Alternatively, paste these into your raws; First one replaces matgloss_stone_layer, second replaces matgloss_stone_mineral, third tells you what is magma safe. It's Cthulu's molten rocks mod, and gives accurate melting (and boiling where possible) points for all the rocks.
matgloss_stone_layer
This file includes the updates made by Molten Rocks 1.3.
[OBJECT:MATGLOSS]
Arkose inclusions in diabase are half melted at 1150 C. Source: http://earth.geology.yale.edu/~ajs/1938-A/353.pdf
Arkose is a type of sandstone. Source: http://en.wikipedia.org/wiki/Arkose
[MATGLOSS_STONE:SANDSTONE]
[NAME:sandstone][COLOR:6:7:0][TILE:'#']
[SEDIMENTARY][AQUIFER][SEDIMENTARY_OCEAN_SHALLOW]
[MELTING_POINT:12070]
[MATGLOSS_STONE:SILTSTONE]
[NAME:siltstone][COLOR:6:7:0][TILE:'%']
[SEDIMENTARY]
[MATGLOSS_STONE:MUDSTONE]
[NAME:mudstone][COLOR:6:7:0][TILE:247]
[SEDIMENTARY]
Becomes slate when heated under pressure. Source: http://csmres.jmu.edu/geollab/Fichter/MetaRx/Barmetachanges.html
Presumed not magma-safe, since slate isn't.
[MATGLOSS_STONE:SHALE]
[NAME:shale][COLOR:0:7:1][TILE:'.']
[SEDIMENTARY][SEDIMENTARY_OCEAN_SHALLOW]
[MATGLOSS_STONE:CLAYSTONE]
[NAME:claystone][COLOR:0:7:1][TILE:',']
[SEDIMENTARY]
Melting and boiling points presumed identical to common salt.
Melting point 801 C, boiling point 1465 C. Source: http://en.wikipedia.org/wiki/Sodium_chloride
[MATGLOSS_STONE:ROCK_SALT]
[NAME:rock salt][COLOR:7:7:1][TILE:'#']
[SEDIMENTARY]
[SOLID_DENSITY:2100]
[MELTING_POINT:11442]
[BOILING_POINT:12637]
Melting point 1517 - 2442 F (decomposes). Source: http://cameochemicals.noaa.gov/chemical/25038
Using lower bound, as per other minerals that are mostly calcium carbonate.
[MATGLOSS_STONE:LIMESTONE]
[NAME:limestone][COLOR:7:7:1][TILE:178][REACTION_CLASS:FLUX]
[SEDIMENTARY][SEDIMENTARY_OCEAN_DEEP]
[VALUE:2]
[MELTING_POINT:11485]
[MATGLOSS_STONE:CONGLOMERATE]
[NAME:conglomerate][COLOR:6:7:0][TILE:236]
[SEDIMENTARY][AQUIFER][SEDIMENTARY_OCEAN_SHALLOW]
Melting point 2570 - 4660 C. Source: http://www.steatiteindia.com/dolomite.htm
[MATGLOSS_STONE:DOLOMITE]
[NAME:dolomite][COLOR:7:7:1][TILE:'`'][REACTION_CLASS:FLUX]
[SEDIMENTARY]
[VALUE:2]
[MELTING_POINT:16507]
Melting point 1723 C. Source: http://ceramic-materials.com/cermat/material/1245.html
[MATGLOSS_STONE:FLINT]
[NAME:flint][COLOR:0:7:1][TILE:178]
[SEDIMENTARY]
[MELTING_POINT:13101]
Chert is the more general type of flint. Source: http://en.wikipedia.org/wiki/Chert
I'm assuming identical thermal properties.
