Temperature-dependence of the diffusion constants of rigid, closed-cell foams

I t has long been assumed that the effect of temperature on the diffusion coefficient D , the sedimentation coefficient s , and other hydrodynamic parameters is correctly described by Walden's rule and its extensions, i.e., hydrodynamic properties of dilute solutions of macromolecules scale linearl

The thermal conductivity and the cellular structure as well as the matrix polymer morphology of a collection of chemically crosslinked low-density closed cell polyolefin foams, manufactured by a high-pressure nitrogen gas solution process, have been studied. With the aid of a useful theoretical mode

The experimentally estimated 'normalized' rate constants of the bulk crystallization of poly( L-lactic acid) and natural rubber at different temperatures have been used in order to test different equations describing the temperature dependence of the normalized crystallization rate constants. Ten of

## Abstract Chinese hamster cells in suspension were exposed to 20 kHz ultrasound (US) at 54 W/cm^2^ and various temperatures between 2 and 44 °C. Activation energies were 2.6 and 24 kcal/mole below and above 35 °C, respectively. Procaine, a local anaesthetic drug known to increase membrane fluidit