Phenomenon of room temperature interdiffusion self-bonding between entangled glassy polymers: a statistical study

A comprehensive statistical analysis of the distributions of the adhesion strength ( σ ) developed during a long-term contact (up to 2 months) of two identical specimens of an amorphous entangled polymer at a very low temperature ( T ) of 24 °C with respect to the bulk glass transition temperature ( T g ), below T g by 80 °C, was carried out. For this purpose, two representative glassy polymers, polystyrene [PS; three PSs differing markedly in the number-average molecular weight ( M n ) from 75 to 966 kg/mol] and poly(methyl methacrylate) (PMMA; M n = 43.5 kg/mol), were selected. Keeping in contact the two specimens of PS or PMMA at T = 24 °C resulted in self-bonding at PS–PS and PMMA–PMMA interfaces. The as-self-bonded interfaces were shear fractured in tension to measure their σ values. The four σ distribution sets obtained for such a low T for the first time were examined using a number of common formal tests for normality and graphical statistical methods, including Weibull’s model. In general, the σ distributions for the PS with the highest M n = 966 kg/mol were described more correctly than those for the other three polymers, regardless of the statistical methods applied. These results were compared with those obtained after self-bonding at a significantly higher T = T g − 33 °C for the same polymers. The statistical parameters estimated at markedly different temperatures ( T = T g − 80 °C and T g − 33 °C) were compared and discussed. Graphical abstract