diff options
Diffstat (limited to 'src/Java/gtPlusPlus/core/material/ALLOY.java')
| -rw-r--r-- | src/Java/gtPlusPlus/core/material/ALLOY.java | 470 |
1 files changed, 279 insertions, 191 deletions
diff --git a/src/Java/gtPlusPlus/core/material/ALLOY.java b/src/Java/gtPlusPlus/core/material/ALLOY.java index 89ea7ec2ff..56cc6d1343 100644 --- a/src/Java/gtPlusPlus/core/material/ALLOY.java +++ b/src/Java/gtPlusPlus/core/material/ALLOY.java @@ -29,99 +29,88 @@ public final class ALLOY { "Staballoy", //Material Name new short[]{68, 75, 66, 0}, //Material Colour 3450, //Melting Point in C - ((ELEMENT.URANIUM.getBoilingPoint_C()*9)+(ELEMENT.TITANIUM.getBoilingPoint_C()*1))/10, //Boiling Point in C - ((ELEMENT.URANIUM.getProtons()*9)+ELEMENT.TITANIUM.getProtons())/10, //Protons - ((ELEMENT.URANIUM.getNeutrons()*9)+ELEMENT.TITANIUM.getNeutrons())/10, //Neutrons + ((ELEMENT.getInstance().URANIUM.getBoilingPointC()*9)+(ELEMENT.getInstance().TITANIUM.getBoilingPointC()*1))/10, //Boiling Point in C + ((ELEMENT.getInstance().URANIUM.getProtons()*9)+ELEMENT.getInstance().TITANIUM.getProtons())/10, //Protons + ((ELEMENT.getInstance().URANIUM.getNeutrons()*9)+ELEMENT.getInstance().TITANIUM.getNeutrons())/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.URANIUM, 90), - new MaterialStack(ELEMENT.TITANIUM, 10) + new MaterialStack(ELEMENT.getInstance().URANIUM, 9), + new MaterialStack(ELEMENT.getInstance().TITANIUM, 1) }); public static final Material TANTALLOY_60 = new Material( "Tantalloy-60", //Material Name new short[]{213, 231, 237, 0}, //Material Colour 3025, //Melting Point in C - ((ELEMENT.TUNGSTEN.getBoilingPoint_C()*1)+(ELEMENT.TANTALUM.getBoilingPoint_C()*8)+(ELEMENT.TITANIUM.getBoilingPoint_C()*1))/10, //Boiling Point in C - ((ELEMENT.TUNGSTEN.getProtons()*1)+(ELEMENT.TANTALUM.getProtons()*8)+(ELEMENT.TITANIUM.getProtons()*1))/10, //Protons - ((ELEMENT.TUNGSTEN.getNeutrons()*1)+(ELEMENT.TANTALUM.getNeutrons()*8)+(ELEMENT.TITANIUM.getNeutrons()*1))/10, //Neutrons + ((ELEMENT.getInstance().TUNGSTEN.getBoilingPointC()*1)+(ELEMENT.getInstance().TANTALUM.getBoilingPointC()*8)+(ELEMENT.getInstance().TITANIUM.getBoilingPointC()*1))/10, //Boiling Point in C + ((ELEMENT.getInstance().TUNGSTEN.getProtons()*1)+(ELEMENT.getInstance().TANTALUM.getProtons()*8)+(ELEMENT.getInstance().TITANIUM.getProtons()*1))/10, //Protons + ((ELEMENT.getInstance().TUNGSTEN.getNeutrons()*1)+(ELEMENT.getInstance().TANTALUM.getNeutrons()*8)+(ELEMENT.getInstance().TITANIUM.getNeutrons()*1))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.TUNGSTEN, 7), - new MaterialStack(ELEMENT.TANTALUM, 90), - new MaterialStack(ELEMENT.TANTALUM, 2) + new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), + new MaterialStack(ELEMENT.getInstance().TANTALUM, 46) }); public static final Material TANTALLOY_61 = new Material( "Tantalloy-61", //Material Name new short[]{193, 211, 217, 0}, //Material Colour 3030, //Melting Point in C - ((ELEMENT.TUNGSTEN.getBoilingPoint_C()*1)+(ELEMENT.TANTALUM.getBoilingPoint_C()*7)+(ELEMENT.TITANIUM.getBoilingPoint_C()*1)+(ELEMENT.YTTRIUM.getBoilingPoint_C()*1))/10, //Boiling Point in C - ((ELEMENT.TUNGSTEN.getProtons()*1)+(ELEMENT.TANTALUM.getProtons()*7)+(ELEMENT.TITANIUM.getProtons()*1)+(ELEMENT.YTTRIUM.getProtons()*1))/10, //Protons - ((ELEMENT.TUNGSTEN.getNeutrons()*1)+(ELEMENT.TANTALUM.getNeutrons()*7)+(ELEMENT.TITANIUM.getNeutrons()*1)+(ELEMENT.YTTRIUM.getNeutrons()*1))/10, //Neutrons + ((ELEMENT.getInstance().TUNGSTEN.getBoilingPointC()*1)+(ELEMENT.getInstance().TANTALUM.getBoilingPointC()*7)+(ELEMENT.getInstance().TITANIUM.getBoilingPointC()*1)+(ELEMENT.getInstance().YTTRIUM.getBoilingPointC()*1))/10, //Boiling Point in C + ((ELEMENT.getInstance().TUNGSTEN.getProtons()*1)+(ELEMENT.getInstance().TANTALUM.getProtons()*7)+(ELEMENT.getInstance().TITANIUM.getProtons()*1)+(ELEMENT.getInstance().YTTRIUM.getProtons()*1))/10, //Protons + ((ELEMENT.getInstance().TUNGSTEN.getNeutrons()*1)+(ELEMENT.getInstance().TANTALUM.getNeutrons()*7)+(ELEMENT.getInstance().TITANIUM.getNeutrons()*1)+(ELEMENT.getInstance().YTTRIUM.getNeutrons()*1))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.TUNGSTEN, 10), - new MaterialStack(ELEMENT.TANTALUM, 70), - new MaterialStack(ELEMENT.TITANIUM, 10), - new MaterialStack(ELEMENT.YTTRIUM, 10) + new MaterialStack(ALLOY.TANTALLOY_60, 2), + new MaterialStack(ELEMENT.getInstance().TITANIUM, 12), + new MaterialStack(ELEMENT.getInstance().YTTRIUM, 8) }); - public static final Material QUANTUM = new Material( - "Quantum", //Material Name - new short[]{128, 128, 128, 0}, //Material Colour - 9999, //Melting Point in C - 0, //Boiling Point in C - 100, //Protons - 100, //Neutrons - true, //Uses Blast furnace? - //Material Stacks with Percentage of required elements. - null); - public static final Material BRONZE = new Material( "Bronze", //Material Name new short[]{128, 128, 128, 0}, //Material Colour - ((ELEMENT.TIN.getMeltingPoint_C()*1)+(ELEMENT.COPPER.getMeltingPoint_C()*3))/4, //Melting point in C - ((ELEMENT.TIN.getBoilingPoint_C()*1)+(ELEMENT.COPPER.getBoilingPoint_C()*3))/4, //Boiling Point in C - ((ELEMENT.TIN.getProtons()*1)+(ELEMENT.COPPER.getProtons()*3))/4, //Protons - ((ELEMENT.TIN.getNeutrons()*1)+(ELEMENT.COPPER.getNeutrons()*3))/4, //Neutrons + ((ELEMENT.getInstance().TIN.getMeltingPointC()*1)+(ELEMENT.getInstance().COPPER.getMeltingPointC()*3))/4, //Melting point in C + ((ELEMENT.getInstance().TIN.getBoilingPointC()*1)+(ELEMENT.getInstance().COPPER.getBoilingPointC()*3))/4, //Boiling Point in C + ((ELEMENT.getInstance().TIN.getProtons()*1)+(ELEMENT.getInstance().COPPER.getProtons()*3))/4, //Protons + ((ELEMENT.getInstance().TIN.getNeutrons()*1)+(ELEMENT.getInstance().COPPER.getNeutrons()*3))/4, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.COPPER, 