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      Cellulose reinforced polymer composites and nanocomposites: a critical review

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      Cellulose
      Springer Nature

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          Microfibrillated cellulose and new nanocomposite materials: a review

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            Introduction to Percolation Theory

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              Review of recent research into cellulosic whiskers, their properties and their application in nanocomposite field.

              There are numerous examples where animals or plants synthesize extracellular high-performance skeletal biocomposites consisting of a matrix reinforced by fibrous biopolymers. Cellulose, the world's most abundant natural, renewable, biodegradable polymer, is a classical example of these reinforcing elements, which occur as whisker-like microfibrils that are biosynthesized and deposited in a continuous fashion. In many cases, this mode of biogenesis leads to crystalline microfibrils that are almost defect-free, with the consequence of axial physical properties approaching those of perfect crystals. This quite "primitive" polymer can be used to create high performance nanocomposites presenting outstanding properties. This reinforcing capability results from the intrinsic chemical nature of cellulose and from its hierarchical structure. Aqueous suspensions of cellulose crystallites can be prepared by acid hydrolysis of cellulose. The object of this treatment is to dissolve away regions of low lateral order so that the water-insoluble, highly crystalline residue may be converted into a stable suspension by subsequent vigorous mechanical shearing action. During the past decade, many works have been devoted to mimic biocomposites by blending cellulose whiskers from different sources with polymer matrixes.
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                Author and article information

                Journal
                Cellulose
                Cellulose
                Springer Nature
                0969-0239
                1572-882X
                October 2013
                August 2013
                : 20
                : 5
                : 2221-2262
                Article
                10.1007/s10570-013-0007-3
                cf9c863b-4b88-4313-b157-9de4509bf5a3
                © 2013
                History

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