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package gtPlusPlus.core.material.nuclear;
import gtPlusPlus.core.client.CustomTextureSet.TextureSets;
import gtPlusPlus.core.material.Material;
import gtPlusPlus.core.material.MaterialStack;
import gtPlusPlus.core.material.MaterialsElements;
import gtPlusPlus.core.material.state.MaterialState;
import gtPlusPlus.core.util.data.StringUtils;
public final class MaterialsNuclides {
public static final Material Li2BeF4 = new Material(
"Lithium Tetrafluoroberyllate (LFTB)", // Material Name
MaterialState.LIQUID, // State
TextureSets.NUCLEAR.get(),
null, // Material Colour
566, // Melting Point in C
870, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "Li2BeF4"), // Chemical Formula
4, // Radioactivity Level
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 2),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1));
public static final Material LiFBeF2ThF4UF4 = new Material(
"LFTR Fuel 3", // Material Name
MaterialState.LIQUID, // State
TextureSets.NUCLEAR.get(),
null, // Material Colour
566, // Melting Point in C
870, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2ThF4UF4"), // Chemical Formula
5, // Radioactivity Level
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 65),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 28),
new MaterialStack(MaterialsFluorides.THORIUM_TETRAFLUORIDE, 1),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 1));
public static final Material LiFBeF2ZrF4UF4 = new Material(
"LFTR Fuel 2", // Material Name
MaterialState.LIQUID, // State
TextureSets.NUCLEAR.get(),
null, // Material Colour
650, // Melting Point in C
940, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2ZrF4UF4"), // Chemical Formula
5, // Radioactivity Level
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 65),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 28),
new MaterialStack(MaterialsFluorides.ZIRCONIUM_TETRAFLUORIDE, 5),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 2));
public static final Material LiFBeF2ZrF4U235 = new Material(
"LFTR Fuel 1", // Material Name
MaterialState.LIQUID, // State
TextureSets.NUCLEAR.get(),
null, // Material Colour
590, // Melting Point in C
890, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2ZrF4") + StringUtils.superscript("235U"), // Chemical
// Formula
5, // Radioactivity Level
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 55),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 25),
new MaterialStack(MaterialsFluorides.ZIRCONIUM_TETRAFLUORIDE, 6),
new MaterialStack(MaterialsElements.getInstance().URANIUM235, 14));
// Misc
public static final Material BurntLftrFuel_MK1 = new Material(
"Burnt Reactor Fuel I", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiBeF2UF4FP"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsElements.getInstance().LITHIUM, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 1),
new MaterialStack(MaterialsElements.getInstance().PROTACTINIUM, 1));
public static final Material BurntLftrFuel_MK2 = new Material(
"Burnt Reactor Fuel II", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiBeF2UF4FP"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsElements.getInstance().LITHIUM, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 1),
new MaterialStack(MaterialsElements.getInstance().PROTACTINIUM, 1));
// LFTR Core Fluids
public static final Material LiFBeF2UF4FP = new Material(
"Uranium Depleted Molten Salt (U Salt)", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2UF4FP"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 1),
new MaterialStack(MaterialsElements.getInstance().PROTACTINIUM, 1));
public static final Material Sparged_LiFBeF2UF4FP = new Material(
"Helium Sparged U Salt", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2UF4FP"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 1),
new MaterialStack(MaterialsElements.getInstance().PROTACTINIUM, 1));
public static final Material UF6F2FP = new Material(
"Phosphorous Uranium Hexafluoride (P-UF6)", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript("UF6F2FP"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.URANIUM_HEXAFLUORIDE, 1),
new MaterialStack(MaterialsElements.getInstance().FLUORINE, 3),
new MaterialStack(MaterialsElements.getInstance().PHOSPHORUS, 1));
public static final Material LiFBeF2 = new Material(
"Stable Molten Salt Base", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1));
public static final Material LiFBeF2UF4 = new Material(
"LFTR Fuel Base", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2UF4"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(LiFBeF2, 1),
new MaterialStack(MaterialsFluorides.URANIUM_TETRAFLUORIDE, 1));
// LFTR Blanket Fluids
// Tier 1 Fuel blanket output
public static final Material LiFThF4 = new Material(
"Thorium Depleted Molten Salt (T Salt)", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFThF4"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.THORIUM_TETRAFLUORIDE, 1));
// Tier 2 Fuel blanket output
public static final Material LiFBeF2ThF4 = new Material(
"Thorium-Beryllium Depleted Molten Salt (TB Salt)", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2ThF4"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.THORIUM_TETRAFLUORIDE, 1));
// Tier 1 Fuel blanket output
public static final Material Sparged_LiFThF4 = new Material(
"Fluorine Sparged T Salt", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFThF4"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.THORIUM_TETRAFLUORIDE, 1));
// Tier 2 Fuel blanket output
public static final Material Sparged_LiFBeF2ThF4 = new Material(
"Fluorine Sparged TB Salt", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript(StringUtils.superscript("7") + "LiFBeF2ThF4"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.LITHIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.BERYLLIUM_FLUORIDE, 1),
new MaterialStack(MaterialsFluorides.THORIUM_TETRAFLUORIDE, 1));
public static final Material UF6F2 = new Material(
"Fluorinated Uranium Hexafluoride (F-UF6)", // Material Name
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1, // Neutrons
false, // Uses Blast furnace?
StringUtils.subscript("UF6F2"), // Chemical Formula
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsFluorides.URANIUM_HEXAFLUORIDE, 1),
new MaterialStack(MaterialsElements.getInstance().FLUORINE, 2));
// Secondary material is molten metal
public static final Material NAQ_FUEL_T1 = new Material(
"Naquadah Fuel",
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1,
false, // Uses Blast furnace?
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsElements.getInstance().NAQUADAH, 2),
new MaterialStack(MaterialsElements.getInstance().TANTALUM, 3));
// Secondary material is a plasma
public static final Material NAQ_FUEL_T2 = new Material(
"Enriched Naquadah Fuel",
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1,
false, // Uses Blast furnace?
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsElements.getInstance().NAQUADAH_ENRICHED, 2),
new MaterialStack(MaterialsElements.getInstance().TITANIUM, 3));
// Secondary material is a plasma
public static final Material NAQ_FUEL_T3 = new Material(
"Naquadria Fuel",
MaterialState.PURE_LIQUID, // State
null, // Material Colour
-1, // Melting Point in C
-1, // Boiling Point in C
-1, // Protons
-1,
false, // Uses Blast furnace?
// Material Stacks with Percentage of required elements.
new MaterialStack(MaterialsElements.getInstance().NAQUADRIA, 2),
new MaterialStack(MaterialsElements.getInstance().AMERICIUM, 3));
private static final MaterialsNuclides INSTANCE = new MaterialsNuclides();
public static MaterialsNuclides getInstance() {
return INSTANCE;
}
}
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