聚合物流动不稳定性建模及其在3d打印中的应用

IF 0.6 4区 工程技术 Q4 MECHANICS
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MODELLING OF POLYMER FLOW INSTABILITIES WITH APPLICATION TO 3D PRINTING
A BSTRACT : Complex flow instabilities including wall slip and shear banding occur in many industrial applications, such as in polymer extrusion processes, thus affecting the throughput and the quality of the final product. The modelling of rheological data is a key point when studying different polymeric flows. The present survey incorporates three different ways to model the shear stress of shear thinning polymers as nonlinear functions of shear stress: generalized Newtonian model (Carreau-Yasuda model), wall shear slipping and banding with yield (Herschel–Bulkley model). Based on these models, the flow in the nozzle tube of a 3D printer is analyzed by a numerical model and two analytical models: the classical Weissenberg–Rabinowitsch–Mooney (WRM) model with slip; a simple model in three different regions in the tube (including yield, parabolic and band, which match their boundaries). The real data of measured shear stress by a plate–plate rheometer for three nanocomposites is used to compare the three models. The experimentally measured flow rates during the extrusion of the same nanocomposites are used to give insight into the corresponding flow structures in the nozzle tube.
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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
22
审稿时长
6 months
期刊介绍: The scope of JTAM contains: - solid mechanics - fluid mechanics - fluid structures interactions - stability and vibrations systems - robotic and control systems - mechanics of materials - dynamics of machines, vehicles and flying structures - inteligent systems - nanomechanics - biomechanics - computational mechanics
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