Article
Thermophysical Properties of Materials
2012. V. 50. № 4. P. 471–474
Korotkovskii V.I., Lebedev A.V., Ryshkova O.S., Bolotnikov M.F., Shevchenko Yu.E., Neruchev Yu.A.
Thermophysical properties of liquid squalane $\mathrm{C_{30}H_{62}}$ within the temperature range of $298.15$–$413.15$ K at atmospheric pressure
The measurements results of the sound speed, density, and isobaric heat capacity of liquid squalane on the saturation line and at atmospheric pressure within the temperature range of $298.15$–$413.15$ K are presented. The data obtained are used to calculate the ratio of the heat capacities, $\gamma$; adiabatic, $\beta_S$, and isothermal, $\beta_T$, compressibilities; thermal expansion coefficient, $\alpha_P$, thermal pressure coefficient, $\left(\frac{\partial P}{\partial T}\right)_V$ and also to estimate the energy of the intermolecular interaction on the basis of the discrete-continuum model.
Article reference:
Korotkovskii V.I., Lebedev A.V., Ryshkova O.S., Bolotnikov M.F., Shevchenko Yu.E., Neruchev Yu.A. Thermophysical properties of liquid squalane $\mathrm{C_{30}H_{62}}$ within the temperature range of $298.15$–$413.15$ K at atmospheric pressure, High Temp., 2012. V. 50. № 4. P. 471
Korotkovskii V.I., Lebedev A.V., Ryshkova O.S., Bolotnikov M.F., Shevchenko Yu.E., Neruchev Yu.A. Thermophysical properties of liquid squalane $\mathrm{C_{30}H_{62}}$ within the temperature range of $298.15$–$413.15$ K at atmospheric pressure, High Temp., 2012. V. 50. № 4. P. 471