add new publication

docs/web/bibliography.bib

@@ -1,3 +1,24 @@
+@article{gril_combining_2024,
+	title = {Combining engineering and wood science for the conservation of artworks: Hygro-mechanical study of Mona Lisa’s wooden support},
+	rights = {https://creativecommons.org/licenses/by-nc-nd/4.0/},
+	issn = {1254-7867},
+	url = {https://journals.openedition.org/techne/21713},
+	doi = {10.4000/11v48},
+	shorttitle = {Combining engineering and wood science for the conservation of artworks},
+	abstract = {Since 2004, the wooden support of Mona Lisa has been studied by an international research team formed by specialists of wood science and optical measurements, interacting closely with curators and restorers, to evaluate the climatic specifications adopted for the then new climate-controlled display case, assess the risk of propagation of a historical crack affecting the Panel, suggest possible improvements to the Panel’s framing, and improve the technological aspects of the current monitoring procedure. The study has been carried out mainly by direct observation and measurements during the yearly opening of the display case, by continuous monitoring of the Panel’s mechanical behaviour and by developing a predictive numerical model based on the finite element method. This paper deals with the following topics: (i) a technological description of the Panel and of its framing, (ii) the non-invasive measurement equipment and monitoring methods developed, (iii) the simulations of the hygro-mechanical behaviour, (iv) the most significant results obtained so far, including the derivation of the elastic parameters of the wooden Panel, the description of the contact zones between Panel and framing, the evaluation of contact forces and possible actions for improving the framing. The model implementation evidences the correspondence between principal strains in the Panel and craquelure patterns in the paint layers, and allows assessing the crack propagation risk.},
+	pages = {128--147},
+	issue = {Hors-série},
+	journaltitle = {Technè. La science au service de l’histoire de l’art et de la préservation des biens culturels},
+	author = {Gril, Joseph and Brémand, Fabrice and Badel, Éric and Dionisi-Vici, Paolo and Doumalin, Pascal and Dupré, Jean-Christophe and Fioravanti, Marco and Godi, Gaël and Goli, Giacomo and Hesser, Franck and Jullien, Delphine and Mandron, Patrick and Mazzanti, Paola and Ravaud, Élisabeth and Riparbelli, Lorenzo and Togni, Marco and Uzielli, Luca},
+	urldate = {2024-08-01},
+	date = {2024-06-20},
+	langid = {english},
+	note = {{ISBN}: 9782111674400
+Number: Hors-série
+Publisher: Centre de recherche et de restauration des musées de France},
+	keywords = {climate-controlled display case, crack propagation, finite-element model, fringe pattern profilometry, hygro-mechanical behaviour, Leonardo da Vinci, Mona Lisa, non-invasive monitoring, panel painting, wireless data transmission},
+}
+
 @article{balaguer_enhanced_2024,
 	title = {Enhanced Skorohod–Olevsky viscous model incorporating microstructure evolution for finite element analysis of ceramic sintering},
 	volume = {44},

docs/web/publications.md

@@ -13,6 +13,7 @@ eqnPrefixTemplate: "($$i$$)"
 
 ---
 nocite: |
+    @gril_combining_2024
     @balaguer_enhanced_2024
     @introini_alcyone_2024
     @abou_chakra_micromechanical_2024