期刊
CELLULOSE
卷 30, 期 3, 页码 1553-1566出版社
SPRINGER
DOI: 10.1007/s10570-022-04963-2
关键词
Bio-lubricating greases; Lignin; Cellulose acetate; Electrospinning; Oleogels; Rheology; Tribology
In this study, electrospun Kraft lignin/cellulose acetate nanostructures were produced and investigated as structuring or thickening agents in castor oil for lubricating applications. The morphology of the electrospun nanofibers was influenced by the rheological properties, electrical conductivity, and surface tension of KL/CA solutions, which were in turn affected by the chemical structure and composition of the Kraft lignins. The resulting oleogels, based on KL/CA electrospun nanostructures, exhibited desirable rheological and tribological properties, making them a promising sustainable alternative to conventional lubricating greases.
In the present work, electrospun Kraft lignin/cellulose acetate nanostructures were produced, assessed and proposed as structuring or thickening agents of castor oil for lubricating applications. Solutions of Kraft lignins (KL) derived from different sources (eucalyptus, poplar and olive tree pruning) and cellulose acetate (CA) were prepared and used as feed for electrospinning. The rheological properties (shear and extensional viscosity), electrical conductivity and surface tension of KL/CA solutions influence the morphology of the electrospun nanofibers, which in turn is affected by the chemical structure and composition of the Kraft lignins. Electrospun KL/CA nanostructures consisting of filament-interconnected nanoparticles, beaded nanofibers or uniform nanofiber mats were able to form gel-like homogeneous fine dispersions by simply mechanically dispersing them into castor oil. The swelling of KL/CA nanofibers in the percolation network was demonstrated. The rheological, tribological and microstructural properties of these oleogels are essentially governed by the morphological characteristics of the electrospun nanostructures, i.e. fiber diameter, number of beads and porosity. Rheological properties of the resulting oleogels may be tailored by modifying the lignin source and KL:CA weight ratio. According to their rheological and tribological properties, KL/CA electrospun nanostructures-based oleogels can be proposed as a sustainable alternative to conventional lubricating greases.
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