C. M. Wong scite author profile

The parallel superposition of small‐ and large‐amplitude oscillations upon steady shear flow of elastic fluids has been considered. Theoretical results, obtained by numerical methods, are based upon the Leonov viscoelastic constitutive equation. Steady‐state components, amplitude, and phase angle of oscillatory components of the shear stress, the first and second normal‐stress differences as a function of shear rate, deformation amplitude, and frequency have been calculated. These oscillatory components include the first harmonic of the shear stresses and the first and second harmonic of the normal stresses. In the case of small‐amplitude superposition, the effect of the steady shear flow upon frequency‐dependent storage and loss moduli has been determined and compared with experimental data available in the literature for polymeric solutions and melts. In the case of large‐amplitude superposition, the effect of oscillations upon the steady shear flow characteristics has been determined and compared with our experimental data for a polymeric melt. The experimental results for shear stress components have been found to be in good agreement with theoretical predictions, although there are some deviations for storage modulus at high shear rates. The deviations seem to be dependent on material. Moreover, the theory is unable to describe experimental data available for the first harmonic of normal stresses.

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Orthogonal superposition of small and large amplitude oscillations upon steady shear flow of polymer fluids

Wong

Isayev

1989

Rheol Acta

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Abstract:The orthogonal superposition of small and large amplitude oscillations upon steady shear flow of elastic fluids has been considered. Theoretical results, obtained by numerical methods, are based on the Leonov viscoelastic constitutive equation. Steady-state components, amplitudes and phase angles of the oscillatory components of the shear stress, the first and second normal stress differences as functions of shear rate, deformation amplitude and frequency have been calculated. These oscillatory components include the first and third harmonic of the shear stresses and the second harmonic of the normal stresses. In the case of small amplitude superposition, the effect of the steady shear flow upon the frequency-dependent storage modulus and dynamic viscosity has been determined and compared with experimental data available in literature for polymeric solutions. The predicted results have been found to be in fair agreement with the experimental data at low shear rates and only in qualitative agreement at high shear rates and low frequencies. A comparison of the present theoretical results has also been made with the predictions of other theories.In the case of large amplitude superposition, the effect of oscillations upon the steady shear flow characteristics has been determined, indicating that the orthogonal superposition has less influence on the steady state shear stresses and the first difference of normal stresses than the parallel superposition. However, in the orthogonal superposition a more pronounced influence has been observed for the second difference of normal stresses.

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An experimental study on the heat dissipation of LED lighting module using metal/carbon foam

Yang

Chung

Lee

et al. 2013

International Communications in Heat and Mass Transfer

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Flow of thermoplastics in an annular die under orthogonal oscillations

Isayev

Wong

Zeng

1990

Journal of Non-Newtonian Fluid Mechanics

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C. M. Wong

Effect of oscillations during extrusion on rheology and mechanical properties of polymers

Parallel superposition of small‐ and large‐amplitude oscillations upon steady shear flow of polymer fluids

Orthogonal superposition of small and large amplitude oscillations upon steady shear flow of polymer fluids

An experimental study on the heat dissipation of LED lighting module using metal/carbon foam

Flow of thermoplastics in an annular die under orthogonal oscillations

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