Fluid inertia effects in squeeze films

“…Pressure distribution measurements (Fig. 8) for a Newtonian fluid specimen (CANNON N5100, 100% polybutene) fall within the bounds of the pressure film and are in good agreement with predictions made using a quasi-stationary Newtonian squeeze-flow model [32].…”

An experimental investigation into the kinematics of a concentrated hard-sphere colloidal suspension during Hopkinson bar evaluation at high stresses

“…Pressure distribution measurements (Fig. 8) for a Newtonian fluid specimen (CANNON N5100, 100% polybutene) fall within the bounds of the pressure film and are in good agreement with predictions made using a quasi-stationary Newtonian squeeze-flow model [32].…”

An experimental investigation into the kinematics of a concentrated hard-sphere colloidal suspension during Hopkinson bar evaluation at high stresses

“…The basic contribution in this regard can be named to Stefan [1]. His pioneering effort has opened new doors for researchers and a lot of studies have been carried out following him [2][3][4][5][6][7][8]. Homotopy perturbation solution for Two-dimensional MHD squeezing flow between parallel plates has been determined by Siddiqui et al [9].…”

Effects of viscous dissipation and slip velocity on two-dimensional and axisymmetric squeezing flow of Cu-water and Cu-kerosene nanofluids

“…An example of a material for which one would expect specimen thickness to play a large role in the compressive response is a purely viscous material. This assertion comes from the squeeze flow theory developed for viscous, Newtonian materials by Stefan [44] and expanded on by Kuzma [45]. Both authors found that the normal stress in a Newtonian fluid under squeezing flow is a function of the gap thickness, r ¼ f ðh À3 Þ.…”

Phenomenological modeling of the response of a dense colloidal suspension under dynamic squeezing flow