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A MULTI-SCALE TOOL FOR FUNCTIONALIZATION OF POLYOLEFINS THROUGH RADICAL GRAFTING

(2019)
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Organization
Abstract
Free radical induced grafting of polymers is an important synthesis strategy to improve the properties of the pristine polymer and to ensure compatibility in blends. In this contribution, a multi-scale modeling tool is presented that enables to describe the grafting kinetics with a detailed description at the molecular, micro- and meso-scale combined with a 1D macro-scale reactor model. The potential of the model is illustrated with polyolefins as polymer substrate, including model validation to lab-scale and industrial scale data. It is highlighted that the model is indispensable to achieve the optimal process conditions for improved process intensification and functionality/molecular control.
Keywords
REACTIVE PROCESSING, TOPOLOGY, KINETICS, MULTIPHASE MODELING

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Chicago
Hernández Ortiz, Julio César, Paul Van Steenberge, Jan Duchateau, Carolina Toloza, Fons Schreurs, Marie-Françoise Reyniers, Guy Marin, and Dagmar D’hooge. 2019. “A Multi-scale Tool for Functionalization of Polyolefins Through Radical Grafting.” In Ghent: Autex.
APA
Hernández Ortiz, J. C., Van Steenberge, P., Duchateau, J., Toloza, C., Schreurs, F., Reyniers, M.-F., Marin, G., et al. (2019). A MULTI-SCALE TOOL FOR FUNCTIONALIZATION OF POLYOLEFINS THROUGH RADICAL GRAFTING. Presented at the AUTEX2019, Ghent: Autex.
Vancouver
1.
Hernández Ortiz JC, Van Steenberge P, Duchateau J, Toloza C, Schreurs F, Reyniers M-F, et al. A MULTI-SCALE TOOL FOR FUNCTIONALIZATION OF POLYOLEFINS THROUGH RADICAL GRAFTING. Ghent: Autex; 2019.
MLA
Hernández Ortiz, Julio César et al. “A Multi-scale Tool for Functionalization of Polyolefins Through Radical Grafting.” Ghent: Autex, 2019. Print.
@inproceedings{8620194,
  abstract     = {Free radical induced grafting of polymers is an important synthesis strategy to improve the properties of the pristine polymer and to ensure compatibility in blends. In this contribution, a multi-scale modeling tool is presented that enables to describe the grafting kinetics with a detailed description at the molecular, micro- and meso-scale combined with a 1D macro-scale reactor model. The potential of the model is illustrated with polyolefins as polymer substrate, including model validation to lab-scale and industrial scale data. It is highlighted that the model is indispensable to achieve the optimal process conditions for improved process intensification and functionality/molecular control.},
  author       = {Hernández Ortiz, Julio César and Van Steenberge, Paul and Duchateau, Jan and Toloza, Carolina and Schreurs, Fons and Reyniers, Marie-Françoise and Marin, Guy and D'hooge, Dagmar},
  keywords     = {REACTIVE PROCESSING,TOPOLOGY,KINETICS,MULTIPHASE MODELING},
  language     = {eng},
  location     = {Ghent},
  pages        = {3},
  publisher    = {Autex},
  title        = {A MULTI-SCALE TOOL FOR FUNCTIONALIZATION OF POLYOLEFINS THROUGH RADICAL GRAFTING},
  year         = {2019},
}