Glassy Carbon low-temperature thermodynamic properties

The specific heat of glassy carbon was investigated in the temperature range of 0\*44-4\*5"K. The specific heat follows a relation C = aT3+ yT, with y going through a ma~mum and a! increasing with increase in heattreatment temperature. On the average the cubic specific heat term is about the same as

The specific heat of glassy carbon was investigated in the temperature range of 0\*44-4\*5"K. The specific heat follows a relation C = aT3+ yT, with y going through a ma~mum and a! increasing with increase in heattreatment temperature. On the average the cubic specific heat term is about the same as

## Abstract Investigation into volumetric and energetic properties of several atomistic models mimicking carbon dioxide geometry and quadrupole momentum covered the liquid–vapor coexistence curve. Thermodynamic integration over a polynomial and an exponential‐polynomial path was used to calculate f

A calculation procedure for vapour-liquid equilibrium, enthalpy, entropy, and exergy is discussed, based on the Redlich-Kwong equation of state. It applies to the temperature range from 70 to 370 K and handles (at present) ten substances of cryogenic interest

The Hall coefficient, magnetoresistance and electrical resiativity of an extremely hard carbon, namely glassy carbon developed by the Tokai Electrode Mfg. Company, were investigated as function of heat-treatment temperature from loo0 to 3200°C at three ambient temperatures 20, 77 and 300°K. The rela