Stretch-Induced Intermediate Structures and Crystallization of Poly(dimethylsiloxane): The Effect of Filler Content

Stretch-induced crystallization (SIC) and structural transitions of poly(dimethylsiloxane) (PDMS) filled with different contents of nanosilica were studied with an in situ synchrotron radiation wide-angle X-ray scattering technique during uniaxial tensile deformation at temperatures from −40 to −65 °C. With low filler contents (10 and 25 phr), two different multistage kinetic pathways, namely, (i) amorphous–mesophase-α′−α forms and (ii) amorphous–mesophase-β′–β–α forms, are first observed during SIC of PDMS at −45 and −50 °C, respectively. However, with higher filler contents (40 and 55 phr), only α and β forms are observed during SIC of PDMS. The nonequilibrium SIC structural evolution diagrams of PDMS with different filler contents are constructed in strain–temperature space. Further cyclic tensile experiments demonstrate that the transitions of α′−α and β′−β are reversible and controlled by stress. Under preset strains, cooling results in the emergence of β, β′, α′, and α forms in sequence with the inc...