Aurélien Hermann
Laval University
6 Papers
Aurélien Hermann is an academic researcher from Laval University. The author has contributed to research in topics: Scratch & Coating. The author has an hindex of 1, co-authored 2 publications.
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Papers
Comparative study of the impact of additives against oxygen inhibition on pendulum hardness and abrasion resistance for UV-curable wood finishes
TL;DR: In this article, the authors evaluated the effectiveness of reactive additives against oxygen inhibition by using photo differential scanning calorimetry (DSC) and Confocal Raman Micro-spectroscopy (CRM).
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Physico-mechanical characterisation of basecoats for tailored UV-cured multilayered wood coating systems
Aurélien Hermann,Sylvain Giljean,Marie José Pac,Cyril Marsiquet,Dominique Burr,Véronic Landry +5 more
TL;DR: In this article , the authors analyzed the influence of basecoat composition and thickness on the mechanical behavior of a multilayered wood finishing system and found that the thickness of the basecoats had a great influence on the overall mechanical resistance of the finishing system.
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From waste to building material: How whey ultrafiltration permeate can increase wood stability
Rémi Cadieux-Lynch,Emma Leroux,Aurélien Hermann,Solène Pellerin,Assira Keralta,Maude Blouin,Jules Larouche,Jacopo Profili,Julien Chamberland,Véronic Landry +9 more
TL;DR: Researchers impregnated wood with whey ultrafiltration permeate and citric acid to improve stability, achieving 39% weight gain and 54% anti-swelling efficiency in trembling aspen, with minimal impact on mechanical properties.
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Understanding indentation, scratch and wear behavior of UV-cured wood finishing products
Aurélien Hermann,Sylvain Giljean,M.-J. Pac,Cyril Marsiquet,Manon Beaufils-Marquet,Dominique Burr,Véronic Landry +6 more
TL;DR: In this paper, the glass transition temperature and the crosslinking density were determined to understand the contribution of both components in the polymeric network formed upon UV-curing, and hardness, and abrasion, scratch and wear resistances were studied.
Influence of Magnetic Particles and Magnetic Field on Gloss in UV Coating
Sorouralsadat Ahmadian Davoudi,Marta Multigner,Ingrid Calvez,Aurélien Hermann,Véronic Landry +4 more
TL;DR: The combined effect of magnetic particles and magnetic field on the surface gloss of UV-curable coatings is investigated. Magnetic particles are added as matting agents, and the UV curing process is conducted under a magnetic field. The magnetic field force and modification of magnetic particles impact the surface roughness. The highest decrease in 20° gloss is achieved with a CI-APTES 5% wt. sample cured under a 60 mT magnetic field.