Add to ORKGAbstractRecent directional solidification experiments with aqueous suspensions of alumina particles (Anderson & Worster, Langmuir, vol. 28 (48), 2012, pp. 16512–16523) motivate a model for freezing colloidal suspensions that builds upon a theoretical framework developed by Rempel et al. (J. Fluid Mech., vol. 498, 2004, pp. 227–244) in the context of freezing soils. Ice segregates from the suspension at slow freezing rates into discrete horizontal layers of particle-free ice, known as ice lenses. A portion of the particles is trapped between ice lenses, while the remainder are pushed ahead, forming a layer of fully compacted particles separated from the bulk suspension by a sharp compaction front. By dynamically modelling the compaction ...
Water freezing in particle suspensions widely exists in nature. As a typical physical system of free...
We develop a mathematical model of frost heave in compressible soils based on a morphological instab...
The structural evolution of suspensions upon freezing is studied with optical microscopy in a suspen...
We present a mathematical model of the directional freezing of colloidal suspensions. Key ingredient...
Concentrated colloidal alumina dispersions were frozen in a directional solidification apparatus tha...
We study the freezing of a dispersion of colloidal silica particles in water, focusing on the format...
We present a physically intuitive model of ice-lens formation and growth during the freezing of soil...
We present a new, physically-intuitive model of ice-lens formation and growth during the freezing of...
We investigate the interaction of colloidal particles with ice-water interfaces. To this end, the ex...
We analyse the growth rate of segregated ice (ice lenses) in freezing porous media. For typical coll...
A long controversy of ice lensing exists in the research of frost heave. By elucidating the mechanic...
We develop a mathematical model of frost heave in colloidal soils. The theory accounts for heave and...
We investigate the interaction of colloidal particles with the ice-water interface using a combinati...
Abstract. We develop a mathematical model of frost heave in colloidal soils. The theory ac-counts fo...
We assess the morphological stability of a nonequilibrium icecolloidal suspension interface, and app...
Water freezing in particle suspensions widely exists in nature. As a typical physical system of free...
We develop a mathematical model of frost heave in compressible soils based on a morphological instab...
The structural evolution of suspensions upon freezing is studied with optical microscopy in a suspen...
We present a mathematical model of the directional freezing of colloidal suspensions. Key ingredient...
Concentrated colloidal alumina dispersions were frozen in a directional solidification apparatus tha...
We study the freezing of a dispersion of colloidal silica particles in water, focusing on the format...
We present a physically intuitive model of ice-lens formation and growth during the freezing of soil...
We present a new, physically-intuitive model of ice-lens formation and growth during the freezing of...
We investigate the interaction of colloidal particles with ice-water interfaces. To this end, the ex...
We analyse the growth rate of segregated ice (ice lenses) in freezing porous media. For typical coll...
A long controversy of ice lensing exists in the research of frost heave. By elucidating the mechanic...
We develop a mathematical model of frost heave in colloidal soils. The theory accounts for heave and...
We investigate the interaction of colloidal particles with the ice-water interface using a combinati...
Abstract. We develop a mathematical model of frost heave in colloidal soils. The theory ac-counts fo...
We assess the morphological stability of a nonequilibrium icecolloidal suspension interface, and app...
Water freezing in particle suspensions widely exists in nature. As a typical physical system of free...
We develop a mathematical model of frost heave in compressible soils based on a morphological instab...
The structural evolution of suspensions upon freezing is studied with optical microscopy in a suspen...