Direct transformation of cellulose fibres into self-reinforced composites by partial oxypropylation
- 1 November 2005
- Vol. 46 (24) , 10611-10613
- https://doi.org/10.1016/j.polymer.2005.09.004
Abstract
No abstract availableKeywords
This publication has 14 references indexed in Scilit:
- Physicochemical properties of hydroxypropylated and cross-linked starches from A-type and B-type wheat starch granulesCarbohydrate Polymers, 2005
- All-Cellulose CompositeMacromolecules, 2004
- Environmental degradability of self-reinforced composites made from sisalComposites Science and Technology, 2004
- Self-reinforced melt processable composites of sisalComposites Science and Technology, 2003
- Continuous cellulose fiber-reinforced cellulose ester composites. II. Fiber surface modification and consolidation conditionsCellulose, 2001
- Continuous cellulose fiber-reinforced cellulose ester composites III. Commercial matrix and fiber optionsCellulose, 2001
- Cellulosic nanocomposites. I. Thermally deformable cellulose hexanoates from heterogeneous reactionJournal of Applied Polymer Science, 2000
- Cellulosic nanocomposites. II. Studies by atomic force microscopyJournal of Applied Polymer Science, 2000
- Internal Plasticization of Granular Rice Starch by Hydroxypropylation: Effects on Phase Transitions Associated with GelatinizationStarch ‐ Stärke, 1993
- 13C-N.M.R.-spectral and related studies on the distribution of substituents in O-(2-hydroxypropyl)celluloseCarbohydrate Research, 1982