Control of particle size distribution for the synthesis of small particle size high solids content latexes

Control of particle size distribution for the synthesis of small particle size high solids content latexes

A polymerization process to synthesize bimodal latexes with maximum particle diameters below 350nm and solids content above 65 wt% has been developed. The process is based on an iterative strategy to determine the optimal particle size distribution that gives the maximum packing factor for a given r...

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Veröffentlicht in:Polymer (Guilford) 2010-08, Vol.51 (18), p.4044-4052
Hauptverfasser: Mariz, Inês de F.A., de la Cal, José C., Leiza, Jose R.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Competitive particle growth
Copolymerization
Exact sciences and technology
High solids content
Latex
Mathematical analysis
Monomers
Optimization
Organic polymers
Particle size
Particle size distribution
Physicochemistry of polymers
Preparation, kinetics, thermodynamics, mechanism and catalysts
Reactors
Seeds
Strategy
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container_issue 18
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container_title Polymer (Guilford)
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creator Mariz, Inês de F.A.
de la Cal, José C.
Leiza, Jose R.
description A polymerization process to synthesize bimodal latexes with maximum particle diameters below 350nm and solids content above 65 wt% has been developed. The process is based on an iterative strategy to determine the optimal particle size distribution that gives the maximum packing factor for a given range of particle sizes and at a given solids content. The calculated optimal bimodal PSD was experimentally obtained in a seeded semi-continuous emulsion polymerization reaction as follows: in the first step, a polymer seed latex was loaded in the reactor and grown, under monomer starved conditions, until a given particle size. At this point a fraction of the same seed was added to the reactor and the feed was continued until the desired particle size distribution and solids content were achieved. The point at which the seed was added again to the reactor and the amount of seed required were determined by the iterative strategy and depended on the competitive growth rate ratio of large and small particles that is an input for the iterative strategy. Implementation of the solution obtained from the iterative strategy, and for the first time in the open literature, led to the production of a coagulum free and stable bimodal latex with 70 wt% of solids content and particle sizes below 350nm. [Display omitted]
doi_str_mv 10.1016/j.polymer.2010.07.001
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The process is based on an iterative strategy to determine the optimal particle size distribution that gives the maximum packing factor for a given range of particle sizes and at a given solids content. The calculated optimal bimodal PSD was experimentally obtained in a seeded semi-continuous emulsion polymerization reaction as follows: in the first step, a polymer seed latex was loaded in the reactor and grown, under monomer starved conditions, until a given particle size. At this point a fraction of the same seed was added to the reactor and the feed was continued until the desired particle size distribution and solids content were achieved. The point at which the seed was added again to the reactor and the amount of seed required were determined by the iterative strategy and depended on the competitive growth rate ratio of large and small particles that is an input for the iterative strategy. Implementation of the solution obtained from the iterative strategy, and for the first time in the open literature, led to the production of a coagulum free and stable bimodal latex with 70 wt% of solids content and particle sizes below 350nm. 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The process is based on an iterative strategy to determine the optimal particle size distribution that gives the maximum packing factor for a given range of particle sizes and at a given solids content. The calculated optimal bimodal PSD was experimentally obtained in a seeded semi-continuous emulsion polymerization reaction as follows: in the first step, a polymer seed latex was loaded in the reactor and grown, under monomer starved conditions, until a given particle size. At this point a fraction of the same seed was added to the reactor and the feed was continued until the desired particle size distribution and solids content were achieved. The point at which the seed was added again to the reactor and the amount of seed required were determined by the iterative strategy and depended on the competitive growth rate ratio of large and small particles that is an input for the iterative strategy. Implementation of the solution obtained from the iterative strategy, and for the first time in the open literature, led to the production of a coagulum free and stable bimodal latex with 70 wt% of solids content and particle sizes below 350nm. 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The process is based on an iterative strategy to determine the optimal particle size distribution that gives the maximum packing factor for a given range of particle sizes and at a given solids content. The calculated optimal bimodal PSD was experimentally obtained in a seeded semi-continuous emulsion polymerization reaction as follows: in the first step, a polymer seed latex was loaded in the reactor and grown, under monomer starved conditions, until a given particle size. At this point a fraction of the same seed was added to the reactor and the feed was continued until the desired particle size distribution and solids content were achieved. The point at which the seed was added again to the reactor and the amount of seed required were determined by the iterative strategy and depended on the competitive growth rate ratio of large and small particles that is an input for the iterative strategy. 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source Elsevier ScienceDirect Journals
subjects Applied sciences
Competitive particle growth
Copolymerization
Exact sciences and technology
High solids content
Latex
Mathematical analysis
Monomers
Optimization
Organic polymers
Particle size
Particle size distribution
Physicochemistry of polymers
Preparation, kinetics, thermodynamics, mechanism and catalysts
Reactors
Seeds
Strategy
title Control of particle size distribution for the synthesis of small particle size high solids content latexes
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