75), - new MaterialStack(ELEMENT.TIN, 25) + new MaterialStack(ELEMENT.getInstance().COPPER, 35), + new MaterialStack(ELEMENT.getInstance().COPPER, 40), + new MaterialStack(ELEMENT.getInstance().TIN, 25) }); public static final Material TUMBAGA = new Material( "Tumbaga", //Material Name new short[]{255,178,15, 0}, //Material Colour - ((ELEMENT.GOLD.getMeltingPoint_C()*7)+(ELEMENT.COPPER.getMeltingPoint_C()*3))/10, //Melting point in C - ((ELEMENT.GOLD.getBoilingPoint_C()*7)+(ELEMENT.COPPER.getBoilingPoint_C()*3))/10, //Boiling Point in C - ((ELEMENT.GOLD.getProtons()*7)+(ELEMENT.COPPER.getProtons()*3))/10, //Protons - ((ELEMENT.GOLD.getNeutrons()*7)+(ELEMENT.COPPER.getNeutrons()*3))/10, //Neutrons + ((ELEMENT.getInstance().GOLD.getMeltingPointC()*7)+(ELEMENT.getInstance().COPPER.getMeltingPointC()*3))/10, //Melting point in C + ((ELEMENT.getInstance().GOLD.getBoilingPointC()*7)+(ELEMENT.getInstance().COPPER.getBoilingPointC()*3))/10, //Boiling Point in C + ((ELEMENT.getInstance().GOLD.getProtons()*7)+(ELEMENT.getInstance().COPPER.getProtons()*3))/10, //Protons + ((ELEMENT.getInstance().GOLD.getNeutrons()*7)+(ELEMENT.getInstance().COPPER.getNeutrons()*3))/10, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.GOLD, 70), - new MaterialStack(ELEMENT.COPPER, 30) + new MaterialStack(ELEMENT.getInstance().GOLD, 30), + new MaterialStack(ELEMENT.getInstance().GOLD, 40), + new MaterialStack(ELEMENT.getInstance().COPPER, 30) }); public static final Material POTIN = new Material( "Potin", //Material Name new short[]{201,151,129, 0}, //Material Colour - ((ELEMENT.LEAD.getMeltingPoint_C()*4)+(ALLOY.BRONZE.getMeltingPoint_C()*4)+(ELEMENT.TIN.getMeltingPoint_C()*2))/10, //Melting point in C - ((ELEMENT.LEAD.getBoilingPoint_C()*4)+(ALLOY.BRONZE.getBoilingPoint_C()*4)+(ELEMENT.TIN.getBoilingPoint_C()*2))/10, //Boiling Point in C - ((ELEMENT.LEAD.getProtons()*4)+(ALLOY.BRONZE.getProtons()*4)+(ELEMENT.TIN.getProtons()*2))/10, //Protons - ((ELEMENT.LEAD.getNeutrons()*4)+(ALLOY.BRONZE.getNeutrons()*4)+(ELEMENT.TIN.getNeutrons()*2))/10, //Neutrons + ((ELEMENT.getInstance().LEAD.getMeltingPointC()*4)+(ALLOY.BRONZE.getMeltingPointC()*4)+(ELEMENT.getInstance().TIN.getMeltingPointC()*2))/10, //Melting point in C + ((ELEMENT.getInstance().LEAD.getBoilingPointC()*4)+(ALLOY.BRONZE.getBoilingPointC()*4)+(ELEMENT.getInstance().TIN.getBoilingPointC()*2))/10, //Boiling Point in C + ((ELEMENT.getInstance().LEAD.getProtons()*4)+(ALLOY.BRONZE.getProtons()*4)+(ELEMENT.getInstance().TIN.getProtons()*2))/10, //Protons + ((ELEMENT.getInstance().LEAD.getNeutrons()*4)+(ALLOY.BRONZE.getNeutrons()*4)+(ELEMENT.getInstance().TIN.getNeutrons()*2))/10, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.LEAD, 40), + new MaterialStack(ELEMENT.getInstance().LEAD, 40), new MaterialStack(ALLOY.BRONZE, 40), - new MaterialStack(ELEMENT.TIN, 20) + new MaterialStack(ELEMENT.getInstance().TIN, 20) }); public static final Material BEDROCKIUM = new Material( @@ -139,341 +128,440 @@ public final class ALLOY { "Inconel-625", //Material Name new short[]{128, 200, 128, 0}, //Material Colour 1425, //Melting Point in C - ((ELEMENT.NICKEL.getBoilingPoint_C()*6)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*2)+(ELEMENT.IRON.getBoilingPoint_C()*1)+(ELEMENT.MOLYBDENUM.getBoilingPoint_C()*1))/10, //Boiling Point in C - ((ELEMENT.NICKEL.getProtons()*6)+(ELEMENT.CHROMIUM.getProtons()*2)+(ELEMENT.IRON.getProtons()*1)+(ELEMENT.MOLYBDENUM.getProtons()*1))/10, //Protons - ((ELEMENT.NICKEL.getNeutrons()*6)+(ELEMENT.CHROMIUM.getNeutrons()*2)+(ELEMENT.IRON.getNeutrons()*1)+(ELEMENT.MOLYBDENUM.getNeutrons()*1))/10, //Neutrons + ((ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*2)+(ELEMENT.getInstance().IRON.getBoilingPointC()*1)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*1))/10, //Boiling Point in C + ((ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().CHROMIUM.getProtons()*2)+(ELEMENT.getInstance().IRON.getProtons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*1))/10, //Protons + ((ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*2)+(ELEMENT.getInstance().IRON.getNeutrons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*1))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.NICKEL, 60), - new MaterialStack(ELEMENT.CHROMIUM, 20), - new MaterialStack(ELEMENT.IRON, 10), - new MaterialStack(ELEMENT.MOLYBDENUM, 10) + new MaterialStack(ELEMENT.getInstance().NICKEL, 60), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), + new MaterialStack(ELEMENT.getInstance().IRON, 10), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10) }); public static final Material INCONEL_690 = new Material( "Inconel-690", //Material Name new short[]{118, 220, 138, 0}, //Material Colour 1425, //Melting Point in C - ((ELEMENT.NICKEL.getBoilingPoint_C()*6)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*2)+(ELEMENT.NIOBIUM.getBoilingPoint_C()*1)+(ELEMENT.MOLYBDENUM.getBoilingPoint_C()*1))/10, //Boiling Point in C - ((ELEMENT.NICKEL.getProtons()*6)+(ELEMENT.CHROMIUM.getProtons()*2)+(ELEMENT.NIOBIUM.getProtons()*1)+(ELEMENT.MOLYBDENUM.getProtons()*1))/10, //Protons - ((ELEMENT.NICKEL.getNeutrons()*6)+(ELEMENT.CHROMIUM.getNeutrons()*2)+(ELEMENT.NIOBIUM.getNeutrons()*1)+(ELEMENT.MOLYBDENUM.getNeutrons()*1))/10, //Neutrons + ((ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*2)+(ELEMENT.getInstance().NIOBIUM.getBoilingPointC()*1)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*1))/10, //Boiling Point in C + ((ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().CHROMIUM.getProtons()*2)+(ELEMENT.getInstance().NIOBIUM.getProtons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*1))/10, //Protons + ((ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*2)+(ELEMENT.getInstance().NIOBIUM.getNeutrons()*1)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*1))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.NICKEL, 60), - new MaterialStack(ELEMENT.CHROMIUM, 20), - new MaterialStack(ELEMENT.NIOBIUM, 10), - new MaterialStack(ELEMENT.MOLYBDENUM, 10) + new MaterialStack(ELEMENT.getInstance().NICKEL, 60), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), + new MaterialStack(ELEMENT.getInstance().NIOBIUM, 10), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10) }); public static final Material INCONEL_792 = new Material( "Inconel-792", //Material Name new short[]{108, 240, 118, 0}, //Material Colour 1425, //Melting Point in C - ((ELEMENT.NICKEL.getBoilingPoint_C()*6)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*1)+(ELEMENT.IRON.getBoilingPoint_C()*1)+(ELEMENT.ALUMINIUM.getBoilingPoint_C()*2))/10, //Boiling Point in C - ((ELEMENT.NICKEL.getProtons()*6)+(ELEMENT.CHROMIUM.getProtons()*1)+(ELEMENT.IRON.getProtons()*1)+(ELEMENT.ALUMINIUM.getProtons()*2))/10, //Protons - ((ELEMENT.NICKEL.getNeutrons()*6)+(ELEMENT.CHROMIUM.getNeutrons()*1)+(ELEMENT.IRON.getNeutrons()*1)+(ELEMENT.ALUMINIUM.getNeutrons()*2))/10, //Neutrons + ((ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*1)+(ELEMENT.getInstance().IRON.getBoilingPointC()*1)+(ELEMENT.getInstance().ALUMINIUM.getBoilingPointC()*2))/10, //Boiling Point in C + ((ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().CHROMIUM.getProtons()*1)+(ELEMENT.getInstance().IRON.getProtons()*1)+(ELEMENT.getInstance().ALUMINIUM.getProtons()*2))/10, //Protons + ((ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*1)+(ELEMENT.getInstance().IRON.getNeutrons()*1)+(ELEMENT.getInstance().ALUMINIUM.getNeutrons()*2))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.NICKEL, 60), - new MaterialStack(ELEMENT.CHROMIUM, 10), - new MaterialStack(ELEMENT.NIOBIUM, 10), - new MaterialStack(ELEMENT.ALUMINIUM, 20) + new MaterialStack(ELEMENT.getInstance().NICKEL, 60), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 10), + new MaterialStack(ELEMENT.getInstance().NIOBIUM, 10), + new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 20) }); public static final Material STEEL = new Material( "Steel", //Material Name new short[]{180, 180, 20, 0}, //Material Colour - ((ELEMENT.CARBON.getMeltingPoint_C()*5)+(ELEMENT.IRON.getMeltingPoint_C()*95))/100, //Melting point in C - ((ELEMENT.CARBON.getBoilingPoint_C()*5)+(ELEMENT.IRON.getBoilingPoint_C()*95))/100, //Boiling Point in C - ((ELEMENT.CARBON.getProtons()*5)+(ELEMENT.IRON.getProtons()*95))/100, //Protons - ((ELEMENT.CARBON.getNeutrons()*5)+(ELEMENT.IRON.getNeutrons()*95))/100, //Neutrons + ((ELEMENT.getInstance().CARBON.getMeltingPointC()*5)+(ELEMENT.getInstance().IRON.getMeltingPointC()*95))/100, //Melting point in C + ((ELEMENT.getInstance().CARBON.getBoilingPointC()*5)+(ELEMENT.getInstance().IRON.getBoilingPointC()*95))/100, //Boiling Point in C + ((ELEMENT.getInstance().CARBON.getProtons()*5)+(ELEMENT.getInstance().IRON.getProtons()*95))/100, //Protons + ((ELEMENT.getInstance().CARBON.getNeutrons()*5)+(ELEMENT.getInstance().IRON.getNeutrons()*95))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CARBON, 05), - new MaterialStack(ELEMENT.IRON, 95) + new MaterialStack(ELEMENT.getInstance().CARBON, 10), + new MaterialStack(ELEMENT.getInstance().IRON, 30), + new MaterialStack(ELEMENT.getInstance().IRON, 30), + new MaterialStack(ELEMENT.getInstance().IRON, 30) }); public static final Material ZERON_100 = new Material( "Zeron-100", //Material Name new short[]{180, 180, 20, 0}, //Material Colour - ((ELEMENT.CHROMIUM.getMeltingPoint_C()*25)+(ELEMENT.NICKEL.getMeltingPoint_C()*6)+(ELEMENT.COBALT.getMeltingPoint_C()*9)+(ALLOY.STEEL.getMeltingPoint_C()*60))/100, //Melting Point in C - ((ELEMENT.CHROMIUM.getBoilingPoint_C()*25)+(ELEMENT.NICKEL.getBoilingPoint_C()*6)+(ELEMENT.COBALT.getBoilingPoint_C()*9)+(ALLOY.STEEL.getBoilingPoint_C()*60))/100, //Boiling Point in C - ((ELEMENT.CHROMIUM.getProtons()*25)+(ELEMENT.NICKEL.getProtons()*6)+(ELEMENT.COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*60))/100, //Protons - ((ELEMENT.CHROMIUM.getNeutrons()*25)+(ELEMENT.NICKEL.getNeutrons()*6)+(ELEMENT.COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*60))/100, //Neutrons + ((ELEMENT.getInstance().CHROMIUM.getMeltingPointC()*25)+(ELEMENT.getInstance().NICKEL.getMeltingPointC()*6)+(ELEMENT.getInstance().COBALT.getMeltingPointC()*9)+(ALLOY.STEEL.getMeltingPointC()*60))/100, //Melting Point in C + ((ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*25)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*6)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*9)+(ALLOY.STEEL.getBoilingPointC()*60))/100, //Boiling Point in C + ((ELEMENT.getInstance().CHROMIUM.getProtons()*25)+(ELEMENT.getInstance().NICKEL.getProtons()*6)+(ELEMENT.getInstance().COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*60))/100, //Protons + ((ELEMENT.getInstance().CHROMIUM.getNeutrons()*25)+(ELEMENT.getInstance().NICKEL.getNeutrons()*6)+(ELEMENT.getInstance().COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*60))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CHROMIUM, 25), - new MaterialStack(ELEMENT.NICKEL, 6), - new MaterialStack(ELEMENT.COBALT, 9), - new MaterialStack(ALLOY.STEEL, 60) + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 26), + new MaterialStack(ELEMENT.getInstance().NICKEL, 6), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), + new MaterialStack(ELEMENT.getInstance().COPPER, 20), + new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 4), + new MaterialStack(ALLOY.STEEL, 40) }); public static final Material MARAGING250 = new Material( "Maraging Steel 