Synthesis and Dynamic Rheological Behavior of Polybutadiene Star Polymers
1996; American Chemical Society; Volume: 29; Issue: 17 Linguagem: Inglês
10.1021/ma951893w
ISSN1520-5835
AutoresC. H. Adams, Lian R. Hutchings, P. G. Klein, Tom McLeish, Randal W. Richards,
Tópico(s)Polymer Nanocomposites and Properties
ResumoPolybutadiene star polymers, of nominal functionality 3, 4, 8 and 12, all with arm lengths of approximately 30 000 g mol-1, have been synthesized using chlorosilane coupling agents. Dynamic mechanical studies have been carried out using parallel-plate rheometry at various temperatures, and the data frequency−temperature shifted to produce master curves. Fits to the Ball−McLeish constraint release theory indicate an effective entanglement molecular weight somewhat higher than the literature value for a linear polymer. This has been interpreted by considering a dilution of constraints effect caused by the Rouse diffusion of the terminal section of the star arm, leading to a predicted modified entanglement molecular weight similar to that found experimentally. Evidence for the Rouse-like behavior of the terminal section has been obtained from deuterium NMR spectra of a selectively deuterated sample. The presence of small amounts of residual linear chains is shown to be responsible for a further dilution of entanglements. An extension of the theoretical fits to include the high-frequency Rouse mode spectrum shows a divergence between theory and experiment which is indicative of the onset of the glass transition.
Referência(s)