Cortés Triviño, EsperanzaValencia Barragán, ConcepciónFranco Gómez, José María2021-11-292021-11-292021-07-23Cortés-Triviño, E., Valencia, C., & Franco, J. M. (2021). Thickening Castor Oil with a Lignin-Enriched Fraction from Sugarcane Bagasse Waste via Epoxidation: A Rheological and Hydrodynamic Approach. In ACS Sustainable Chemistry & Engineering (Vol. 9, Issue 31, pp. 10503–10512). American Chemical Society (ACS). https://doi.org/10.1021/acssuschemeng.1c021662168-0485 (electrónico)http://hdl.handle.net/10272/20265Thickening vegetable oils to different extents is of great interest in the design and development of new bio-based lubricant formulations, as achieving a wide range of rheological properties is crucial to the successful replacement of petroleumbased traditional counterparts. With this aim, the influence of epoxidation degree, modified by altering the reaction conditions, on the viscous flow properties of epoxidized castor oil was investigated together with the incorporation of a lignin-enriched fraction from sugarcane bagasse waste to more extensively modify the rheological properties, thereby valorizing this waste fraction. Oil thickening was achieved by promoting the cross-linking between the epoxidized oil and the lignin-enriched fraction that enables the compatibilization of both components. Castor oil epoxidation was assessed by means of standard volumetric titration methods and infrared spectroscopy. In addition, a fully rheological characterization of both epoxidized and lignin-thickened castor oils was carried out. A hydrodynamic approach was also followed, aiming to provide an estimation of the Mark−Houwink−Sakurada parameters and relate the intrinsic viscosity with the average molecular weight of the resulting epoxidized castor oil/lignocellulose macromolecular compounds. The chemical interaction between castor oil and the lignocellulosic material increased as the extent of epoxidation was increased, yielding a variety of rheological responses from Newtonian liquids of increasing viscosities (from around 1 to 500 Pa·s) to viscoelastic liquids.engAtribución-NoComercial-SinDerivadas 3.0 Españahttp://creativecommons.org/licenses/by-nc-nd/3.0/es/Epoxidized castor oilSugarcane bagasse wasteRheologyIntrinsic viscosityMolecular weightjournal article10.1021/acssuschemeng.1c02166open access33 Ciencias Tecnológicas