FAHS Armand

Articles

• Modeling Multiple Stress Relaxations behaviors of Dynamic Polymer Network near its Glass Transition Temperature
  30 January, by PC
• Peinture Assistée par Robot pour Milieu Exigu
  29 January, by IM

  Acronym: PARME
  Short Overview: The aim of the PARM project is to design a robotic solution for the maintenance of steel infrastructures in complex situations, such as tanks, pipes, bilges of ships or certain areas of hydroelectric dams. These areas are so difficult or dangerous to access that operators are unable to maintain them (stripping, anti-corrosion treatment, painting), leading to colossal additional costs for their maintenance.
  In a consortium that include industrial actors (…)

• Influence of a marine natural fibre treatment on biocomposites macro- and nanomechanical properties
  4 June 2020, by LB
• Vers un contrôle des propriétés de surface par auto-assemblage de copolymères diblocs à base de PDMS
  25 March 2017
• MAgnésium Résistant COrrosion Peinture Optimisée Liant Organique
  7 June 2016, by Hugues BRISSET

  Financement:
  RAPID
  Description:
  Un enjeu économique et technologique critique dans l’aéronautique aujourd’hui repose sur l’allègement des structures et des pièces mécaniques par l’utilisation de matériaux légers. Pour cela, le magnésium constitue un métal idéal face à l’aluminium, le titane et l’acier grâce à sa très faible densité et ses propriétés mécaniques compatibles avec le cahier des charges de nombreuses pièces de structure. Cependant, certaines de ses propriétés comme la tenue (…)

• Experimental evidence of the interface/interphase formation between powder coating and composite material
  2 June 2016
• FAHS Armand
  3 June 2016

  Research Topics Physico-chemical characterization of the surface and interface properties of polymer-based materials Nanoscale characterization of materials by Scanning Probe Microscopy (SPM)

• Photopolymerized Zeolite/MOF@Polymer Hybrid Materials as Mixed Membranes for Improved Gas Separation
  29 January, by IM

  Acronym: PROMIZE
  Short Overview: The PROMIZE project is dedicated to the innovative development of zeolite/MOF-polymer hybrid materials. Its core mission is to design advanced hybrid mixed matrix membranes (MMMs) that are mechanically, thermally, and chemically stable, offering cost-effective solutions with high-end performance capabilities for CO2 removal and the purification of CH4 and H2-rich gas feeds. These objectives align with industrially relevant conditions encompassing humidity, (…)

• Caractérisation et activité anti‐biofilm de substances polymériques extracellulaires produites par la bactérie marine Pseudoalteromonas ulvae (TC14)
  3 June 2016
• Epoxy vitrimer materials based on disulfide exchange chemistry : experimental study and modeling of the stress relaxation – application to composites reinforced by nanofibrillated cellulose
  7 October 2019

  Beginning: December 2018
  Defense: Septembre 13th, 2021