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" Surface properties of non-conventional cellulose fibres / "
Majda Sfiligoj Smole, Silvo Hribernik, Manja Kurečič, Andreja Urbanek Krajnc, Tatjana Kreže, Karin Stana Kleinschek.
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BL
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| Record Number
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860798
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| Main Entry
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Smole, Majda Sfiligoj
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| Title & Author
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Surface properties of non-conventional cellulose fibres /\ Majda Sfiligoj Smole, Silvo Hribernik, Manja Kurečič, Andreja Urbanek Krajnc, Tatjana Kreže, Karin Stana Kleinschek.
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| Publication Statement
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Cham, Switzerland :: Springer,, 2019.
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| Series Statement
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SpringerBriefs in molecular science, Biobased polymers
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1 online resource
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| ISBN
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3030104079
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: 3030104087
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: 9783030104078
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: 9783030104085
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3030104060
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9783030104061
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| Bibliographies/Indexes
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Includes bibliographical references.
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| Contents
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Intro; Contents; About the Authors; Abbreviations; List of Figures; List of Tables; Abstract; 1 Introduction; Abstract; References; 2 Anatomy of Plant Fibres; Abstract; 2.1 Morphological Characteristics of Technical and Ultimate Plant Fibres; 2.2 Crystalline-Amorphous Structure of Different Types of Cellulose Fibres; References; 3 Non-conventional Plant Fibres; Abstract; 3.1 Dicotyledonous Fibre Plants; 3.1.1 Quinoa; 3.1.2 Nettle; 3.1.3 Mulberry; 3.1.4 Hop; 3.1.5 The Fibre Plants of the Pea Family; 3.1.5.1 Soy Hulls; 3.1.5.2 Lucerne; 3.1.5.3 Spanish Broom; 3.1.6 Loofah; 3.1.7 Okra
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3.1.8 Babylon Willow3.1.9 Cassava; 3.1.10 Khimp; 3.1.11 Balm-Leaved Archangel; 3.2 Monocotyledonous Fibre Plants; 3.2.1 Agave; 3.2.2 Fibre Plants of the Palm Family (Arecaceae); 3.2.2.1 Piassava; 3.2.2.2 Palmyra Palm; 3.2.3 Cotton Grass; 3.2.4 Fibre Plants of the Grass Family (Poaceae); 3.2.4.1 Bamboo Fibres; 3.2.4.2 Sabai Grass; 3.2.4.3 Barley; 3.2.4.4 Ryegrass; 3.2.4.5 Giant Miscanthus; 3.2.4.6 Sugarcane Bagasse Fibres; 3.2.4.7 Sorghum; 3.2.4.8 Zoysia; References; 4 Structure and Properties of Non-conventional Cellulose Fibres; Abstract
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4.1 Chemical Composition of Non-conventional Cellulose Fibres4.2 Surface Properties; 4.2.1 Surface Morphology; 4.2.2 Sorption Properties; References; 5 Cellulose Nanofibres; Abstract; 5.1 Non-wood Lignocellulosic Sources for CNCs; References; 6 Preparation of Cellulose Nanocrystals CNC from Nettle, Weeping Willow, Balm-Leaved Archangel, Lucerne and Spanish Broom; Abstract; 6.1 Extraction of Fibres; 6.2 Fibres' Properties; 6.2.1 Mechanical Properties; 6.2.2 Morphological Properties; 6.2.3 Structural Characteristics; 6.3 Preparation of CNC; 6.3.1 Surface Morphology of Nano-Crystalline Cellulose
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6.3.2 Properties of Nano-Crystalline CelluloseReferences; 7 Conclusion; Abstract; References
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| Abstract
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The authors describe how sustainable textile fibers from crops such as quinoa, grass, hops, corn and wheat stems, etc. have recently begun to generate great interest. The structure-property relationships of such non-conventional cellulose fibers are studied in this brief, as are their sorption and surface properties which are of primary importance. A systematic review of each fiber's properties is given, the emphasis is placed on the water sorption capacity, the fiber's surface potential, and fibrillation properties.
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Cellulose fibers.
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Cellulose fibers.
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TECHNOLOGY ENGINEERING-- Engineering (General)
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TECHNOLOGY ENGINEERING-- Reference.
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| Dewey Classification
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620.1/97
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| LC Classification
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TS1544.C4
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| Added Entry
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Hribernik, Silvo
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Kleinschek, Karin Stana
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Krajnc, Anja Urbanek
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Kreže, Tatjana
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Kurečič, Manja
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