Modelling of paste flows subject to liquid phase migration

Patel, Milan; Blackburn, S.; Wilson, D.I.

doi:10.1002/nme.2040

Cited by 24 publications

(15 citation statements)

References 29 publications

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“…The quality of extrudate and paste in the barrel were analysed, post and also during extrusion [134,140,[166][167][168][169]. Like the study by Bohner and Baroud [78], several studies have taken a theoretical approach in an attempt to gain a deeper understanding of the phase separation process and identify the mechanism and extent by which different methods may reduce phase separation [150,151,170,171]. As a result, the understanding of phase separation during extrusion of these pastes is more advanced compared to the extrusion of CPC.…”

Section: Phase Separation During Extrusion Of Pastesmentioning

confidence: 99%

Critical review: Injectability of calcium phosphate pastes and cements

et al. 2017

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Occurrence of phase separation of calcium phosphate pastes and cements during injection limits their full exploitation as a bone substitute in minimally invasive surgical applications. Due to lack of theoretical understanding of the phase separation mechanism(s), optimisation of an injectable CPC that satisfies clinical requirements has proven difficult. However, phase separation of pastes during delivery has been the focus across several research fields. Therefore in addition to a review of methods to reduce phase separation of CPC and the associated constraints, a review of phase separation mechanisms observed during extrusion of other pastes and the theoretical models used to describe these mechanisms is presented. It is anticipated this review will benefit future attempts to develop injectable calcium phosphate based systems.

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Section: Phase Separation During Extrusion Of Pastesmentioning

confidence: 99%

Critical review: Injectability of calcium phosphate pastes and cements

et al. 2017

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“…This approach is hindered by computational complexity as current computing power limits us to simplified systems with significantly fewer particles than in practice so it is unlikely to be of practical use in the short term. An alternative approach is to modify soil mechanics models to accommodate the large strains experienced during extrusion and this has been demonstrated by Patel et al 84 : the shortcoming is the need to generate material parameters but its power lies in being able to predict phase separation or difference in solid/liquid concentrations.…”

Section: Paste Flowmentioning

confidence: 98%

“…Testing of formulations propensity for phase migration can be performed by capillary extrusion 85 and squeeze flow 86 : linking the results to performance in complex geometries is not straightforward. Extrusion has been analysed by critical state theory 87 to develop threshold criteria and this is now being applied to detailed simulations 84 to link formulation, die geometry and operation to design out phase migration.…”

Section: Paste Flowmentioning

confidence: 99%

Shaping ceramics by plastic processing

Blackburn¹,

Wilson²

2008

Journal of the European Ceramic Society

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“…Simultaneously, the flow entering the die along the extruder axis (near to y = 0) undergoes almost pure extension, as shown by the positive ∂V x /∂x, maintaining the incom-pressibility of the material so that a relative permeating liquid flow can be neglected. This stretching of the paste entering the die may be indicative of the above mentioned suction effect [30,31,33] that is responsible for drawing liquid out of slower flowing die entry corners into the main extruding flow. These velocity gradients serve to offer a thorough qualitative description of the main deformational flow at the die entry at steady state.…”

Section: Extrusion Velocity Profilesmentioning

confidence: 99%

Linking particle properties to dense suspension extrusion flow characteristics using discrete element simulations

et al. 2017

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Extrusion is a widely used process for forming pastes into designed shapes, and is central to the manufacture of many industrial products. The extrusion through a square-entry die of a model paste of non-Brownian spheres suspended in a Newtonian fluid is investigated using discrete element simulations, capturing individual particle contacts and hydrodynamic interactions. The simulations reveal inhomogeneous velocity and stress distributions, originating in the inherent microstructure formed by the constituent particles. Such features are shown to be relevant to generic paste extrusion behaviour, such as die swell. The pressure drop across the extruder is correlated with the extrudate velocity using the Benbow-Bridgwater equation, with the empirical parameters being linked directly to particle properties such as surface friction, and processing conditions such as extruder wall roughness. Our model and results bring recent advances in suspension rheology into an industrial setting, laying foundations for future model development, paste formulation and extrusion design. arXiv:1608.06188v1 [cond-mat.soft]

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Modelling of paste flows subject to liquid phase migration

Cited by 24 publications

References 29 publications

Critical review: Injectability of calcium phosphate pastes and cements

Critical review: Injectability of calcium phosphate pastes and cements

Shaping ceramics by plastic processing

Linking particle properties to dense suspension extrusion flow characteristics using discrete element simulations

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