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Super-IcePhobic Surfaces to Prevent Ice Formation on Aircraft

Resultado final

Update of Project dissemination materials.

Update of Project dissemination materials. The Lead Beneficiary for D6.4 is Dema Aeronautics Inc. (indicated as DEMA in the joint Proposal by EU and Canadian partners). Within the System for Grant Management it is only possible to indicate EU partners and, for this technical reason, a European partner is indicated as the Lead Beneficiary for this Deliverable.

First version of Project dissemination materials: flyer, poster, etc.

First version of Project dissemination materials: flyer, poster, etc. The Lead Beneficiary for D6.3 is Dema Aeronautics Inc. (indicated as DEMA in the joint Proposal by EU and Canadian partners). Within the System for Grant Management it is only possible to indicate EU partners and, for this technical reason, a European partner is indicated as the Lead Beneficiary for this Deliverable.

Published internet site of the PHOBIC2ICE project.
Effect of the temperature and pressure effect on ice water adhesion.
Report on characterization tests to be performed.
Dynamics contact angle modelling for droplet impact by VOF.

Dynamics contact angle modelling for droplet impact by VOF. The Lead Beneficiary for D2.2 is Concordia University Montreal (indicated as CU in the joint Proposal by EU and Canadian partners). Within the System for Grant Management it is only possible to indicate EU partners and, for this technical reason, a European partner is indicated as the Lead Beneficiary for this Deliverable.

Report on interatomic potentials in MD calculations for water surface interaction.
The structural geometries of all models.
Modelling concurrent droplet freezing and shedding under the effect of turbulent flow.

Modelling concurrent droplet freezing and shedding under the effect of turbulent flow. The Lead Beneficiary for D2.9 is Concordia University Montreal (indicated as CU in the joint Proposal by EU and Canadian partners). Within the System for Grant Management it is only possible to indicate EU partners and, for this technical reason, a European partner is indicated as the Lead Beneficiary for this Deliverable.

Numerical simulationof water droplet impact and freezing.

Numerical simulationof water droplet impact and freezing. The Lead Beneficiary for D2.5 is Concordia University Montreal (indicated as CU in the joint Proposal by EU and Canadian partners). Within the System for Grant Management it is only possible to indicate EU partners and, for this technical reason, a European partner is indicated as the Lead Beneficiary for this Deliverable.

Structural models for optimized substrate, coatings and water molecules.

Publicaciones

Developing Superhydrophobic Coatings for Mitigating Aircraft Icing using Plasma Spray Processes

Autores: N. Sharifi
Publicado en: 2018
Editor: Concordia University

A Multiple Level-Set Approach for Modelling Unconstrained Solidification

Autores: H. Shetabivash
Publicado en: 2019
Editor: Concordia University

Development of Slippery Liquid-Infused Porous Surfaces (SLIPS) using Suspension Plasma Spray

Autores: H. Jazaerli
Publicado en: 2019
Editor: Concordia University

Development of a durable thin-on-thick icephobic coating system for aerospace applications

Autores: S. Brown
Publicado en: 2019
Editor: Polytechnique Montreal

Preparation and characterization of hydrophobic polyacrylate composite latex modified with silica

Autores: Michał Kasprzak
Publicado en: 2018
Editor: Warsaw University of Technology

Effect of chemical and physical modifications of polyurethane coatings on their hydrophobic and icephobic properties

Autores: B. Przybyszewski
Publicado en: 2020
Editor: Warsaw University of Technology

Synthesis and characterization of hydrophobic coatings

Autores: Bartosz Adamczyk
Publicado en: 2018
Editor: Warsaw University of Technology

Preparation and characterization of hydrophobic polyacrylate composite latex modified with silica and titanium oxide

Autores: Kacper Jędrczak
Publicado en: 2018
Editor: Warsaw University of Technology

Engineering surface texture and hierarchical morphology of suspension plasma sprayed TiO 2 coatings to control wetting behavior and superhydrophobic properties

Autores: Navid Sharifi, Fadhel Ben Ettouil, Christian Moreau, Ali Dolatabadi, Martin Pugh
Publicado en: Surface and Coatings Technology, Edición 329, 2017, Página(s) 139-148, ISSN 0257-8972
Editor: Elsevier BV
DOI: 10.1016/j.surfcoat.2017.09.034

Hydrophobicity, Freezing Delay, and Morphology of Laser-Treated Aluminum Surfaces

Autores: Víctor J. Rico, Carmen López-Santos, Martín Villagrá, Juan P. Espinós, German F. de la Fuente, Luis A. Angurel, Ana Borrás, Agustín R. González-Elipe
Publicado en: Langmuir, Edición 35/19, 2019, Página(s) 6483-6491, ISSN 0743-7463
Editor: American Chemical Society
DOI: 10.1021/acs.langmuir.9b00457

Anti-icing performance and durability of suspension plasma sprayed TiO2 coatings

Autores: Navid Sharifi, Ali Dolatabadi, Martin Pugh, Christian Moreau
Publicado en: Cold Regions Science and Technology, Edición 159, 2019, Página(s) 1-12, ISSN 0165-232X
Editor: Elsevier BV
DOI: 10.1016/j.coldregions.2018.11.018

"El Proyecto europeo Phobic2ice, contra el hielo de los aviones. ""European project Phobic2ice, against aircraft icing"""

Autores: INTA, CSIC
Publicado en: 2016
Editor: Madrid Aerospace

"“Contra los peligros del hielo”. ""Against dangers of ice"""

Autores: INTA, CSIC
Publicado en: 2016
Editor: tiempo.com

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