Print Email Facebook Twitter Microencapsulation of various reactive monomers by in situ polymerization Part of: ICSHM 2013: Proceedings of the 4th International Conference on Self-Healing Materials· list the conference papers Title Microencapsulation of various reactive monomers by in situ polymerization Author Ollier, R.P. Penoff, M.E. Rodriguez, E.S. Alvarez, V.A. Date 2013-06-16 Abstract Advances in the study of composite polymeric materials for structural applications have suggested the possibility of an early elimination of cracks to avoid macroscopic damage of the material. Hence, the concept of self-healing composite materials has been introduced to reduce the maintenance cost and frequency, to increase the life in service and to expand the applications of these materials. One of the most successful and versatile approach consists on embedding an encapsulated haling agent inside the matrix. One of the key features for the effectiveness of the healing system is the microcapsule design. The release properties depend on the healing agent properties, wall materials, the microencapsulation method, the physico-chemical parameters of the process, the mean particle size and the shell thickness. In order to have a successful self-healing performance, it is important to synthesize microcapsules with rough surface morphology to assure a good adhesion with de polymer matrix, low core material permeability, appropriate diameter and core content, and adequate shell thickness. The aim of this work was to synthesize poly (urea-formaldehyde) microcapsules filled with different reactive monomers: dicyclopentadiene and two epoxy monomers with different viscosities. This parameter is important for the release properties and the healing performance of the resulting capsules. Microcapsules were prepared by in situ polymerization in oil-in-water emulsion and the best experimental conditions were selected to optimize the subsequent healing efficiency. Several reaction conditions were analyzed, by changing the following parameters: the rate of agitation, the concentration of surfactant and the viscosity of the encapsulated phase. The effect of the addition of nanoclay along the shell was also studied. The final step of filtering and washing the obtained capsules with different solvents was analyzed as well. Subject self-healingmicrocapsulesreactive monomerssynthesis To reference this document use: http://resolver.tudelft.nl/uuid:b5e845ee-0da9-4e83-af62-257042d360e0 Part of collection Conference proceedings Document type conference paper Rights (c) 2013 Ollier, R.P.; Penoff, M.E.; Rodriguez, E.S.; Alvarez, V.A. Files PDF Ollier.pdf 711.96 KB Close viewer /islandora/object/uuid:b5e845ee-0da9-4e83-af62-257042d360e0/datastream/OBJ/view