[MATGLOSS_STONE:CHERT]
[NAME:chert][COLOR:6:7:0][TILE:'=']
[SEDIMENTARY]
[MELTING_POINT:13101]
Melting point 825 C (decomposes). Source: http://en.wikipedia.org/wiki/Calcium_carbonate
[MATGLOSS_STONE:CHALK]
[NAME:chalk][COLOR:7:7:1][TILE:176][REACTION_CLASS:FLUX]
[SEDIMENTARY]
[VALUE:2]
[MELTING_POINT:11485]
Melting point ca. 800 C. Source: http://glg110.asu.edu/2002/Lectures/lecture10/lecture10.ppt
[MATGLOSS_STONE:GRANITE]
[NAME:granite][COLOR:7:0:0][TILE:178]
[IGNEOUS_INTRUSIVE]
[MELTING_POINT:11440]
Melting point ca. 1000 C. Source: http://glg110.asu.edu/2002/Lectures/lecture10/lecture10.ppt
[MATGLOSS_STONE:DIORITE]
[NAME:diorite][COLOR:0:7:1][TILE:176]
[IGNEOUS_INTRUSIVE]
[MELTING_POINT:11800]
Melting point ca. 1200 C. Source: http://glg110.asu.edu/2002/Lectures/lecture10/lecture10.ppt
[MATGLOSS_STONE:GABBRO]
[NAME:gabbro][COLOR:0:7:1][TILE:177]
[IGNEOUS_INTRUSIVE]
[MELTING_POINT:12160]
Melting point ca. 800 C. Source: http://glg110.asu.edu/2002/Lectures/lecture10/lecture10.ppt
[MATGLOSS_STONE:RHYOLITE]
[NAME:rhyolite][COLOR:0:7:1][TILE:',']
[IGNEOUS_EXTRUSIVE]
[MELTING_POINT:11440]
Melting point ca. 1200 C. Source: http://glg110.asu.edu/2002/Lectures/lecture10/lecture10.ppt
[MATGLOSS_STONE:BASALT]
[NAME:basalt][COLOR:0:7:1][TILE:'#']
[IGNEOUS_EXTRUSIVE]
[MELTING_POINT:12160]
Melting point ca. 1000 C. Source: http://glg110.asu.edu/2002/Lectures/lecture10/lecture10.ppt
[MATGLOSS_STONE:ANDESITE]
[NAME:andesite][COLOR:0:7:1][TILE:236]
[IGNEOUS_EXTRUSIVE]
[MELTING_POINT:11800]
[MATGLOSS_STONE:FELSITE]
[NAME:felsite][COLOR:0:7:1][TILE:'.']
[BASIC_COLOR:7:0]
[IGNEOUS_EXTRUSIVE]
Melting point between 940-1080 C. Source: http://www.newton.dep.anl.gov/askasci/env99/env99363.htm
which in turn cites http://www.swxrflab.net/blmpaper.pdf
I'm going with the average of 1010 C.
[MATGLOSS_STONE:OBSIDIAN]
[NAME:obsidian][COLOR:0:7:1][TILE:177][LAVA][SHARP]
[IGNEOUS_EXTRUSIVE]
[VALUE:3]
[MELTING_POINT:11818]
Quartzite is mostly quartz (SiO2). Source: http://en.wikipedia.org/wiki/Quartzite
Quartz has a melting point of 1650 +/-75 C. Source: http://en.wikipedia.org/wiki/Quartz
There seems to be quite a lot of variation, as other sources gives values of 1710 C (http://www.hpwt.de/Mineralien/Quarze.htm),
or even 1830 C (http://www.azom.com/Details.asp?ArticleID=1114).
I'm going with the lowish 1650 C.
Boiling point is set at 2230 C, which may be a bit high considering that the listed melting point at the source is higher
than the one we are using. Source: http://www.hpwt.de/Mineralien/Quarze.htm
[MATGLOSS_STONE:QUARTZITE]
[NAME:quartzite][COLOR:7:7:1][TILE:'-']
[METAMORPHIC]
[MELTING_POINT:12970]
[BOILING_POINT:14014]
Becomes phyllite when heated under pressure. Source: http://csmres.jmu.edu/geollab/Fichter/MetaRx/Barmetachanges.html
Presumed not magma-safe, since phyllite isn't.
[MATGLOSS_STONE:SLATE]
[NAME:slate][COLOR:0:7:1][TILE:'%']
[METAMORPHIC]
Becomes schist when heated under pressure. Source: http://csmres.jmu.edu/geollab/Fichter/MetaRx/Barmetachanges.html
Presumed not magma-safe, since schist isn't.
[MATGLOSS_STONE:PHYLLITE]
[NAME:phyllite][COLOR:0:7:1][TILE:'-']
[BASIC_COLOR:7:0]
[METAMORPHIC]
Becomes gneis when heated under pressure. Source: http://csmres.jmu.edu/geollab/Fichter/MetaRx/Barmetachanges.html
Presumed not magma-safe, since gneis isn't.
[MATGLOSS_STONE:SCHIST]
[NAME:schist][COLOR:6:7:0][TILE:'`']
[METAMORPHIC]
Becomes magma when heated under pressure. Source: http://csmres.jmu.edu/geollab/Fichter/MetaRx/Barmetachanges.html
As such, presumed not magma-safe.
[MATGLOSS_STONE:GNEISS]
[NAME:gneiss][COLOR:7:7:1][TILE:'=']
[BASIC_COLOR:7:0]
[METAMORPHIC]
Melting point 825 C. Source: http://www.jtbaker.com/msds/englishhtml/m0884.htm
[MATGLOSS_STONE:MARBLE]
[NAME:marble][COLOR:7:7:1][TILE:178][REACTION_CLASS:FLUX]
[METAMORPHIC]
[VALUE:2]
[MELTING_POINT:11485]
matgloss_stone_mineral
This file includes the updates made by Molten Rocks 1.3.
