ESA SAINT-LUC LIEGE BIBLIOTHEQUE
ACCES COMPTE LECTEUR :
à la demande via l'adresse mail de la bibliothèque.
Catégories
Ajouter le résultat dans votre panier Affiner la recherche Interroger des sources externes
Ernest Pignon-Ernest : l'amour du dessin / Frédéric Bosser in Les arts dessinés, N°28(2024:octobre/décembre) (2024-10-12)
Microscale Physical and Mechanical Analyses of Distemper Paint : A Case Study of Eidsborg Stave Church, Norway in Studies in conservation, Vol.68 N°1-2(2023; January-February) (2023-01-01)
[article]
Titre : Microscale Physical and Mechanical Analyses of Distemper Paint : A Case Study of Eidsborg Stave Church, Norway Type de document : texte imprimé Année de publication : 2023 Article en page(s) : P. 54-67 Note générale : Article en libre accès (open access).
https://www.tandfonline.com/doi/full/10.1080/00393630.2021.1925487Langues : Anglais (eng) Catégories : Adsorption
Analyse quantitative (chimie)
Art -- Matériaux -- Conservation et restauration
Craie
Détrempe (peinture) -- Analyse
Maquettes (sculpture)
Microtomographie
Nanoindentation
Pigments -- Analyse
Vapeur, Technique de laMots-clés : Concentration pigmentaire volumique (CPV) Sorption Dynamique de Vapeur d'eau (DVS) Index. décimale : 7.025 Dommages. Conservation. Protection Résumé : This study focuses on the use of micro-sensitive methods – nanoindentation, dynamic water vapour sorption, and X-ray microtomography – to examine the physical properties of small volumes of artists’ materials. The novel methodology proposed in this paper was tested on laboratory-prepared chalk-based ground samples and subsequently applied to distemper paint samples taken from the polychrome walls of Eidsborg stave church. This article discusses key parameters that can be used to inform macro-sized mock-ups mimicking physical and mechanical behaviour of artistic materials, and highlights limitations of such an approach for highly heterogeneous paint systems. Dynamic water vapour sorption measurements allowed determination of the pigment volume concentration (PVC) of distemper paint from Eidsborg stave church as 95%. To the authors’ knowledge, this represents the first assessment of PVC for historic distemper paint using a non-destructive experimental technique, which can be extended to other hygroscopic samples of known composition.
in Studies in conservation > Vol.68 N°1-2(2023; January-February) (2023-01-01) . - P. 54-67[article] Microscale Physical and Mechanical Analyses of Distemper Paint : A Case Study of Eidsborg Stave Church, Norway [texte imprimé] . - 2023 . - P. 54-67.
Article en libre accès (open access).
https://www.tandfonline.com/doi/full/10.1080/00393630.2021.1925487
Langues : Anglais (eng)
in Studies in conservation > Vol.68 N°1-2(2023; January-February) (2023-01-01) . - P. 54-67
Catégories : Adsorption
Analyse quantitative (chimie)
Art -- Matériaux -- Conservation et restauration
Craie
Détrempe (peinture) -- Analyse
Maquettes (sculpture)
Microtomographie
Nanoindentation
Pigments -- Analyse
Vapeur, Technique de laMots-clés : Concentration pigmentaire volumique (CPV) Sorption Dynamique de Vapeur d'eau (DVS) Index. décimale : 7.025 Dommages. Conservation. Protection Résumé : This study focuses on the use of micro-sensitive methods – nanoindentation, dynamic water vapour sorption, and X-ray microtomography – to examine the physical properties of small volumes of artists’ materials. The novel methodology proposed in this paper was tested on laboratory-prepared chalk-based ground samples and subsequently applied to distemper paint samples taken from the polychrome walls of Eidsborg stave church. This article discusses key parameters that can be used to inform macro-sized mock-ups mimicking physical and mechanical behaviour of artistic materials, and highlights limitations of such an approach for highly heterogeneous paint systems. Dynamic water vapour sorption measurements allowed determination of the pigment volume concentration (PVC) of distemper paint from Eidsborg stave church as 95%. To the authors’ knowledge, this represents the first assessment of PVC for historic distemper paint using a non-destructive experimental technique, which can be extended to other hygroscopic samples of known composition.