Power-law scaling in granular rheology across flow geometries Seongmin Kim 1 and Ken Kamrin 2 1 Harvard John A. Paulson School of Engineering and Applied Sciences, Harvard University...
Fractional viscoelastic models for power-law materials A Bonfanti ∗1 , J L Kaplan 1 , G... The scientific study of material deformation is known as rheology. To further its inquiry...
See also Power law Rheology Navier–Stokes equations Fluid First-order fluid Cross fluid Carreau fluid Generalized Newtonian fluid Herschel–Bulkley fluid References
A power-law rheology implies that viscosity varies spatially with stress causing localization of strain, and varies temporally as stress evolves, rendering newtonian models untenable. Our...
Power Law Rheology of Folded Protein Hydrogels Anders Aufderhorst-Roberts1,2 Sophie Cussons3,4 David J. Brockwell,3,4 Lorna Dougan2,3∗ 1 Centre for Materials Physics, Department of...
In both cases, nuclear deformability increases with time, scaling as a power law-thus lacking any characteristic timescale-when nuclei are either aspirated or indented by atomic force...
Towards rational design of power-law rheology via DNA nanostar networks Nathaniel Conrad,1 Omar A. Saleh,1, 2, 3 and Deborah K. Fygenson1, 3 1 Physics Department, University of California...
On the statistical properties of fluid flows with transitional power-law rheology in heterogeneous porous media Laurent Talon Université Paris-Saclay, CNRS, FAST, 91405, Orsay, France....
Eng., 30(1), 33-44 (2013) DOI: 10.1007/s11814-012-0117-x INVITED REVIEW PAPER Non-Newtonian power-law flow across a confined triangular bluff body in a channel Amit Kumar Dhiman† and...
To address this, we probe hydrogels of the muscle-derived protein I27_5, using a multimodal rheology approach. Across multiple protocols, the hydrogels consistently exhibit power-law...