[OBJECT:MATGLOSS]
Melting point 1475- 1565 C. Source: http://www.reade.com/Products/Oxides/hematite.html
[MATGLOSS_STONE:HEMATITE]
[NAME:hematite][COLOR:4:7:0][TILE:156]
[ENVIRONMENT:SEDIMENTARY:VEIN:100]
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:IRON:100]
[SOLID_DENSITY:5100]
[VALUE:8]
[MELTING_POINT:12736]
[MATGLOSS_STONE:LIMONITE]
[NAME:limonite][COLOR:6:7:1][TILE:156]
[ENVIRONMENT:SEDIMENTARY:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:IRON:100]
[SOLID_DENSITY:3796]
[VALUE:8]
[MATGLOSS_STONE:GARNIERITE]
[NAME:garnierite][COLOR:2:7:1][TILE:156]
[ENVIRONMENT_SPEC:GABBRO:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:NICKEL:100]
[VALUE:2]
Melting and boiling points taken from matgloss_metal.txt under the assumption that the nuggets of pure metal are the predominant component.
I DID NOT take SPEC_HEAT, as there appear to be significant impurities (SOLID_DENSITY differs) that will absorb heat at a different rate.
[MATGLOSS_STONE:GOLD]
[NAME:native gold][STONE_NAME:gold nuggets][COLOR:6:7:1][TILE:156]
[ENVIRONMENT:IGNEOUS_ALL:VEIN:100]
[ENVIRONMENT:ALLUVIAL:CLUSTER_SMALL:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:GOLD:100]
[SOLID_DENSITY:19320]
[VALUE:30]
[MELTING_POINT:11915]
[BOILING_POINT:15141]
Melting and boiling points taken from matgloss_metal.txt under the assumption that the nuggets of pure metal are the predominant component.
I DID take SPEC_HEAT, as there appear to be no significant impurities (SOLID_DENSITY is identical) that will absorb heat at a different rate.
[MATGLOSS_STONE:SILVER]
[NAME:native silver][STONE_NAME:silver nuggets][COLOR:7:7:1][TILE:156]
[ENVIRONMENT_SPEC:GRANITE:VEIN:100]
[ENVIRONMENT_SPEC:GNEISS:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:SILVER:100]
[SOLID_DENSITY:10490]
[VALUE:10]
[SPEC_HEAT:230]
[MELTING_POINT:11731]
[BOILING_POINT:13892]
Melting and boiling points taken from matgloss_metal.txt under the assumption that the nuggets of pure metal are the predominant component.
I DID take SPEC_HEAT, as there appear to be no significant impurities (SOLID_DENSITY is identical) that will absorb heat at a different rate.
[MATGLOSS_STONE:COPPER]
[NAME:native copper][STONE_NAME:copper nuggets][COLOR:6:7:0][TILE:156]
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:VEIN:100]
[ENVIRONMENT_SPEC:SANDSTONE:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:COPPER:100]
[SOLID_DENSITY:8930]
[VALUE:2]
[SPEC_HEAT:385]
[MELTING_POINT:11952]
[BOILING_POINT:14611]
Melting point 164 C. Source: http://www.jtbaker.com/msds/englishhtml/m0286.htm
[MATGLOSS_STONE:MALACHITE]
[NAME:malachite][COLOR:2:7:0][TILE:156]
[ENVIRONMENT_SPEC:LIMESTONE:VEIN:100]
[ENVIRONMENT_SPEC:MARBLE:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:COPPER:100]
[VALUE:2]
[MELTING_POINT:10295]
Melting point 1114 C. Boiling point 1281 C. Source: http://www.sciencestuff.com/msds/C1985.html
[MATGLOSS_STONE:GALENA]
[NAME:galena][COLOR:7:7:1][TILE:156]
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:VEIN:100]
[ENVIRONMENT:METAMORPHIC:VEIN:100]
[ENVIRONMENT_SPEC:GRANITE:VEIN:100]
[ENVIRONMENT_SPEC:LIMESTONE:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:LEAD:100]
[METAL_ORE:SILVER:50]
[SOLID_DENSITY:7500]
[VALUE:5]
[MELTING_POINT:12005]
[BOILING_POINT:12305]
Mostly zinc sulfide. Source: http://en.wikipedia.org/wiki/Sphalerite
Sublimation point of zinc sulfide is 1185 C. Source: http://en.wikipedia.org/wiki/Sulfide
[MATGLOSS_STONE:SPHALERITE]
[NAME:sphalerite][COLOR:0:7:1][TILE:156]
[ENVIRONMENT:METAMORPHIC:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:ZINC:100]
[VALUE:2]
[BOILING_POINT:12133]
Melting point 1125 C. Source: http://books.google.com/books?id=S5ZaPNJNI5MC&pg=RA1-PA188&lpg=RA1-PA188&dq=melting+point+of+cassiterite&source=bl&ots=fzv0RDeEdt&sig=xVzjjmwPyvDYfqYZaNggcs1Hgh8&hl=en&ei=ZehCSqOlBdmLtgec_bCaCQ&sa=X&oi=book_result&ct=result&resnum=1%29
[MATGLOSS_STONE:CASSITERITE]
[NAME:cassiterite][COLOR:6:7:0][TILE:156]
[ENVIRONMENT:ALLUVIAL:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:GRANITE:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:TIN:100]
[VALUE:2]
[MELTING_POINT:12025]
[MATGLOSS_STONE:COAL_BITUMINOUS]
[NAME:bituminous coal][COLOR:0:7:1][TILE:15]
[ENVIRONMENT:SEDIMENTARY:VEIN:100]
[ITEM_SYMBOL:15]
[SPEC_HEAT:409]
[IGNITE_POINT:11440]
[MELTING_POINT:NONE]
[BOILING_POINT:16708]
[SOLID_DENSITY:1346]
[MATGLOSS_STONE:LIGNITE]
[NAME:lignite][COLOR:0:7:1][TILE:'*']
[ENVIRONMENT:SEDIMENTARY:VEIN:100]
[SPEC_HEAT:409]
[IGNITE_POINT:11440]
[MELTING_POINT:NONE]
[BOILING_POINT:16708]
[SOLID_DENSITY:1346]
Melting and boiling points taken from matgloss_metal.txt under the assumption that the nuggets of pure metal are the predominant component.
