Application of Reed-Vibration Mechanical Spectroscopy for Liquids in Studying Liquid Crystallization
Abstract
By using the reed-vibration mechanical spectroscopy for liquids (RMS-L), we measured the complex Young's modulus of dimethyl phthalate (DP) during a cooling and heating circulation starting from room temperature at about 2 KHz. The results show that there is no crystallization in the cooling supercooled liquid (CSL) of DP, but a crystallization process in the heating supercooled liquid (HSL) after the reverse glass transition. Based on the measured modulus, crystal volume fraction (v) during the HSL crystallization was calculated. Moreover, the Avrami exponent (n) was obtained according to the JJMA equation and v data. In view of n versus temperature and v, the nucleation dynamics was analyzed, and especially, there has already existed saturate nuclei in DP HSL before the crystallization. Furthermore, the authors inferred that the nuclei are induced by the random frozen stress in the glass, but there is no nucleus in CSL. The above results indicated that RMS-L might provide a new way to measure and analyze the crystallization of liquids.
- Publication:
-
International Journal of Modern Physics B
- Pub Date:
- August 2013
- DOI:
- 10.1142/S021797921350080X
- Bibcode:
- 2013IJMPB..2750080Z
- Keywords:
-
- Crystallization;
- supercooled liquid;
- mechanical spectroscopy;
- 64.70.dg;
- 81.10.Aj;
- 64.60.qj;
- 62.40.+i;
- Crystallization of specific substances;
- Theory and models of crystal growth;
- physics of crystal growth crystal morphology and orientation;
- Studies of nucleation in specific substances;
- Anelasticity internal friction stress relaxation and mechanical resonances