Special issue: “Integrated approaches for the mechanics of masonry structures: Novel strategies for experimental characterization,mathematical modelling and computer simulations”
Restricted accessOtherFirst published online January, 2025
Special issue: “Integrated approaches for the mechanics of masonry structures: Novel strategies for experimental characterization,mathematical modelling and computer simulations”
AitaDMilaniGTaliercioA. Limit analysis of masonry domes with oculus and lantern: a comparison between different approaches. Math Mech Solids2025; 30(1): 6–28.
2.
SiposAA. About the number of hinges at failure of semicircular and pointed masonry arches. Math Mech Solids2025; 30(1): 29–39.
3.
AlexakisHMakrisN.Vector analysis and the stationary potential energy for assessing equilibrium of curved masonry structures. Mathematics and Mechanics of Solids2025; 30(1): 40–56.
4.
TranCALeòn TrujilloFJSalvatoriA, et al. A hemivariational damageable elastoplastic vertex-spring model for masonry analysis. Math Mech Solids2025; 30(1): 57–72.
5.
KoochekiKPietruszczakS. Mesoscale analysis of fracture process in brick masonry structures. Math Mech Solids2025; 30(1): 73–92.
6.
DianaVBacigalupoAGambarottaL. Dynamic continualization of masonry-like structured materials. Math Mech Solids2024; 29(3): 577–595.
7.
SciutiVFVargasRGuerreroN, et al. Digital image correlation analyses of masonry infilled frame: uncertainty-based mesh refinement and damage quantification. Math Mech Solids2025; 30(1): 93–115.
8.
EhabMKamelKMassartTJ. Towards automated image-based cohesive zone modeling of cracking in irregular masonry. Math Mech Solids2025; 30(1): 116–136.
9.
RiosAJNelaBPingaroM, et al. Parametric analysis of masonry arches following a limit analysis approach: influence of joint friction, pier texture, and arch shallowness. Math Mech Solids2025; 30(1): 137–165.