I DID take SPEC_HEAT, as there appear to be no significant impurities (SOLID_DENSITY is identical) that will absorb heat at a different rate.
[MATGLOSS_STONE:PLATINUM]
[NAME:native platinum][STONE_NAME:platinum nuggets][COLOR:7:7:1][TILE:156]
[ENVIRONMENT:ALLUVIAL:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:OLIVINE:VEIN:100]
[ENVIRONMENT_SPEC:MAGNETITE:VEIN:100]
[ENVIRONMENT_SPEC:CHROMITE:CLUSTER_SMALL:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:PLATINUM:100]
[SOLID_DENSITY:21400]
[VALUE:40]
[SPEC_HEAT:130]
[MELTING_POINT:13182]
[BOILING_POINT:16885]
Melting point 580 C (decomposes). Source: http://en.wikipedia.org/wiki/Mercury_sulfide
ore of mercury, powdered gives vermilion dye
[MATGLOSS_STONE:CINNABAR]
[NAME:cinnabar][COLOR:4:7:1][TILE:156]
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:VEIN:100]
[ENVIRONMENT_SPEC:SHALE:VEIN:100]
[ENVIRONMENT_SPEC:QUARTZITE:VEIN:100]
[ITEM_SYMBOL:'*']
[MELTING_POINT:11044]
[MATGLOSS_STONE:COBALTITE]
[NAME:cobaltite][COLOR:1:7:1][TILE:156]
[ENVIRONMENT:IGNEOUS_ALL:VEIN:100]
[ENVIRONMENT:METAMORPHIC:VEIN:100]
[ITEM_SYMBOL:'*']
[SOLID_DENSITY:6295]
Melting point 573 - 661 C, depending on iron content. Source: http://www.minsocam.org/ammin/AM62/AM62_1101.pdf
[MATGLOSS_STONE:TETRAHEDRITE]
[NAME:tetrahedrite][COLOR:0:7:1][TILE:156]
[ENVIRONMENT:ALL_STONE:VEIN:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:COPPER:100]
[METAL_ORE:SILVER:20]
[VALUE:3]
[MELTING_POINT:11111]
This is also known as chlorargyrite. Source: http://en.wikipedia.org/wiki/Chlorargyrite
Melting point 455 C. Source: http://www.mindat.org/min-1014.html
[MATGLOSS_STONE:HORN_SILVER]
[NAME:horn silver][COLOR:7:7:1][TILE:156]
[ENVIRONMENT_SPEC:SILVER:CLUSTER_SMALL:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:SILVER:100]
[SOLID_DENSITY:10490]
[VALUE:10]
[MELTING_POINT:10819]
this is common gypsum, 3 vars below, any gypsum can be heated to and then mixed with water to make plaster
Melting point is 262 - 325 F. Source: http://cameochemicals.noaa.gov/chemical/25028
[MATGLOSS_STONE:GYPSUM]
[NAME:gypsum][COLOR:6:7:1][TILE:'#']
[ENVIRONMENT:SEDIMENTARY:CLUSTER:100]
[SOLID_DENSITY:2787]
[MELTING_POINT:10261]
Melting point 1500 C. Source: http://www.luzenac.com/mineralogy.htm
[MATGLOSS_STONE:TALC]
[NAME:talc][COLOR:7:7:1][TILE:'|']
[ENVIRONMENT_SPEC:DOLOMITE:CLUSTER:100]
[SOLID_DENSITY:2691]
[MELTING_POINT:12700]
[MATGLOSS_STONE:JET]
[NAME:jet][COLOR:0:7:1][TILE:176]
[ENVIRONMENT:SEDIMENTARY:CLUSTER:100]
[MATGLOSS_STONE:PUDDINGSTONE]
[NAME:puddingstone][COLOR:6:7:0][TILE:233]
[ENVIRONMENT_SPEC:CONGLOMERATE:CLUSTER:100][AQUIFER]
Mostly silicate such as quartz: http://en.wikipedia.org/wiki/Petrified_wood
Quartz has a melting point of 1650 +/-75 C. Source: http://en.wikipedia.org/wiki/Quartz
There seems to be quite a lot of variation, as other sources gives values of 1710 C (http://www.hpwt.de/Mineralien/Quarze.htm),
or even 1830 C (http://www.azom.com/Details.asp?ArticleID=1114).
