|
|
Post by AdmiralObvious on Jan 25, 2018 23:59:44 GMT
I haven't uploaded it to the workshop yet, I am still checking for any bug... I found the version you've currently got uploaded. It doesn't seem to work currently (even after moving it to Imports, and changing file names), but then again, most of anything I try to mod in this game refuses to work for me now. |
|
|
|
Post by vallarian on Jan 27, 2018 9:50:16 GMT
|
|
|
|
Post by RiftandRend on Jan 27, 2018 10:19:30 GMT
Lonsdaleite seems to be stronger than cubic diamond's weaker plane and weaker than its strong plane. I don't know how useful that would be, as in-game we apparently have atomically perfect manufacturing which would allow us to orient the crystals as needed. |
|
|
|
Post by RiftandRend on Jan 27, 2018 10:23:56 GMT
Something to look into would be isotopically pure C12 diamond, which seems to have ~50% higher thermal conductivity than the 98.9%C12- 1.1%C13 mixture found in common diamond.
|
|
|
|
Post by vallarian on Jan 27, 2018 12:58:49 GMT
Something to look into would be isotopically pure C 12 diamond, which seems to have ~50% higher thermal conductivity than the 98.9%C 12- 1.1%C 13 mixture found in common diamond. I’m not really sure how the game calculates yield strength and if we can somehow simulate compound gun barrels or engine nozzles with that mechanic. How does our version of graphene somehow withstand fusion temperatures? |
|
|
|
Post by RiftandRend on Jan 28, 2018 5:19:12 GMT
Something to look into would be isotopically pure C 12 diamond, which seems to have ~50% higher thermal conductivity than the 98.9%C 12- 1.1%C 13 mixture found in common diamond. I’m not really sure how the game calculates yield strength and if we can somehow simulate compound gun barrels or engine nozzles with that mechanic. How does our version of graphene somehow withstand fusion temperatures? The game does not calculate yield strength, it is a value that must be inputted for each material. We already have composite barrels, and I doubt that composite nozzles would be useful. Our version of graphene should not withstand fusion temperatures; it's a limitation of the game and an overestimation of the effectiveness of regenerative cooling. |
|
|
|
Post by AdmiralObvious on Jan 28, 2018 7:09:57 GMT
Something to look into would be isotopically pure C 12 diamond, which seems to have ~50% higher thermal conductivity than the 98.9%C 12- 1.1%C 13 mixture found in common diamond. I’m not really sure how the game calculates yield strength and if we can somehow simulate compound gun barrels or engine nozzles with that mechanic. How does our version of graphene somehow withstand fusion temperatures? As was mentioned above, the game doesn't calculate Yield. It will, however automatically try and figure out a Poisons ratio, if you don't directly add one. Graphene in all reasonability should probably be decomposing at one point or another. P.S. I fianally got these to work, for some reason, apparently the game won't read the file if you name it the same way you'd do as the core files. When I changed the file names to, not match the core files, it worked. |
|
|
|
Post by vallarian on Jan 28, 2018 9:48:52 GMT
My quest for super OP materials continues... Also, there's some good stuff out there for various superalloys such as Eglin Steel, I managed to dig up Tensile, Yield strength, approximate the melting point at >1700 K because they treated the steel at that temp or more and through the power of wikipedia get all the component parts, anyway, sources: web.mst.edu/~lekakhs/webpage%20Lekakh/Articles/14-017.pdfThis article has given the most information so far. The results, with mostly placeholder values from Austenitic Stainless Steel: Material Eglin Steel ES-1 Elements Fe C Cr Mn Mo Nb Ni Si Ti V W ElementCount 93.984 0.265 2.6 0.65 0.42 0.01 1.0 1.0 0.006 0.065 1 Density_kg__m3 8030 > No clue so far YieldStrength_MPa 1206 UltimateTensileStrength_MPa 1689 YoungsModulus_GPa 208 > Also discussed in the aformentioned article ShearModulus_GPa 77 SpecificHeat_J__kg_K 500 MeltingPoint_K 1727 > Probably should be higherThermalConductivity_W__m_K 21.4 ThermalExpansion__K 9.4e-6 Resistivity_Ohm_m 116e-8 RelativePermeability 7 RefractiveIndex Iron RoughnessCoefficient .35 |
|
|
|
Post by newageofpower on Jan 28, 2018 19:56:51 GMT
and an overestimation of the effectiveness of regenerative cooling. Wrong, wrong, wrong, you're wrong. Try building a Raptor engine in game with the same specifications and materials used IRL. It doesn't work; the game massively underestimates the effectiveness of regenerative cooling if anything. |
|
|
|
Post by Kerr on Jan 28, 2018 20:08:54 GMT
and an overestimation of the effectiveness of regenerative cooling. Wrong, wrong, wrong, you're wrong. Try building a Raptor engine in game with the same specifications and materials used IRL. It doesn't work; the game massively underestimates the effectiveness of regenerative cooling if anything. CDE underestimates something? Well that is a rare sight |
|
|
|
Post by RiftandRend on Jan 28, 2018 21:39:46 GMT
and an overestimation of the effectiveness of regenerative cooling. Wrong, wrong, wrong, you're wrong. Try building a Raptor engine in game with the same specifications and materials used IRL. It doesn't work; the game massively underestimates the effectiveness of regenerative cooling if anything. Perhaps in normal engines, but not in the strange edge case of "fusion" engines, which was what I was referring to. 1 kg/s of deuterium-tritium mixture is able to cool a tiny engine bathed in terawatts of heat. |
|
|
|
Post by Fgdfgfthgr on Jan 28, 2018 21:41:06 GMT
Even that, I still can't believe diamond nozzle can withstand antimatter reaction.
|
|
|
|
Post by dwwolf on Feb 12, 2018 18:59:14 GMT
Even that, I still can't believe diamond nozzle can withstand antimatter reaction. I modded a material that copies diamond with 10x the density to emulate added mass for magnetic shielding. |
|
|
|
Post by dwwolf on Feb 12, 2018 19:06:08 GMT
My quest for super OP materials continues... Also, there's some good stuff out there for various superalloys such as Eglin Steel, I managed to dig up Tensile, Yield strength, approximate the melting point at >1700 K because they treated the steel at that temp or more and through the power of wikipedia get all the component parts, anyway, sources: web.mst.edu/~lekakhs/webpage%20Lekakh/Articles/14-017.pdfThis article has given the most information so far. The results, with mostly placeholder values from Austenitic Stainless Steel: Material Eglin Steel ES-1 Elements Fe C Cr Mn Mo Nb Ni Si Ti V W ElementCount 93.984 0.265 2.6 0.65 0.42 0.01 1.0 1.0 0.006 0.065 1 Density_kg__m3 8030 > No clue so far YieldStrength_MPa 1206 UltimateTensileStrength_MPa 1689 YoungsModulus_GPa 208 > Also discussed in the aformentioned article ShearModulus_GPa 77 SpecificHeat_J__kg_K 500 MeltingPoint_K 1727 > Probably should be higherThermalConductivity_W__m_K 21.4 ThermalExpansion__K 9.4e-6 Resistivity_Ohm_m 116e-8 RelativePermeability 7 RefractiveIndex Iron RoughnessCoefficient .35 You can roughly calculate the density by using the densities of the elements in the allow, modified by %. If you have 1 major element it wont be too far off. |
|
|
|
Post by Mobius on Feb 19, 2018 22:04:51 GMT
Can we get Titanium foam in this mod list? it would be a great alternative to the Aluminium or Copper foam we already have. This material has and is used extensively in aerospace applications. www.americanelements.com/titanium-foam-7440-32-6 |
|
