Your search keyword '"Brzinski III, Theodore A."' showing total 5 results

1. Penetration depth scaling for impact into wet granular packings

Author

Brzinski III, Theodore A., Schug, Jorin, Mao, Kelly, and Durian, Douglas J.

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We present experimental measurements of penetration depths for the impact of spheres into wetted granular media. We observe that the penetration depth in the liquid saturated case scales with projectile density, size, and drop height in a fashion consistent with the scaling observed in the dry case, but that penetration depths into saturated packings tend to be smaller. This result suggests that, for the range of impact energies observed, the stopping force is set by static contact forces between grains within the bed, and that the presence of liquid serves, primarily, to enhance these contact forces. The enhancement to the stopping force has a complicated dependence on liquid fraction, accompanied by a change in the drop-height dependence, that must be the consequence of accompanying changes in the conformation of the liquid phase in the interstices., Comment: 7 pages, 4 figures, to be published in Phys. Rev. E

Published

2014

2. Characterization of the Drag Force in an Air-Moderated Granular Bed

Author

Brzinski III, Theodore A and Durian, Douglas J

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We measure the torque acting on a rod rotated perpendicular to its axis in a granular bed, through which an upflow of gas is utilized to tune the hydrostatic loading between grains. At low rotation rates the torque is independent of speed, but scales quadratically with rod-length and linearly with depth; the proportionality approaches zero linearly as the upflow of gas is increased towards a critical value above which the grains are fluidized. At high rotation rates the torque exhibits quadratic rate- dependence and scales as the rod's length to the 4th power. The torque has no dependence on either depth or airflow at these higher rates. A model used to describe the stopping force experienced by a projectile impacting a granular bed can be shown to predict these behaviors for our system's geometry, indicating that the same mechanics dictate both steady-state and transient drag forces in granular systems, regardless of geometry or material properties of the grains., Comment: 14 pages, 5 figures

Published

2009

3. Characterization of the drag force in an air-moderated granular bed

Author

Brzinski III, Theodore A., primary and Durian, Douglas J., additional

Published

2010

4. Equivalence of abrupt grain-size transitions in alluvial rivers and eolian sand seas: A hypothesis.

Author

Jerolmack, Douglas J. and Brzinski III, Theodore A.

Subjects

*MATHEMATICAL models of fluid dynamics, *STREAMFLOW, *ALLUVIAL streams, *SEDIMENTS, *EOLIAN processes, *SAND dunes

Abstract

Gravel-bed rivers organize to a threshold state in which the fluid stress during dominant flow conditions slightly exceeds the critical value. These channels change fairly abruptly to sand-dominated beds, facilitated by a paucity of sediment in the range of 1-10 mm. Eolian sediments are also bimodal; sand seas often transition rapidly downwind to silty loess deposits. In this paper we hypothesize that both transitions result from the same processes: (1) production of fine sediment by spallation from saltation abrasion of coarse grains, and (2) segregation of fine and coarse modes by suspension and saltation transport, respectively. We demonstrate that gravel rivers and eolian dune fields are dynamically equivalent in terms of threshold transport (Shields stress) and collision dynamics (Stokes number). While abrasion may not be the dominant cause of downstream fining of fluvial gravels, the reduction of collision efficiency with grain diameter sets a lower limit on gravel size, leading to a grain-size gap. The collision efficiency hypothesis potentially reconciles conflicting studies on the importance of sorting and lithology in downstream fining. Shields and Stokes similitude in rivers and deserts may be used to design appropriately scaled experiments to test and refine our hypothesis. [ABSTRACT FROM AUTHOR]

Published

2010

5. Sounds of Failure: Passive Acoustic Measurements of Excited Vibrational Modes.

Author

Brzinski III, Theodore A. and Daniels, Karen E.

Subjects

*GRANULAR materials, *EARTHQUAKES, *BRITTLE fractures

Abstract

Granular materials can fail through spontaneous events like earthquakes or brittle fracture. However, measurements and analytic models which forecast failure in this class of materials, while of both fundamental and practical interest, remain elusive. Materials including numerical packings of spheres, colloidal glasses, and granular materials have been known to develop an excess of low-frequency vibrational modes as the confining pressure is reduced. Here, we report experiments on sheared granular materials in which we monitor the evolving density of excited modes via passive monitoring of acoustic emissions. We observe a broadening of the distribution of excited modes coincident with both bulk and local plasticity, and evolution in the shape of the distribution before and after bulk failure. These results provide a new interpretation of the changing state of the material on its approach to stick-slip failure. [ABSTRACT FROM AUTHOR]

Published

2018