I'm going with the lowish 1650 C.
Boiling point is set at 2230 C, which may be a bit high considering that the listed melting point at the source is higher
than the one we are using. Source: http://www.hpwt.de/Mineralien/Quarze.htm
[MATGLOSS_STONE:PETRIFIED_WOOD]
[NAME:petrified wood][COLOR:4:7:1][TILE:'%']
[ENVIRONMENT:SEDIMENTARY:CLUSTER_SMALL:100]
[MELTING_POINT:12970]
[BOILING_POINT:14014]
[MATGLOSS_STONE:GRAPHITE]
[NAME:graphite][COLOR:0:7:1][TILE:'o']
comes from metamorphism of sedimentary rocks
[ENVIRONMENT_SPEC:GNEISS:CLUSTER_SMALL:100]gneiss can come from shale (sed.) or granite (ign.)
[ENVIRONMENT_SPEC:QUARTZITE:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:MARBLE:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:SCHIST:CLUSTER_SMALL:100]
[SPEC_HEAT:409]
[IGNITE_POINT:11440]
[MELTING_POINT:NONE]
[BOILING_POINT:16708]
[SOLID_DENSITY:2160]
Melting point 115.21 C, boiling point 444.6 C. Source: http://en.wikipedia.org/wiki/Sulfur
brimstone is a better name for sulfur than sulfur, but this is just sulfur
[MATGLOSS_STONE:BRIMSTONE]
[NAME:brimstone][COLOR:6:7:1][TILE:'%']
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:GYPSUM:CLUSTER_SMALL:100]
[SOLID_DENSITY:2070]
[MELTING_POINT:10207]
[BOILING_POINT:10800]
kimberlite can have diamonds
[MATGLOSS_STONE:KIMBERLITE]
[NAME:kimberlite][COLOR:1:7:0][TILE:'%']
[ENVIRONMENT_SPEC:GABBRO:VEIN:100]
Melting point 760 C. Source: M E Rincón et al 1997 Semicond. Sci. Technol. 12 467-474 doi: 10.1088/0268-1242/12/4/023
ore of bismuth
[MATGLOSS_STONE:BISMUTHINITE]
[NAME:bismuthinite][COLOR:7:7:1][TILE:'%']
[BASIC_COLOR:7:0]
[ENVIRONMENT_SPEC:GRANITE:CLUSTER_SMALL:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:BISMUTH:100]
[MELTING_POINT:11368]
Melting point 355 C, boiling point 565 C. Source: http://www.naturalpigments.com/msds/msds_450-20.htm
arsenic sulfide
[MATGLOSS_STONE:REALGAR]
[NAME:realgar][COLOR:4:7:1][TILE:'%']
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:CLUSTER_SMALL:100]
[MELTING_POINT:10639]
[BOILING_POINT:11017]
Melting point 355 C, boiling point 565 C. Source: http://www.naturalpigments.com/msds/msds_430-20.htm
another arsenic sulfide, comes from realgar
[MATGLOSS_STONE:ORPIMENT]
[NAME:orpiment][COLOR:6:7:1][TILE:'-']
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:CLUSTER_SMALL:100]
[MELTING_POINT:10639]
[BOILING_POINT:11017]
Melting point 550 C. Source: http://www.reade.com/index.php?option=com_content&task=view&id=35&Itemid=10
ore of antimony
[MATGLOSS_STONE:STIBNITE]
[NAME:stibnite][COLOR:7:7:1][TILE:'%']
[BASIC_COLOR:7:0]
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:CLUSTER_SMALL:100]
[MELTING_POINT:10990]
Melting point 450 C. Source: http://books.google.com/books?id=OuoV-o_Xf-EC&pg=PA450&lpg=PA450&dq=melting+point+of+marcasite&source=bl&ots=Aq3y0oApsa&sig=zFzqg-8M3cpRoMXne-QpjA08tjs&hl=en&ei=txRESubQC-OntgfkyKWgAQ&sa=X&oi=book_result&ct=result&resnum=4
[MATGLOSS_STONE:MARCASITE]
[NAME:marcasite][COLOR:7:7:1][TILE:'%']
[ENVIRONMENT_SPEC:KAOLINITE:CLUSTER_SMALL:100]
[MELTING_POINT:10810]
Melting point 776 C, boiling point 1500 (sublimation). Source: http://www.chemistrydaily.com/chemistry/Sylvite
KCl, can be used/processed to fertilizer, destroyed by water -- should only be in very dry environments
[MATGLOSS_STONE:SYLVITE]
[NAME:sylvite][COLOR:6:7:1][TILE:'=']
[ENVIRONMENT_SPEC:ROCK_SALT:CLUSTER:100]
[MELTING_POINT:11397]
[BOILING_POINT:12700]
Melting point about 1009 C. Source: http://www3.interscience.wiley.com/journal/119711358/abstract?CRETRY=1&SRETRY=0
[MATGLOSS_STONE:CRYOLITE]
[NAME:cryolite][COLOR:7:7:1][TILE:'-']
[ENVIRONMENT_SPEC:GRANITE:CLUSTER_SMALL:100]
[MELTING_POINT:11817]
Melting point 2800 C. Source: http://ceramic-materials.com/cermat/material/1001.html
[MATGLOSS_STONE:PERICLASE]
[NAME:periclase][COLOR:7:7:1][TILE:',']
[ENVIRONMENT_SPEC:MARBLE:CLUSTER_SMALL:100]
[MELTING_POINT:15040]
Melting point 1365 C. Source: http://ceramic-materials.com/cermat/material/863.html
a major titanium ore but can't refine through smelting (see e.g. Kroll process)
[MATGLOSS_STONE:ILMENITE]
[NAME:ilmenite][COLOR:0:7:1][TILE:'.']
