High Solids Fibrillation of Cellulosic Fibers with and without Pretreatments through Planetary Ball Milling

Author:

Zhang Xiaoxue1,Yelle Daniel2,Kitin Peter2,Tong Guolin1,Zhu J. Y.2

Affiliation:

1. Nanjing Forestry University

2. USDA Forest Products Laboratory

Abstract

Abstract This study conducted a detailed evaluation of the feasibility of producing microfibrillated cellulose (MFC) from a kraft bleached hardwood pulp at high solids loadings with and without pretreatments. MFCs produced by planetary ball milling at solids loading at 17% and 28% were compared with those from 1% and 5% under the same milling conditions. Fiber pretreatments using a commercial endoglucanase and mechanical refining using a laboratory PFI mill were also applied before ball milling at solids loading of 28%. Two mechanisms of fiber fibrillation were identified from the results obtained: (i) ball and fiber/fibril interactions and (ii) inter-fiber/fibril frictional and tensional interactions. High solids loading with both mechanisms (i) and (ii) enhanced fiber fibrillation. A higher solids loading tends to result in a more uniformly fibrillated MFC than that from a lower solids loading run. Endoglucanase pretreatment substantially shortened fibers to result in a pulverized-like MFC with short fibrils at extended milling time. Mechanical refining of fibers facilitated fibrillation to result in MFCs with a morphology similar to that from fibers without any pretreatment but for a much shorter ball milling time. The insights gained through this study provides relevant information with commercial significance about MFC production at high solids, not available in the literature.

Publisher

Research Square Platform LLC

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