BRESSY Christine

Articles

• Drag Reducing and Antifouling Coatings for Navy Ships
  6 June 2016, by Hugues BRISSET

  Acronyme: DRACONS
  Descriptif
  Le projet DRACONS est un projet de recherche et développement associé à la maîtrise d’ouvrage et orienté vers la détermination des performances de revêtements antifouling. Il vise à : étudier les conditions de vieillissement accéléré sur une courte période pour l’évaluation de leurs performances, étudier la formation des biofilms sur des surfaces revêtues immergées in situ et in vitro, étudier leurs incidences sur la réduction de la trainée hydrodynamique. (…)

• Syntheses and NMR and XRD studies of carbohydrate–ferrocene conjugates
  20 May 2020, by ChB
• Self‐stratifying silicone coating with nonleaching antifoulant for marine anti‐biofouling
  20 May 2020, by ChB
• Seawater hydrolyzable graft and block PDMS-based copolymers: How does the architecture affect the antifouling performances of coatings?
  6 June 2016
• Amphiphilic hydrolyzable polydimethylsiloxane-b-poly(ethyleneglycol methacrylate-co-trialkylsilyl methacrylate) block copolymers for marine coatings. I. Synthesis, hydrolysis and surface wettability.
  20 May 2020, by ChB
• Hydrolyzable additive-based silicone elastomers: a new approach of antifouling coatings
  25 April 2019
• Seawater erodible fouling release coatings based on a hydrolyzable network
  19 September 2018, by ChB
• Water erodible coatings based on a hydrolyzable PDMS/polyester network
  5 February 2019
• Hydrolyzable additives-based silicone elastomers: a new approach of antifouling coatings
  19 September 2018, by ChB
• Seawater erodible fouling release coatings based on a hydrolyzable network
  19 September 2018, by ChB