Dynamic Simulation of 3D Fluid Field for Four-Wing Synchronous Mixer Rotor and Four-Wing Asynchronous Mixer Rotor

Chun Ping Chen; Chuan Sheng Wang; Meng Zhang

doi:10.4028/www.scientific.net/KEM.501.76

Paper Titles

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Application of SMA on the Alloy of Nylon6/ABS
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Thermal Conductivity of Amorphous and Crystalline SiO₂ Nano-Films from Molecular Dynamics Simulations
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Numerical Investigation of the Effect of Rotors’ Geometric Structure on Mixing Properties of Continuous Mixer
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Dynamic Simulation of 3D Fluid Field for Four-Wing Synchronous Mixer Rotor and Four-Wing Asynchronous Mixer Rotor
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Data Measurement and Analysis Method for YLJ Series Tire Uniformity Testing Machine
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Study on Thermal Conductivity of Filled Silicone Rubber
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Review of Research Progress on Galling in Sheet Metal Forming
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The Study on the Preparation and Properties of PPO/PA66 Alloy with a New Type of Compatibtlizer B
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Dynamic Simulation of 3D Fluid Field for Four-Wing Synchronous Mixer Rotor and Four-Wing Asynchronous Mixer Rotor

Abstract:

The physical, mathematical and finite element models for the four-wing synchronous rotors and four-wing asynchronous rotors in internal mixer were established in this paper. By comparative analysis of the two types of processes involved in mixing process the pressure field, the velocity field and the concentration field, the viscosity field and the mixed exponential distribution on its 3D fluid field dynamic simulation were computed by the polyflow software. The results showed that the four-wing synchronous rotors were better than the four-wing asynchronous rotors in a number of performance parameters.