Cellulose https://doi.org/10.1007/s10570-018-1884-2 ORIGINAL PAPER Effect of hydrothermal treatment of microﬁbrillated cellulose on rheological properties and formation of hydrolysis products . . Salla Hiltunen Isto Heiskanen Kaj Backfolk Received: 21 November 2017 / Accepted: 30 May 2018 Springer Science+Business Media B.V., part of Springer Nature 2018 Abstract The aim of this study was to determine the sample decomposition and gel network structure effects of hydrothermal treatment of microﬁbrillated breakdown on a molecular level is discussed. cellulose (MFC) on its gel stability, water retention and rheological behavior. MFC gel was prepared by Keywords Microﬁbrillated cellulose ﬁbrillating endoglucanase pre-treated, never-dried Nanocellulose Hydrothermal treatment Filtrate dissolving pulp. The MFC gel samples were then Rheology exposed in a static chamber for different times at different temperatures. At temperatures of 120–150 C, the viscosity proﬁle of the gels was not signiﬁcantly changed and a characteristic series of 3 Introduction successive regimes in the course of increasing shear rate, showing different behavior was revealed. The The ability of micro- and nanoﬁbrillated cellulose to amount of water released by the samples under form a network, ﬁbril-ﬁbril entangled structures and to pressure, on the other hand, was notably increased interact with liquids, particularly with water at
Cellulose – Springer Journals
Published: Jun 2, 2018
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