250", //Material Name new short[]{140, 140, 140, 0}, //Material Colour 1413, //Melting Point in C - ((ELEMENT.TITANIUM.getBoilingPoint_C()*5)+(ELEMENT.NICKEL.getBoilingPoint_C()*16)+(ELEMENT.COBALT.getBoilingPoint_C()*9)+(ALLOY.STEEL.getBoilingPoint_C()*70))/100, //Boiling Point in C - ((ELEMENT.TITANIUM.getProtons()*5)+(ELEMENT.NICKEL.getProtons()*16)+(ELEMENT.COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*70))/100, //Protons - ((ELEMENT.TITANIUM.getNeutrons()*5)+(ELEMENT.NICKEL.getNeutrons()*16)+(ELEMENT.COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*70))/100, //Neutrons + ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*16)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*9)+(ALLOY.STEEL.getBoilingPointC()*70))/100, //Boiling Point in C + ((ELEMENT.getInstance().TITANIUM.getProtons()*5)+(ELEMENT.getInstance().NICKEL.getProtons()*16)+(ELEMENT.getInstance().COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*70))/100, //Protons + ((ELEMENT.getInstance().TITANIUM.getNeutrons()*5)+(ELEMENT.getInstance().NICKEL.getNeutrons()*16)+(ELEMENT.getInstance().COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*70))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.TITANIUM, 5), - new MaterialStack(ELEMENT.NICKEL, 16), - new MaterialStack(ELEMENT.COBALT, 9), - new MaterialStack(ALLOY.STEEL, 70) + new MaterialStack(ALLOY.STEEL, 64), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), + new MaterialStack(ELEMENT.getInstance().TITANIUM, 4), + new MaterialStack(ELEMENT.getInstance().NICKEL, 16), + new MaterialStack(ELEMENT.getInstance().COBALT, 8), }); public static final Material MARAGING300 = new Material( "Maraging Steel 300", //Material Name new short[]{150, 150, 150, 0}, //Material Colour 1413, //Melting Point in C - ((ELEMENT.TITANIUM.getBoilingPoint_C()*10)+(ELEMENT.NICKEL.getBoilingPoint_C()*21)+(ELEMENT.COBALT.getBoilingPoint_C()*14)+(ALLOY.STEEL.getBoilingPoint_C()*55))/100, //Boiling Point in C - ((ELEMENT.TITANIUM.getProtons()*10)+(ELEMENT.NICKEL.getProtons()*21)+(ELEMENT.COBALT.getProtons()*14)+(ALLOY.STEEL.getProtons()*55))/100, //Protons - ((ELEMENT.TITANIUM.getNeutrons()*10)+(ELEMENT.NICKEL.getNeutrons()*21)+(ELEMENT.COBALT.getNeutrons()*14)+(ALLOY.STEEL.getNeutrons()*55))/100, //Neutrons + ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*10)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*21)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*14)+(ALLOY.STEEL.getBoilingPointC()*55))/100, //Boiling Point in C + ((ELEMENT.getInstance().TITANIUM.getProtons()*10)+(ELEMENT.getInstance().NICKEL.getProtons()*21)+(ELEMENT.getInstance().COBALT.getProtons()*14)+(ALLOY.STEEL.getProtons()*55))/100, //Protons + ((ELEMENT.getInstance().TITANIUM.getNeutrons()*10)+(ELEMENT.getInstance().NICKEL.getNeutrons()*21)+(ELEMENT.getInstance().COBALT.getNeutrons()*14)+(ALLOY.STEEL.getNeutrons()*55))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.TITANIUM, 10), - new MaterialStack(ELEMENT.NICKEL, 21), - new MaterialStack(ELEMENT.COBALT, 14), - new MaterialStack(ALLOY.STEEL, 55) + new MaterialStack(ALLOY.STEEL, 64), + new MaterialStack(ELEMENT.getInstance().TITANIUM, 4), + new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 4), + new MaterialStack(ELEMENT.getInstance().NICKEL, 16), + new MaterialStack(ELEMENT.getInstance().COBALT, 8), }); public static final Material MARAGING350 = new Material( "Maraging Steel 350", //Material Name new short[]{160, 160, 160, 0}, //Material Colour 1413, //Melting Point in C - ((ELEMENT.TITANIUM.getBoilingPoint_C()*15)+(ELEMENT.NICKEL.getBoilingPoint_C()*21)+(ELEMENT.COBALT.getBoilingPoint_C()*9)+(ALLOY.STEEL.getBoilingPoint_C()*55))/100, //Boiling Point in C - ((ELEMENT.TITANIUM.getProtons()*15)+(ELEMENT.NICKEL.getProtons()*21)+(ELEMENT.COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*55))/100, //Protons - ((ELEMENT.TITANIUM.getNeutrons()*15)+(ELEMENT.NICKEL.getNeutrons()*21)+(ELEMENT.COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*55))/100, //Neutrons + ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*15)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*21)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*9)+(ALLOY.STEEL.getBoilingPointC()*55))/100, //Boiling Point in C + ((ELEMENT.getInstance().TITANIUM.getProtons()*15)+(ELEMENT.getInstance().NICKEL.getProtons()*21)+(ELEMENT.getInstance().COBALT.getProtons()*9)+(ALLOY.STEEL.getProtons()*55))/100, //Protons + ((ELEMENT.getInstance().TITANIUM.getNeutrons()*15)+(ELEMENT.getInstance().NICKEL.getNeutrons()*21)+(ELEMENT.getInstance().COBALT.getNeutrons()*9)+(ALLOY.STEEL.getNeutrons()*55))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.TITANIUM, 15), - new MaterialStack(ELEMENT.NICKEL, 21), - new MaterialStack(ELEMENT.COBALT, 9), - new MaterialStack(ALLOY.STEEL, 55) + new MaterialStack(ALLOY.STEEL, 64), + new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 4), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 4), + new MaterialStack(ELEMENT.getInstance().NICKEL, 16), + new MaterialStack(ELEMENT.getInstance().COBALT, 8), }); public static final Material STELLITE = new Material( "Stellite", //Material Name new short[]{129, 75, 120, 0}, //Material Colour 1310, //Melting Point in C - ((ELEMENT.TITANIUM.getBoilingPoint_C()*10)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*35)+(ELEMENT.COBALT.getBoilingPoint_C()*35)+(ELEMENT.MANGANESE.getBoilingPoint_C()*20))/100, //Boiling Point in C - ((ELEMENT.TITANIUM.getProtons()*10)+(ELEMENT.CHROMIUM.getProtons()*35)+(ELEMENT.COBALT.getProtons()*35)+(ELEMENT.MANGANESE.getProtons()*20))/100, //Protons - ((ELEMENT.TITANIUM.getNeutrons()*10)+(ELEMENT.CHROMIUM.getNeutrons()*35)+(ELEMENT.COBALT.getNeutrons()*35)+(ELEMENT.MANGANESE.getNeutrons()*20))/100, //Neutrons + ((ELEMENT.getInstance().TITANIUM.getBoilingPointC()*10)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*35)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*35)+(ELEMENT.getInstance().MANGANESE.getBoilingPointC()*20))/100, //Boiling Point in C + ((ELEMENT.getInstance().TITANIUM.getProtons()*10)+(ELEMENT.getInstance().CHROMIUM.getProtons()*35)+(ELEMENT.getInstance().COBALT.getProtons()*35)+(ELEMENT.getInstance().MANGANESE.getProtons()*20))/100, //Protons + ((ELEMENT.getInstance().TITANIUM.getNeutrons()*10)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*35)+(ELEMENT.getInstance().COBALT.getNeutrons()*35)+(ELEMENT.getInstance().MANGANESE.getNeutrons()*20))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.COBALT, 35), - new MaterialStack(ELEMENT.CHROMIUM, 35), - new MaterialStack(ELEMENT.MANGANESE, 20), - new MaterialStack(ELEMENT.TITANIUM, 10) + new MaterialStack(ELEMENT.getInstance().COBALT, 35), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 35), + new MaterialStack(ELEMENT.getInstance().MANGANESE, 20), + new MaterialStack(ELEMENT.getInstance().TITANIUM, 10) }); public static final Material TALONITE = new Material( "Talonite", //Material Name new short[]{228, 75, 120, 0}, //Material Colour 1454, //Melting Point in C - ((ELEMENT.MOLYBDENUM.getBoilingPoint_C()*10)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*30)+(ELEMENT.COBALT.getBoilingPoint_C()*40)+(ELEMENT.PHOSPHORUS.getBoilingPoint_C()*20))/100, //Boiling Point in C - ((ELEMENT.MOLYBDENUM.getProtons()*10)+(ELEMENT.CHROMIUM.getProtons()*30)+(ELEMENT.COBALT.getProtons()*40)+(ELEMENT.PHOSPHORUS.getProtons()*20))/100, //Protons - ((ELEMENT.MOLYBDENUM.getNeutrons()*10)+(ELEMENT.CHROMIUM.getNeutrons()*30)+(ELEMENT.COBALT.getNeutrons()*40)+(ELEMENT.PHOSPHORUS.getNeutrons()*20))/100, //Neutrons + ((ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*10)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*30)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*40)+(ELEMENT.getInstance().PHOSPHORUS.getBoilingPointC()*20))/100, //Boiling Point in C + ((ELEMENT.getInstance().MOLYBDENUM.getProtons()*10)+(ELEMENT.getInstance().CHROMIUM.getProtons()*30)+(ELEMENT.getInstance().COBALT.getProtons()*40)+(ELEMENT.getInstance().PHOSPHORUS.getProtons()*20))/100, //Protons + ((ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*10)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*30)+(ELEMENT.getInstance().COBALT.getNeutrons()*40)+(ELEMENT.getInstance().PHOSPHORUS.getNeutrons()*20))/100, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.COBALT, 40), - new MaterialStack(ELEMENT.CHROMIUM, 30), - new MaterialStack(ELEMENT.PHOSPHORUS, 20), - new MaterialStack(ELEMENT.MOLYBDENUM, 10) + new MaterialStack(ELEMENT.getInstance().COBALT, 40), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 30), + new MaterialStack(ELEMENT.getInstance().PHOSPHORUS, 20), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 10) }); public static final Material HASTELLOY_W = new Material( "Hastelloy-W", //Material Name new short[]{218, 165, 32, 0}, //Material Colour 1350, //Melting Point in C - ((ELEMENT.IRON.getBoilingPoint_C()*6)+(ELEMENT.MOLYBDENUM.getBoilingPoint_C()*24)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*5)+(ELEMENT.NICKEL.getBoilingPoint_C()*65))/100, //Boiling Point in C - ((ELEMENT.IRON.getProtons()*6)+(ELEMENT.MOLYBDENUM.getProtons()*24)+(ELEMENT.CHROMIUM.getProtons()*5)+(ELEMENT.NICKEL.getProtons()*65))/100, //Protons - ((ELEMENT.IRON.getNeutrons()*6)+(ELEMENT.MOLYBDENUM.getNeutrons()*24)+(ELEMENT.CHROMIUM.getNeutrons()*5)+(ELEMENT.NICKEL.getNeutrons()*65))/100, //Neutrons + ((ELEMENT.getInstance().IRON.getBoilingPointC()*6)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*24)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*65))/100, //Boiling Point in C + ((ELEMENT.getInstance().IRON.getProtons()*6)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*24)+(ELEMENT.getInstance().CHROMIUM.getProtons()*5)+(ELEMENT.getInstance().NICKEL.getProtons()*65))/100, //Protons + ((ELEMENT.getInstance().IRON.getNeutrons()*6)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*24)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*5)+(ELEMENT.getInstance().NICKEL.getNeutrons()*65))/100, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.IRON, 06), - new MaterialStack(ELEMENT.MOLYBDENUM, 24), - new MaterialStack(ELEMENT.CHROMIUM, 5), - new MaterialStack(ELEMENT.NICKEL, 65) + new MaterialStack(ELEMENT.getInstance().IRON, 06), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 24), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 8), + new MaterialStack(ELEMENT.getInstance().NICKEL, 62) }); + /*public static final Material HASTELLOY_X = new Material( + "Hastelloy-X", //Material Name + new short[]{255, 193, 37, 0}, //Material Colour + 1350, //Melting Point in C + ((ELEMENT.getInstance().IRON.getBoilingPoint_C()*18)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPoint_C()*9)+(ELEMENT.getInstance().CHROMIUM.getBoilingPoint_C()*22)+(ELEMENT.getInstance().NICKEL.getBoilingPoint_C()*51))/100, //Boiling Point in C + ((ELEMENT.getInstance().IRON.getProtons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*9)+(ELEMENT.getInstance().CHROMIUM.getProtons()*22)+(ELEMENT.getInstance().NICKEL.getProtons()*51))/100, //Protons + ((ELEMENT.getInstance().IRON.getNeutrons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*9)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*22)+(ELEMENT.getInstance().NICKEL.getNeutrons()*51))/100, //Neutrons + false, //Uses Blast furnace? + //Material Stacks with Percentage of required elements. + new MaterialStack[]{ + new MaterialStack(ELEMENT.getInstance().IRON, 18), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 9), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 22), + new MaterialStack(ELEMENT.getInstance().NICKEL, 51) + });*/ + public static final Material HASTELLOY_X = new Material( "Hastelloy-X", //Material Name new short[]{255, 193, 37, 0}, //Material Colour 1350, //Melting Point in C - ((ELEMENT.IRON.getBoilingPoint_C()*18)+(ELEMENT.MOLYBDENUM.getBoilingPoint_C()*9)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*22)+(ELEMENT.NICKEL.getBoilingPoint_C()*51))/100, //Boiling Point in C - ((ELEMENT.IRON.getProtons()*18)+(ELEMENT.MOLYBDENUM.getProtons()*9)+(ELEMENT.CHROMIUM.getProtons()*22)+(ELEMENT.NICKEL.getProtons()*51))/100, //Protons - ((ELEMENT.IRON.getNeutrons()*18)+(ELEMENT.MOLYBDENUM.getNeutrons()*9)+(ELEMENT.CHROMIUM.getNeutrons()*22)+(ELEMENT.NICKEL.getNeutrons()*51))/100, //Neutrons + ((ELEMENT.getInstance().IRON.getBoilingPointC()*18)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*9)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*22)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*51))/100, //Boiling Point in C + ((ELEMENT.getInstance().IRON.getProtons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*9)+(ELEMENT.getInstance().CHROMIUM.getProtons()*22)+(ELEMENT.getInstance().NICKEL.getProtons()*51))/100, //Protons + ((ELEMENT.getInstance().IRON.getNeutrons()*18)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*9)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*22)+(ELEMENT.getInstance().NICKEL.getNeutrons()*51))/100, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.IRON, 18), - new MaterialStack(ELEMENT.MOLYBDENUM, 9), - new MaterialStack(ELEMENT.CHROMIUM, 22), - new MaterialStack(ELEMENT.NICKEL, 51) + new MaterialStack(ELEMENT.getInstance().IRON, 18), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 9), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 22), + new MaterialStack(ELEMENT.getInstance().NICKEL, 51) }); public static final Material HASTELLOY_N = new Material( "Hastelloy-N", //Material Name new short[]{236, 213, 48, 0}, //Material Colour 1350, //Melting Point in C - ((ELEMENT.YTTRIUM.getBoilingPoint_C()*5)+(ELEMENT.MOLYBDENUM.getBoilingPoint_C()*16)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*7)+(ELEMENT.NICKEL.getBoilingPoint_C()*72))/100, //Boiling Point in C - ((ELEMENT.YTTRIUM.getProtons()*5)+(ELEMENT.MOLYBDENUM.getProtons()*16)+(ELEMENT.CHROMIUM.getProtons()*7)+(ELEMENT.NICKEL.getProtons()*72))/100, //Protons - ((ELEMENT.YTTRIUM.getNeutrons()*5)+(ELEMENT.MOLYBDENUM.getNeutrons()*16)+(ELEMENT.CHROMIUM.getNeutrons()*7)+(ELEMENT.NICKEL.getNeutrons()*72))/100, //Neutrons + ((ELEMENT.getInstance().YTTRIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*16)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*7)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*72))/100, //Boiling Point in C + ((ELEMENT.getInstance().YTTRIUM.getProtons()*5)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*16)+(ELEMENT.getInstance().CHROMIUM.getProtons()*7)+(ELEMENT.getInstance().NICKEL.getProtons()*72))/100, //Protons + ((ELEMENT.getInstance().YTTRIUM.getNeutrons()*5)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*16)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*7)+(ELEMENT.getInstance().NICKEL.getNeutrons()*72))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.YTTRIUM, 05), - new MaterialStack(ELEMENT.MOLYBDENUM, 16), - new MaterialStack(ELEMENT.CHROMIUM, 7), - new MaterialStack(ELEMENT.NICKEL, 72) + new MaterialStack(ELEMENT.getInstance().YTTRIUM, 10), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 16), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 10), + new MaterialStack(ELEMENT.getInstance().NICKEL, 64) }); public static final Material HASTELLOY_C276 = new Material( "Hastelloy-C276", //Material Name new short[]{238, 180, 34, 0}, //Material Colour 1350, //Melting Point in C - ((ELEMENT.COBALT.getBoilingPoint_C()*2)+(ELEMENT.MOLYBDENUM.getBoilingPoint_C()*16)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*16)+(ELEMENT.NICKEL.getBoilingPoint_C()*66))/100, //Boiling Point in C - ((ELEMENT.COBALT.getProtons()*2)+(ELEMENT.MOLYBDENUM.getProtons()*16)+(ELEMENT.CHROMIUM.getProtons()*16)+(ELEMENT.NICKEL.getProtons()*66))/100, //Protons - ((ELEMENT.COBALT.getNeutrons()*2)+(ELEMENT.MOLYBDENUM.getNeutrons()*16)+(ELEMENT.CHROMIUM.getNeutrons()*16)+(ELEMENT.NICKEL.getNeutrons()*66))/100, //Neutrons + ((ELEMENT.getInstance().COBALT.getBoilingPointC()*2)+(ELEMENT.getInstance().MOLYBDENUM.getBoilingPointC()*16)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*16)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*66))/100, //Boiling Point in C + ((ELEMENT.getInstance().COBALT.getProtons()*2)+(ELEMENT.getInstance().MOLYBDENUM.getProtons()*16)+(ELEMENT.getInstance().CHROMIUM.getProtons()*16)+(ELEMENT.getInstance().NICKEL.getProtons()*66))/100, //Protons + ((ELEMENT.getInstance().COBALT.getNeutrons()*2)+(ELEMENT.getInstance().MOLYBDENUM.getNeutrons()*16)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*16)+(ELEMENT.getInstance().NICKEL.getNeutrons()*66))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.COBALT, 02), - new MaterialStack(ELEMENT.MOLYBDENUM, 16), - new MaterialStack(ELEMENT.CHROMIUM, 16), - new MaterialStack(ELEMENT.NICKEL, 66) + new MaterialStack(ELEMENT.getInstance().COBALT, 02), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 16), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 16), + new MaterialStack(ELEMENT.getInstance().NICKEL, 66) }); public static final Material INCOLOY_020 = new Material( "Incoloy-020", //Material Name new short[]{101, 81, 71, 0}, //Material Colour 1425, //Melting Point in C - ((ELEMENT.IRON.getBoilingPoint_C()*40)+(ELEMENT.COPPER.getBoilingPoint_C()*4)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*20)+(ELEMENT.NICKEL.getBoilingPoint_C()*36))/100, //Boiling Point in C - ((ELEMENT.IRON.getProtons()*40)+(ELEMENT.COPPER.getProtons()*4)+(ELEMENT.CHROMIUM.getProtons()*20)+(ELEMENT.NICKEL.getProtons()*36))/100, //Protons - ((ELEMENT.IRON.getNeutrons()*40)+(ELEMENT.COPPER.getNeutrons()*4)+(ELEMENT.CHROMIUM.getNeutrons()*20)+(ELEMENT.NICKEL.getNeutrons()*36))/100, //Neutrons + ((ELEMENT.getInstance().IRON.getBoilingPointC()*40)+(ELEMENT.getInstance().COPPER.getBoilingPointC()*4)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*20)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*36))/100, //Boiling Point in C + ((ELEMENT.getInstance().IRON.getProtons()*40)+(ELEMENT.getInstance().COPPER.getProtons()*4)+(ELEMENT.getInstance().CHROMIUM.getProtons()*20)+(ELEMENT.getInstance().NICKEL.getProtons()*36))/100, //Protons + ((ELEMENT.getInstance().IRON.getNeutrons()*40)+(ELEMENT.getInstance().COPPER.getNeutrons()*4)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*20)+(ELEMENT.getInstance().NICKEL.getNeutrons()*36))/100, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.IRON, 40), - new MaterialStack(ELEMENT.COPPER, 4), - new MaterialStack(ELEMENT.CHROMIUM, 20), - new MaterialStack(ELEMENT.NICKEL, 36) + new MaterialStack(ELEMENT.getInstance().IRON, 40), + new MaterialStack(ELEMENT.getInstance().COPPER, 4), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), + new MaterialStack(ELEMENT.getInstance().NICKEL, 36) }); public static final Material INCOLOY_DS = new Material( "Incoloy-DS", //Material Name new short[]{71, 101, 81, 0}, //Material Colour 1425, //Melting Point in C - ((ELEMENT.IRON.getBoilingPoint_C()*46)+(ELEMENT.COBALT.getBoilingPoint_C()*18)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*18)+(ELEMENT.NICKEL.getBoilingPoint_C()*18))/100, //Boiling Point in C - ((ELEMENT.IRON.getProtons()*46)+(ELEMENT.COBALT.getProtons()*18)+(ELEMENT.CHROMIUM.getProtons()*18)+(ELEMENT.NICKEL.getProtons()*18))/100, //Protons - ((ELEMENT.IRON.getNeutrons()*46)+(ELEMENT.COBALT.getNeutrons()*18)+(ELEMENT.CHROMIUM.getNeutrons()*18)+(ELEMENT.NICKEL.getNeutrons()*18))/100, //Neutrons + ((ELEMENT.getInstance().IRON.getBoilingPointC()*46)+(ELEMENT.getInstance().COBALT.getBoilingPointC()*18)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*18)+(ELEMENT.getInstance().NICKEL.getBoilingPointC()*18))/100, //Boiling Point in C + ((ELEMENT.getInstance().IRON.getProtons()*46)+(ELEMENT.getInstance().COBALT.getProtons()*18)+(ELEMENT.getInstance().CHROMIUM.getProtons()*18)+(ELEMENT.getInstance().NICKEL.getProtons()*18))/100, //Protons + ((ELEMENT.getInstance().IRON.getNeutrons()*46)+(ELEMENT.getInstance().COBALT.getNeutrons()*18)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*18)+(ELEMENT.getInstance().NICKEL.getNeutrons()*18))/100, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.IRON, 46), - new MaterialStack(ELEMENT.COBALT, 18), - new MaterialStack(ELEMENT.CHROMIUM, 18), - new MaterialStack(ELEMENT.NICKEL, 18) + new MaterialStack(ELEMENT.getInstance().IRON, 46), + new MaterialStack(ELEMENT.getInstance().COBALT, 18), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 18), + new MaterialStack(ELEMENT.getInstance().NICKEL, 18) }); public static final Material INCOLOY_MA956 = new Material( "Incoloy-MA956", //Material Name new short[]{81, 71, 101, 0}, //Material Colour 1425, //Melting Point in C - ((ELEMENT.IRON.getBoilingPoint_C()*75)+(ELEMENT.ALUMINIUM.getBoilingPoint_C()*4)+(ELEMENT.CHROMIUM.getBoilingPoint_C()*20)+(ELEMENT.YTTRIUM.getBoilingPoint_C()*1))/100, //Boiling Point in C - ((ELEMENT.IRON.getProtons()*75)+(ELEMENT.ALUMINIUM.getProtons()*4)+(ELEMENT.CHROMIUM.getProtons()*20)+(ELEMENT.YTTRIUM.getProtons()*1))/100, //Protons - ((ELEMENT.IRON.getNeutrons()*75)+(ELEMENT.ALUMINIUM.getNeutrons()*4)+(ELEMENT.CHROMIUM.getNeutrons()*20)+(ELEMENT.YTTRIUM.getNeutrons()*1))/100, //Neutrons + ((ELEMENT.getInstance().IRON.getBoilingPointC()*75)+(ELEMENT.getInstance().ALUMINIUM.getBoilingPointC()*4)+(ELEMENT.getInstance().CHROMIUM.getBoilingPointC()*20)+(ELEMENT.getInstance().YTTRIUM.getBoilingPointC()*1))/100, //Boiling Point in C + ((ELEMENT.getInstance().IRON.getProtons()*75)+(ELEMENT.getInstance().ALUMINIUM.getProtons()*4)+(ELEMENT.getInstance().CHROMIUM.getProtons()*20)+(ELEMENT.getInstance().YTTRIUM.getProtons()*1))/100, //Protons + ((ELEMENT.getInstance().IRON.getNeutrons()*75)+(ELEMENT.getInstance().ALUMINIUM.getNeutrons()*4)+(ELEMENT.getInstance().CHROMIUM.getNeutrons()*20)+(ELEMENT.getInstance().YTTRIUM.getNeutrons()*1))/100, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.IRON, 75), - new MaterialStack(ELEMENT.ALUMINIUM, 4), - new MaterialStack(ELEMENT.CHROMIUM, 20), - new MaterialStack(ELEMENT.YTTRIUM, 1) + new MaterialStack(ELEMENT.getInstance().IRON, 64), + new MaterialStack(ELEMENT.getInstance().ALUMINIUM, 12), + new MaterialStack(ELEMENT.getInstance().CHROMIUM, 20), + new MaterialStack(ELEMENT.getInstance().YTTRIUM, 4) }); public static final Material TUNGSTEN_CARBIDE = new Material( "Tungsten Carbide", //Material Name new short[]{44, 44, 44, 0}, //Material Colour 3422, //Melting Point in C - ((ELEMENT.TUNGSTEN.getBoilingPoint_C()*5)+(ELEMENT.CARBON.getBoilingPoint_C()*5))/10, //Boiling Point in C - ((ELEMENT.TUNGSTEN.getProtons()*5)+(ELEMENT.CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.TUNGSTEN.getNeutrons()*5)+(ELEMENT.CARBON.getNeutrons()*5))/10, //Neutrons + ((ELEMENT.getInstance().TUNGSTEN.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C + ((ELEMENT.getInstance().TUNGSTEN.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons + ((ELEMENT.getInstance().TUNGSTEN.