Shear modulus and shear-stress fluctuations in polymer glasses

Abstract

Using molecular dynamics simulation of a standard coarse-grained polymer glass model we investigate by means of the stress-fluctuation formalism the shear modulus μ as a function of temperature T and sampling time t. While the ensemble-averaged modulus μ(T) is found to decrease continuously for all t sampled, its standard deviation δ μ(T) is non-monotonous with a striking peak at the glass transition. Confirming the effective time-translational invariance of our systems, μ( t) can be understood using a weighted integral over the shear-stress relaxation modulus G(t). While the crossover of μ(T) gets sharper with increasing t, the peak of δ μ(T) becomes more singular. % It is thus elusive to predict the modulus of a single configuration at the glass transition.