Authors:S. Wacharine, D. Hellali, H. Zamali, J. Rogez, and M. Jemal
notice that except for the RbNO 3 having the lower purity (99.7 wt%), our data are smaller.
Figure 2 shows the obtained phase diagram which is characterised by three reduced solid solutions, a eutecticpoint at 291 °C and 82.5 mol
Authors:K. P. Sharma, R. S. B. Reddi, and R. N. Rai
decomposes to give two solids as
The monotectic, the eutectic and the critical solution temperatures in the present case are 131.0, 85.0, and 159.0 °C, respectively. The monotectic and the eutecticpoint are the invariant points
Authors:R. S. B. Reddi, V. S. A. Kumar Satuluri, and R. N. Rai
Three phases, namely, a binary liquid phase L and two solid phases S 1 and S 2 are in equilibrium at the eutecticpoint which is invariant point of the system.
It is well known that values of heat of
Authors:R. S. B. Reddi, V. S. A. Kumar Satuluri, U. S. Rai, and R. N. Rai
binary liquid phase, L, and two solid phases, S 1 and S 2 , are in equilibrium at the eutecticpoint which is invariant point of the system. When a solution of the eutectic composition is cooled below the eutectic temperature, it dissociates into two
Authors:Gergely Dabi, Ferenc Tóth, and Félix Schubert
temperature observation (ca. −50 °C), the inclusion fluid contains both NaCl and CaCl 2 . However, due to the uncertain eutecticpoint observation, the fluid composition is considered as being representative of the H 2 O–CaCl–NaCl system, which is constrained