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CARBON, 50), - new MaterialStack(ELEMENT.TUNGSTEN, 50) + new MaterialStack(ELEMENT.getInstance().CARBON, 50), + new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 50) }); public static final Material SILICON_CARBIDE = new Material( "Silicon Carbide", //Material Name new short[]{40, 48, 36, 0}, //Material Colour 1414, //Melting Point in C - ((ELEMENT.SILICON.getBoilingPoint_C()*5)+(ELEMENT.CARBON.getBoilingPoint_C()*5))/10, //Boiling Point in C - ((ELEMENT.SILICON.getProtons()*5)+(ELEMENT.CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.SILICON.getNeutrons()*5)+(ELEMENT.CARBON.getNeutrons()*5))/10, //Neutrons + ((ELEMENT.getInstance().SILICON.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C + ((ELEMENT.getInstance().SILICON.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons + ((ELEMENT.getInstance().SILICON.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons false, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CARBON, 50), - new MaterialStack(ELEMENT.SILICON, 50) + new MaterialStack(ELEMENT.getInstance().SILICON, 40), + new MaterialStack(ELEMENT.getInstance().CARBON, 50), + new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); public static final Material TANTALUM_CARBIDE = new Material( "Tantalum Carbide", //Material Name new short[]{139, 136, 120, 0}, //Material Colour 2980, //Melting Point in C - ((ELEMENT.TANTALUM.getBoilingPoint_C()*5)+(ELEMENT.CARBON.getBoilingPoint_C()*5))/10, //Boiling Point in C - ((ELEMENT.TANTALUM.getProtons()*5)+(ELEMENT.CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.TANTALUM.getNeutrons()*5)+(ELEMENT.CARBON.getNeutrons()*5))/10, //Neutrons + ((ELEMENT.getInstance().TANTALUM.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C + ((ELEMENT.getInstance().TANTALUM.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons + ((ELEMENT.getInstance().TANTALUM.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CARBON, 50), - new MaterialStack(ELEMENT.TANTALUM, 50) + new MaterialStack(ELEMENT.getInstance().TANTALUM, 40), + new MaterialStack(ELEMENT.getInstance().CARBON, 50), + new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); public static final Material ZIRCONIUM_CARBIDE = new Material( "Zirconium Carbide", //Material Name new short[]{222, 202, 180, 0}, //Material Colour 1855, //Melting Point in C - ((ELEMENT.ZIRCONIUM.getBoilingPoint_C()*5)+(ELEMENT.CARBON.getBoilingPoint_C()*5))/10, //Boiling Point in C - ((ELEMENT.ZIRCONIUM.getProtons()*5)+(ELEMENT.CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.ZIRCONIUM.getNeutrons()*5)+(ELEMENT.CARBON.getNeutrons()*5))/10, //Neutrons + ((ELEMENT.getInstance().ZIRCONIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C + ((ELEMENT.getInstance().ZIRCONIUM.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons + ((ELEMENT.getInstance().ZIRCONIUM.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CARBON, 50), - new MaterialStack(ELEMENT.ZIRCONIUM, 50) + new MaterialStack(ELEMENT.getInstance().ZIRCONIUM, 40), + new MaterialStack(ELEMENT.getInstance().CARBON, 50), + new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); public static final Material NIOBIUM_CARBIDE = new Material( "Niobium Carbide", //Material Name new short[]{205, 197, 191, 0}, //Material Colour 2477, //Melting Point in C - ((ELEMENT.NIOBIUM.getBoilingPoint_C()*5)+(ELEMENT.CARBON.getBoilingPoint_C()*5))/10, //Boiling Point in C - ((ELEMENT.NIOBIUM.getProtons()*5)+(ELEMENT.CARBON.getProtons()*5))/10, //Protons - ((ELEMENT.NIOBIUM.getNeutrons()*5)+(ELEMENT.CARBON.getNeutrons()*5))/10, //Neutrons + ((ELEMENT.getInstance().NIOBIUM.getBoilingPointC()*5)+(ELEMENT.getInstance().CARBON.getBoilingPointC()*5))/10, //Boiling Point in C + ((ELEMENT.getInstance().NIOBIUM.getProtons()*5)+(ELEMENT.getInstance().CARBON.getProtons()*5))/10, //Protons + ((ELEMENT.getInstance().NIOBIUM.getNeutrons()*5)+(ELEMENT.getInstance().CARBON.getNeutrons()*5))/10, //Neutrons true, //Uses Blast furnace? //Material Stacks with Percentage of required elements. new MaterialStack[]{ - new MaterialStack(ELEMENT.CARBON, 50), - new MaterialStack(ELEMENT.NIOBIUM, 50) + new MaterialStack(ELEMENT.getInstance().NIOBIUM, 40), + new MaterialStack(ELEMENT.getInstance().CARBON, 50), + new MaterialStack(ELEMENT.getInstance().OXYGEN, 10) }); + + + public static final Material LEAGRISIUM = new Material( + "Grisium", //Material Name + new short[]{53, 93, 106, 0}, //Material Colour + 9001, //Melting Point in C + 25000, //Boiling Point in C + 96, //Protons + 128, //Neutrons + true, //Uses Blast furnace? + new MaterialStack[]{ + new MaterialStack(ELEMENT.getInstance().TITANIUM, 18), + new MaterialStack(ELEMENT.getInstance().CARBON, 18), + new MaterialStack(ELEMENT.getInstance().POTASSIUM, 18), + new MaterialStack(ELEMENT.getInstance().LITHIUM, 18), + new MaterialStack(ELEMENT.getInstance().SULFUR, 18), + new MaterialStack(ELEMENT.getInstance().HYDROGEN, 10) + }); //Material Stacks with Percentage of required elements. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + //Quantum + public static final Material QUANTUM = new Material( + "Quantum", //Material Name + new short[]{128, 128, 255, 50}, //Material Colour + 9999, //Melting Point in C + 25000, //Boiling Point in C + 150, //Protons + 200, //Neutrons + true, //Uses Blast furnace? + //Material Stacks with Percentage of required elements. + new MaterialStack[]{ + new MaterialStack(ALLOY.LEAGRISIUM, 25), + new MaterialStack(ALLOY.ENERGYCRYSTAL, 25), + new MaterialStack(ALLOY.ZIRCONIUM_CARBIDE, 25), + new MaterialStack(ELEMENT.getInstance().MANGANESE, 5), + new MaterialStack(ELEMENT.getInstance().MOLYBDENUM, 5), + new MaterialStack(ELEMENT.getInstance().TUNGSTEN, 5), + new MaterialStack(ELEMENT.getInstance().BERYLLIUM, 5), + new MaterialStack(ELEMENT.getInstance().BISMUTH, 5) + }); + + } |