Chunilall, VirenWesley-Smith, JBush, T2009-07-092009-07-092006-11Chunilall, V, Wesley-Smith, J and Bush, T. 2006. Cellulose fibril aggregation studies of Eucalyptus dissolving pulps using atomic force microscopy. 45th Conference of the Microscopy Society of Southern Africa, Port Elizabeth, 27 Nov-1 Dec, 2006, pp 1http://hdl.handle.net/10204/349345th Conference of the Microscopy Society of Southern Africa, Port Elizabeth, 27 Nov-1 Dec, 2006Dissolving pulp is the end-product of acid-bisulphite pulping and bleaching processes, during which almost all non-cellulosic wood components are removed to produce dissolving pulp with final a cellulose purity of up to 96%. Dissolving pulp is subsequently modified chemically to produce derivatives such as microcrystalline cellulose, viscose and acetate. Therefore, reactivity is an important aspect of dissolving pulp. This study describes the ultrastructural changes in CFA measured in dissolving pulp of Eucalyptus dried using contrasting methods. The 92 and 96% cellulose pulps were freeze-dried to avoid conformational changes, or oven-dried at 105 C degrees for 18 hours.enCellulose fibril aggregationCFAPulpsEucalyptusAtomic force microscopyAFMAcid-bisulphite pulpingConference of the Microscopy Society of Southern AfricaConference PresentationChunilall, V., Wesley-Smith, J., & Bush, T. (2006). Cellulose fibril aggregation studies of Eucalyptus dissolving pulps using atomic force microscopy. http://hdl.handle.net/10204/3493Chunilall, Viren, J Wesley-Smith, and T Bush. "Cellulose fibril aggregation studies of Eucalyptus dissolving pulps using atomic force microscopy." (2006): http://hdl.handle.net/10204/3493Chunilall V, Wesley-Smith J, Bush T, Cellulose fibril aggregation studies of Eucalyptus dissolving pulps using atomic force microscopy; 2006. http://hdl.handle.net/10204/3493 .TY - Conference Presentation AU - Chunilall, Viren AU - Wesley-Smith, J AU - Bush, T AB - Dissolving pulp is the end-product of acid-bisulphite pulping and bleaching processes, during which almost all non-cellulosic wood components are removed to produce dissolving pulp with final a cellulose purity of up to 96%. Dissolving pulp is subsequently modified chemically to produce derivatives such as microcrystalline cellulose, viscose and acetate. Therefore, reactivity is an important aspect of dissolving pulp. This study describes the ultrastructural changes in CFA measured in dissolving pulp of Eucalyptus dried using contrasting methods. The 92 and 96% cellulose pulps were freeze-dried to avoid conformational changes, or oven-dried at 105 C degrees for 18 hours. DA - 2006-11 DB - ResearchSpace DP - CSIR KW - Cellulose fibril aggregation KW - CFA KW - Pulps KW - Eucalyptus KW - Atomic force microscopy KW - AFM KW - Acid-bisulphite pulping KW - Conference of the Microscopy Society of Southern Africa LK - https://researchspace.csir.co.za PY - 2006 T1 - Cellulose fibril aggregation studies of Eucalyptus dissolving pulps using atomic force microscopy TI - Cellulose fibril aggregation studies of Eucalyptus dissolving pulps using atomic force microscopy UR - http://hdl.handle.net/10204/3493 ER -