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Journal of Macromolecular Science, Part B
Physics
Volume 51, 2012 - Issue 4
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Original Articles

Effect of Lignin Incorporation and Reactive Compatibilization on the Morphological, Rheological, and Mechanical Properties of ABS Resin

Pingan Song Department of Materials, College of Engineering, Zhejiang Agriculture & Forestry University, Hangzhou, P. R. China; Lab of Polymer Materials and Engineering, Ningbo Institute of Technology, Zhejiang University, Ningbo, P. R. China
,
Zhenhu Cao Lab of Polymer Materials and Engineering, Ningbo Institute of Technology, Zhejiang University, Ningbo, P. R. China
,
Qingrong Meng Lab of Polymer Materials and Engineering, Ningbo Institute of Technology, Zhejiang University, Ningbo, P. R. China
,
Shenyuan Fu Department of Materials, College of Engineering, Zhejiang Agriculture & Forestry University, Hangzhou, P. R. China
,
Zhengping Fang Lab of Polymer Materials and Engineering, Ningbo Institute of Technology, Zhejiang University, Ningbo, P. R. China
,
Qiang Wu Department of Materials, College of Engineering, Zhejiang Agriculture & Forestry University, Hangzhou, P. R. China
&
Jiewang Ye Department of Materials, College of Engineering, Zhejiang Agriculture & Forestry University, Hangzhou, P. R. China
 show all
Pages 720-735 | Received 03 Jan 2011, Accepted 25 Apr 2011, Published online: 27 Feb 2012
 
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Abstract

In order to develop the potential application of industrial alkali lignin, its acrylonitrile-butadiene-styrene (ABS) composites were fabricated via melt blending in the absence/presence of a compatibilizer. The lignin can uniformly disperse in the ABS matrix with number-average dispersed-phase domains of sub-micron scale, ranging from 150–250 nm, as observed by scanning electron microscopy. Infrared spectroscopy reveals that strong intermolecular interactions, mainly hydrogen bonding, were responsible for their good interfacial compatibility. Rheological behaviors show that the presence of lignin restricts to some extent the relaxation of polymer chains without affecting the processing properties of ABS resin. The presence of lignin increases storage modulus and glass transition temperature (T g) of ABS. Incorporating small amounts of lignin, e.g. 5 wt%, can produce ABS composites with enhanced tensile strength and modulus, while higher loading of lignin will reduce mechanical properties. The latter, however, can be improved by reactive compatibilization.

Acknowledgments

This work was supported by Natural Science Foundation of Zhejiang Province of China (Nos. Y3100124 and Y3090190), State 863 projects (No. 2010AA101704), and the Scientific Research Foundation of Zhejiang Agriculture & Forestry University (No. 2351001088).

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