Your search keyword '"Alegría, Angel"' showing total 3 results

1. Microscopic versus Macroscopic Glass Transition(s) in Blends of Industrial Interest.

Author

Shafqat, Numera, Alegría, Angel, Malicki, Nicolas, Dronet, Séverin, Mangin-Thro, Lucile, Frick, Bernhard, Colmenero, Juan, and Arbe, Arantxa

Subjects

STYRENE-butadiene rubber, NEUTRON scattering, CALORIMETRY, GLASS transition temperature, MICROSCOPY

Abstract

We investigate by neutron scattering and calorimetry a mixture of styrene-butadiene rubber (SBR) and a commercial resin. The neat materials present a large dynamic contrast, having SBR a much lower glass-transition temperature than the resin. The focus is to exploit neutron scattering selectivity in an isotopically labelled sample where deuterated SBR is the majority component. This direct insight into the resin atomic motions within the mixture allows determining the 'microscopic' glass transition of the resin in the presence of the a priori much more mobile SBR. This transition takes place in the vicinity of the initial calorimetric glass transition temperature, mainly dictated by the majority component. [ABSTRACT FROM AUTHOR]

Published

2022

2. The combination of neutron spin echo and dielectric spectroscopy to examine tube dilation.

Author

Malo de Molina, Paula, Alegría, Angel, Allgaier, Jürgen, Kruteva, Margarita, Hoffmann, Ingo, Prévost, Sylvain, Monkenbusch, Michael, Richter, Dieter, Arbe, Arantxa, and Colmenero, Juan

Subjects

NEUTRON spin echoes, POLYISOPRENE, MICROSCOPY, MICROSTRUCTURE, POLYMERS

Abstract

The polymer dynamics in blends of long and short chains spans several decades in time and the understanding of the effect of the short chains on the relaxation mechanism of the long chains due to constraint release requires the combination of microscopic and macroscopic techniques. While the longtime dynamics can be accessed by mechanical or dielectric spectroscopy (DS), its relation to the microstructural details requires the application of theoretical models. In contrast, neutron spin echo (NSE) measures directly the dynamic structure factor reflecting the process of constraint removal at the molecular scale. Here the comparison of NSE and DS results in a model blend of short and long polyisoprene enables the exploration of the entire time regime showing that constraint release leads to a dilation of the confining tube. We show the description of the dynamic tube dilation using a simple model in which the time controlling the tube dilation for the long chain is the terminal time of the short chain. [ABSTRACT FROM AUTHOR]

Published

2022

3. Hydration Water Dynamics in Solutions of Hydrophilic Polymers, Biopolymers and Other Glass Forming Materials by Dielectric Spectroscopy

Author

Cerveny, Silvina, primary, Alegría, Angel, additional, Colmenero, Juan, additional, Tokuyama, Michio, additional, Oppenheim, Irwin, additional, and Nishiyama, Hideya, additional

Published

2008