@misc{10272/27245, year = {2025}, url = {https://hdl.handle.net/10272/27245}, abstract = {This research examines sustainable nanocellulose-based lubricants made by dispersing fibrillated and crystalline nanocelluloses in castor oil. The study explores how electric fields and shear forces affect their rheological behavior and microstructure, using advanced microscopy and rheometry techniques. Findings show that lower nanocellulose concentrations form flexible string-like structures responsive to electric fields, while higher concentrations create rigid, entangled networks. Pre-shear intensity influences structural changes, altering the lubricants' mechanical properties under different electric fields.}, publisher = {Elsevier}, title = {Tunable structuring of nanocellulose-based sustainable lubricants by an external electric field [Dataset]}, doi = {10.33776/ariasmontano.27245}, author = {Fernández Silva, Samuel David and Delgado Canto, Miguel Ángel and García Pérez, María and Roman Fercheluc, Claudia and García Morales, Moisés and Roman Fercheluc, Claudia}, }