstoff.Types.ELEMENT, new Werkstoff.GenerationFeatures().onlyDust() .addMolten() .addMetalItems() .addCraftingMetalWorkingItems() .addSimpleMetalWorkingItems() .addMultipleIngotMetalWorkingItems() .addMetaSolidifierRecipes() .addMetalCraftingSolidifierRecipes(), OffsetID + 111, TextureSet.SET_SHINY); public static final Werkstoff inertNaquadah = new Werkstoff( new short[] { 0x3b, 0x3b, 0x3b }, "Inert Naquadah", new Werkstoff.Stats(), Werkstoff.Types.MATERIAL, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 112, TextureSet.SET_METALLIC, new Pair<>(Naquadah, 1)); public static final Werkstoff inertEnrichedNaquadah = new Werkstoff( new short[] { 0x61, 0x44, 0x44 }, "Inert Enriched Naquadah", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MATERIAL, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 113, TextureSet.SET_METALLIC, new Pair<>(NaquadahEnriched, 1)); public static final Werkstoff inertNaquadria = new Werkstoff( new short[] { 0x00, 0x00, 0x00 }, "Inert Naquadria", new Werkstoff.Stats().setRadioactive(true), Werkstoff.Types.MATERIAL, new Werkstoff.GenerationFeatures().disable() .onlyDust(), OffsetID + 114, TextureSet.SET_METALLIC, new Pair<>(Naquadria, 1)); @Override public void run() {} }