[ENVIRONMENT_SPEC:GABBRO:CLUSTER_SMALL:100]
[SOLID_DENSITY:2307]
[MELTING_POINT:12457]
Melting point 1825 C. Source: http://www.answers.com/topic/rutile
another titanium ore, same comment applies
[MATGLOSS_STONE:RUTILE]
[NAME:rutile][COLOR:5:7:0][TILE:'`']
[ENVIRONMENT:METAMORPHIC:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:GRANITE:CLUSTER_SMALL:100]
[MELTING_POINT:13285]
Melting point 1538 C. Source: http://ceramic-materials.com/cermat/material/1004.html
[MATGLOSS_STONE:MAGNETITE]
[NAME:magnetite][COLOR:0:7:1][TILE:'~']
[ENVIRONMENT:SEDIMENTARY:CLUSTER:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:IRON:100]
[SOLID_DENSITY:5046]
[VALUE:8]
[MELTING_POINT:12768]
Melting point 1850 - 2200 C. Source: http://www.optaminerals.com/chromite.html
to actually get chromium, have to heat 'in the presence of aluminum or silicon'
might use in stainless steel making, but not sure how that should work
[MATGLOSS_STONE:CHROMITE]
[NAME:chromite][COLOR:0:7:1][TILE:'=']
[ENVIRONMENT_SPEC:OLIVINE:VEIN:100]
[SOLID_DENSITY:2162]
[MELTING_POINT:13645]
Melting point 535 C. Source: http://en.wikipedia.org/wiki/Manganese_dioxide
major source of manganese
might use in steel making, but not sure how that should work
[MATGLOSS_STONE:PYROLUSITE]
[NAME:pyrolusite][COLOR:0:7:1][TILE:'%']
[ENVIRONMENT:IGNEOUS_ALL:CLUSTER_SMALL:100]
[MELTING_POINT:10963]
Melting point 1150 C, boiling point 1300 C. Source: http://en.wikipedia.org/wiki/Triuranium_octoxide
this is uranium oxide, but was possibly used for glazing ceramics (colored glass most likely came later involving refinement beyond our tech level)
[MATGLOSS_STONE:PITCHBLENDE]
[NAME:pitchblende][COLOR:5:7:0][TILE:'*']
[ENVIRONMENT_SPEC:GRANITE:CLUSTER_SMALL:100]
[MELTING_POINT:12070]
[BOILING_POINT:12340]
an ore of aluminum, but through a too-advanced process, in-game as the source of the corundum gemstones (ruby and sapphire)
bauxite melts around 2000C, so it's not practical to smelt it for aluminum (magma only goes up to 1300-1400)
[MATGLOSS_STONE:BAUXITE]
[NAME:bauxite][COLOR:4:7:0][TILE:'+']
[ENVIRONMENT:SEDIMENTARY:CLUSTER:100]
[MELTING_POINT:13600]
[BOILING_POINT:15000]
Melting and boiling points taken from matgloss_metal.txt under the assumption that the nuggets of pure metal are the predominant component.
