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Bimodal architecture and rheological and foaming properties for gamma-irradiated long-chain branched polylactides
作者:Huagao Fang, Yaqiong Zhang, Jing Bai, Zhongkai Wang, and Zhigang Wang*
关键字:Long chain branched PLA
论文来源:期刊
具体来源:RSC Advances
发表时间:2013年

A series of long-chain branched polylactides (LCB-PLAs) were prepared from a linear PLA precursor by

applying gamma radiation with addition of the trifunctional monomer, trimethylolpropane triacrylate

(TMPTA) and their topological structures were investigated by size-exclusion chromatography coupled with a multiangle light scattering detector (SEC-MALLS) and rheology. SEC-MALLS measurements show that LCB-PLAs exhibit not only the increased weight-average molecular mass but also a bimodal architecture with a short linear chain fraction and a LCB fraction, as compared with LCB-PLA samples generated by electron-beam radiation, which only show the monomodal macromolecular structure. The introduction of LCB structure contributes to the enhancement of complex viscosity, shear-thinning and storage modulus, and the deviations of phase angle, d from the ‘‘universal’’ curve of linear PLA in d(| G*|) plots (van Gurp–Palmen plot). By the analysis of the thermorheological behaviors and determination of activation energies, the bimodal architecture is confirmed. Activation energies around 77 kJ mol 21 lead to an expectation that some linear macromolecules are still present in LCB-PLAs, while the higher activation energies at large phase angles are associated with the existence of the LCB ones. A conclusion with respect to the tree-like topography for LCB-PLAs is drawn from the molecular mass dependences of zero-shear viscosity (g0–Mw plot). An explanation to these findings is provided under the consideration of the radiation dose rate for the gamma radiation. The remarkable modification of PLA topological chain structure contributes to the improvement of the foaming properties of LCB-PLAs