Agnès Smith scite author profile

Gypsum needle crystallization from a suspension of calcium sulfate hemihydrate grains in an aqueous solution is studied on a mesoscopic scale. We build a simulation model, which assumes that gypsum formation is limited by heterogeneous nucleation and precipitation with an initial autocatalytic surface-controlled needle growth and a final diffusion-controlled growth. The model introduces a minimal number of parameters whose effect on growth dynamics and gypsum morphology is analyzed. We find that the increase of nucleus number per hemihydrate grain decreases induction time and needle length and increases needle entanglement, i.e., improves the mechanical properties of the material. The simulation results correctly reproduce experiments with and without treatment of the reactants. The simulation model can be used to predict the behavior of the reactive system in conditions that are not compatible with experimental observations.

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Comparison of the thermal degradation of natural, alkali‐treated and silane‐treated hemp fibers under air and an inert atmosphere

Rachini¹,

Troëdec²,

Peyratout³

et al. 2008

J of Applied Polymer Sci

118

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In situ inorganic foams prepared from various clays at low temperature

Prud’Homme

Michaud

Joussein

et al. 2011

Applied Clay Science

162

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Surface properties of kaolin and illite suspensions in concentrated calcium hydroxide medium

Konan

Peyratout

Bonnet

et al. 2007

Journal of Colloid and Interface Science

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Agnès Smith

Influence of various chemical treatments on the composition and structure of hemp fibres

Mechanical properties of hemp fibre reinforced cement: Influence of the fibre/matrix interaction

Silica fume as porogent agent in geo-materials at low temperature

Relation between solution chemistry and morphology of SnO2-based thin films deposited by a pyrosol process

Modeling Gypsum Crystallization on a Submicrometric Scale

Comparison of the thermal degradation of natural, alkali‐treated and silane‐treated hemp fibers under air and an inert atmosphere

In situ inorganic foams prepared from various clays at low temperature

Surface properties of kaolin and illite suspensions in concentrated calcium hydroxide medium

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