I DID take SPEC_HEAT, as there appear to be no significant impurities (SOLID_DENSITY is identical) that will absorb heat at a different rate.
aluminum can occasionally be found in its free form in environments that like oxygen, volcanic muds were mentioned
[MATGLOSS_STONE:ALUMINUM]
[NAME:native aluminum][COLOR:7:7:1][TILE:'^']
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:CLUSTER_SMALL:100]
[ITEM_SYMBOL:'*']
[METAL_ORE:ALUMINUM:100]
[SOLID_DENSITY:2700]
[VALUE:40]
[SPEC_HEAT:900]
[MELTING_POINT:11188]
[BOILING_POINT:14534]
[SOLID_DENSITY:2700]
Melting point 741 C, boiling point 1575 C. Source: http://en.wikipedia.org/wiki/Borax
[MATGLOSS_STONE:BORAX]
[NAME:borax][COLOR:7:7:1][TILE:'`']
[ENVIRONMENT_SPEC:GYPSUM:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:ROCK_SALT:CLUSTER:100]
[MELTING_POINT:11334]
[BOILING_POINT:12835]
Melting point 1760 C. Source: http://204.154.137.14/publications/proceedings/01/minecarb/kramer.pdf
(Melting point varies by specimen. The extremes are 1200 and 1900 C. Source: http://en.wikipedia.org/wiki/Olivine)
[MATGLOSS_STONE:OLIVINE]
[NAME:olivine][COLOR:2:7:0][TILE:'%']
[ENVIRONMENT_SPEC:GABBRO:CLUSTER:100]
[MELTING_POINT:13168]
Melting point 1050 C. Source: http://www.minsocam.org/MSA/collectors_corner/arc/tempmagmas.htm
[MATGLOSS_STONE:HORNBLENDE]
[NAME:hornblende][COLOR:0:7:1][TILE:'"']
[ENVIRONMENT:IGNEOUS_ALL:CLUSTER_SMALL:100]
[ENVIRONMENT:METAMORPHIC:CLUSTER_SMALL:100]
[MELTING_POINT:11890]
Melting point: 1750 C. Source: http://www.szte.mtesz.hu/06journal/2007_1/pdf/epa_2007_1_2.pdf
used as a main component of porcelain, and in cosmetics
[MATGLOSS_STONE:KAOLINITE]
[NAME:kaolinite][COLOR:4:7:0][TILE:'=']
[ENVIRONMENT:SEDIMENTARY:CLUSTER:100]
[MELTING_POINT:13150]
Melting point 156 C. Source: http://www.nature.com/nature/journal/v181/n4608/abs/181552a0.html
[MATGLOSS_STONE:SERPENTINE]
[NAME:serpentine][COLOR:2:7:0][TILE:247]
[ENVIRONMENT_SPEC:OLIVINE:CLUSTER_SMALL:100]
[MELTING_POINT:10281]
Melting point 1250 C. Source: http://ceramic-materials.com/cermat/material/1135.html
used with kaolinite sometimes for ceramics
[MATGLOSS_STONE:ORTHOCLASE]
[NAME:orthoclase][COLOR:6:7:1][TILE:'%']
[ENVIRONMENT:IGNEOUS_INTRUSIVE:CLUSTER:100]
[ENVIRONMENT:METAMORPHIC:CLUSTER:100]
[MELTING_POINT:12250]
Starts to melt around 1000 C and becomes completely liquid at 1300 C. Source: Bulletin - United States Geological Survey, Issue 420
Used 1150 C as melting point.
used with kaolinite sometimes for ceramics
[MATGLOSS_STONE:MICROCLINE]
[NAME:microcline][COLOR:3:7:1][TILE:'%']
[ENVIRONMENT:ALL_STONE:CLUSTER:100]
[MELTING_POINT:12070]
Muscovite has melting point 1250 - 1300 C. Source: http://ceramic-materials.com/cermat/material/1018.html
mica group contains various minerals, this is based on muscovite
[MATGLOSS_STONE:MICA]
[NAME:mica][COLOR:0:7:1][TILE:'v']
[ENVIRONMENT:METAMORPHIC:CLUSTER:100]
[ENVIRONMENT_SPEC:GRANITE:CLUSTER:100]
[SOLID_DENSITY:2883]
[MELTING_POINT:12295]
Melting point 1612 C. Source: http://www.sciner.com/Opticsland/Calcite.htm
main constituent of limestone, but can be found as crystal
[MATGLOSS_STONE:CALCITE]
[NAME:calcite][COLOR:7:7:1][TILE:'"']
[REACTION_CLASS:FLUX]
[ENVIRONMENT_SPEC:LIMESTONE:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:MARBLE:CLUSTER_SMALL:100]
[VALUE:2]
[MELTING_POINT:12902]
Melting point 334 C, boiling point 400 C. Source: http://en.wikipedia.org/wiki/Potassium_nitrate
potassium nitrate, good for fertilizer and blowing things up with carbon and sulfur
[MATGLOSS_STONE:SALTPETER]
[NAME:saltpeter][COLOR:6:7:1][TILE:'x']
[ENVIRONMENT:SEDIMENTARY:CLUSTER_SMALL:100]
[SOLID_DENSITY:1201]
[MELTING_POINT:10601]
[BOILING_POINT:10720]
"Alabaster" can mean gypsum or calcite. This is the former. Note that the latter has a much higher melting point.
