Provide density, enthalpy of formation, and molecular composition to calculate the properties of energetic materials, made by Chinese amateurs (not
made by me)
Attachment: phptnXDeE (5.5MB) This file has been downloaded 241 times
PLSHY - 26-8-2023 at 01:46
exe file, please modify the extensionManyInterests - 28-8-2023 at 23:14
I got it to work, but I don't know any Chinese. I tried taking a screencap and putting it through google translate, but the font as so small and
pixelated that it was impossible to read.
If you speak Chinese and can provide a translation that would be great.PLSHY - 30-8-2023 at 05:11
I got it to work, but I don't know any Chinese. I tried taking a screencap and putting it through google translate, but the font as so small and
pixelated that it was impossible to read.
If you speak Chinese and can provide a translation that would be great.
I take the calculation of petn as an
example to translate (Google Translate)
Provide density, enthalpy of formation, and molecular composition to calculate the properties of energetic materials, made by Chinese amateurs (not
made by me)
Equilibrium 2CO<=>C+CO2 is not taken into account with increasing density?
Provide density, enthalpy of formation, and molecular composition to calculate the properties of energetic materials, made by Chinese amateurs (not
made by me)
Equilibrium 2CO<=>C+CO2 is not taken into account with increasing density?
Yes, this is why some negative oxygen explosives (such as RDX) have higher density, higher detonation heat
and lower detonation volume, because the process of co+co=co2+c is exothermic, and the higher the density, the more favorable the positive direction
conduct.PLSHY - 31-8-2023 at 03:12
Provide density, enthalpy of formation, and molecular composition to calculate the properties of energetic materials, made by Chinese amateurs (not
made by me)
Equilibrium 2CO<=>C+CO2 is not taken into account with increasing density?
Oh, I see what you mean, I just misunderstood, this calculator does not take this part into account