Accession Number : AD0689372

Title :   BRILLOUIN SCATTERING NEAR THE GLASS TRANSITION OF POLYMETHYL METHACRYLATE.

Descriptive Note : Technical rept.,

Corporate Author : STEVENS INST OF TECH HOBOKEN N J

Personal Author(s) : Friedman,E. A. ; Ritger,A. J. ; Andrews,R. D.

Report Date : 29 MAY 1969

Pagination or Media Count : 24

Abstract : Brillouin scattering of laser light has been used to measure the frequency of hypersonic sound waves in the range of 10 to the 10th power Hz in PMMA as a function of temperature through the glass transition region. A discontinuity in the temperature coefficient of sound velocity is observed at the glass transition temperature; this is explained as a consequence of a corresponding discontinuity in the temperature coefficient of the specific volume (thermal) expansion coefficient). The ratio of the light scattered by isothermal density fluctuations to that scattered by adiabatic density fluctuations was also measured. This ratio was large and did not change appreciably near the glass transition temperature. The value of the Landau-Placzek ratio is approximately what one would expect from previously observed ultrasonic velocity dispersion data as a function of temperature well above the glass transition temperature. Both the velocity and intensity ratio data indicate that no velocity dispersion effects are present for the hypersonic sould waves up to temperatures 35C above the glass transition temperatures. These results also indicate that the glass transition is not a classical secondorder phase transition. (Author)

Descriptors :   (*ACRYLIC RESINS, SCATTERING), COHERENT RADIATION, LASERS, PHONONS, TRANSITION TEMPERATURE, ULTRASONIC RADIATION

Subject Categories : Physical Chemistry
      Plastics

Distribution Statement : APPROVED FOR PUBLIC RELEASE