Melting point is 262 - 325 F. Source: http://cameochemicals.noaa.gov/chemical/25028
a gypsum
[MATGLOSS_STONE:ALABASTER]
[NAME:alabaster][COLOR:7:7:1][TILE:'^']
[ENVIRONMENT_SPEC:GYPSUM:CLUSTER_SMALL:100]
[SOLID_DENSITY:2787]
[MELTING_POINT:10261]
Note that this is not sodium selenite.
Melting point is 100 - 150 C. Source: http://cameo.mfa.org/browse/record.asp?subkey=4399
a gypsum
[MATGLOSS_STONE:SELENITE]
[NAME:selenite][COLOR:7:7:1][TILE:';']
[ENVIRONMENT_SPEC:GYPSUM:CLUSTER_SMALL:100]
[SOLID_DENSITY:2787]
[MELTING_POINT:10225]
Presumably as per gypsum. (http://en.wikipedia.org/wiki/Satinspar)
Melting point is 262 - 325 F. Source: http://cameochemicals.noaa.gov/chemical/25028
a gypsum
[MATGLOSS_STONE:SATINSPAR]
[NAME:satinspar][COLOR:7:7:1][TILE:'-']
[ENVIRONMENT_SPEC:GYPSUM:CLUSTER_SMALL:100]
[SOLID_DENSITY:2787]
[MELTING_POINT:10261]
Melting point 1450 C. Source: http://www.mindat.org/min-234.html
gypsum without water
[MATGLOSS_STONE:ANHYDRITE]
[NAME:anhydrite][COLOR:7:7:1][TILE:'v']
[BASIC_COLOR:7:0]
[ENVIRONMENT_SPEC:GYPSUM:CLUSTER_SMALL:100]
[ENVIRONMENT_SPEC:SATINSPAR:CLUSTER_ONE:100]
[ENVIRONMENT_SPEC:ALABASTER:CLUSTER_ONE:100]
[ENVIRONMENT_SPEC:SELENITE:CLUSTER_ONE:100]
[SOLID_DENSITY:2787]
[MELTING_POINT:12610]
Melting point 2050 C, boiling point 2980 C. Source: http://www.lookchem.com/cas-134/1344-28-1.html
used to make alum, a mordant/deoderant/used in tanning/fire retardent/astringent/preservative, although alunite makes potassium alum and ammonium alum might be the one for tanning
[MATGLOSS_STONE:ALUNITE]
[NAME:alunite][COLOR:7:7:1][TILE:'`']
[ENVIRONMENT:IGNEOUS_EXTRUSIVE:CLUSTER:100]
[ENVIRONMENT_SPEC:KAOLINITE:CLUSTER:100]
[MELTING_POINT:13690]
[BOILING_POINT:15364]
[MATGLOSS_STONE:RAW_ADAMANTINE]
[NAME:raw adamantine][COLOR:3:7:1][TILE:156]
[ITEM_SYMBOL:'*']
[VALUE:250]
[SPEC_HEAT:7500]
[MELTING_POINT:25000]
[BOILING_POINT:50000]
[SOLID_DENSITY:200]
[THREAD_METAL:ADAMANTINE:100]
[DEEP]
Updated rocks
The following rocks have have been updated. Sources for the added data are noted in the RAWs. If you have additional or superior data, feel free to contact me.
"M" means that melting point data has been added.
"B" means that boiling point data has been added.
"H" means that specific heat has been added.
"!" means that this rock is now magma-safe.
A rock without any indicator has not been updated, but has been determined to not be magma-safe.
SANDSTONE M
SHALE
ROCK_SALT MB
LIMESTONE M
DOLOMITE M!
FLINT M!
CHERT M!
CHALK M
GRANITE M
DIORITE M
GABBRO M
RHYOLITE M
BASALT M
ANDESITE M
OBSIDIAN M
QUARTZITE MB!
SLATE
PHYLLITE
SCHIST
GNEISS
MARBLE M
HEMATITE M!
GOLD MB
SILVER MBH
COPPER MBH
MALACHITE M
GALENA MB
SPHALERITE B
CASSITERITE M
CINNABAR M
TETRAHEDRITE M
HORN_SILVER M
GYPSUM M
TALC M!
PETRIFIED_WOOD MB!
BRIMSTONE MB
BISMUTHINITE M
REALGAR MB
ORPIMENT MB
STIBNITE M
MARCASITE M
SYLVITE MB
CRYOLITE M
PERICLASE M!
ILMENITE M
RUTILE M!
MAGNETITE M!
CHROMITE M!
PYROLUSITE M
PITCHBLENDE MB
ALUMINUM MBH
BORAX MB
OLIVINE M!
HORNBLENDE M
KAOLINITE M!
SERPENTINE M
ORTHOCLASE M
MICROCLINE M
MICA M
CALCITE M!
SALTPETER MB
ALABASTER MB
SELENITE M
SATINSPAR M
ANHYDRITE M!
ALUNITE MB!