On the statics of curved masonry structures via numerical models

• Main Authors: Valentino Paolo Berardi, Mariella De Piano
• Format: Article
• Language: English
• Published: Emerald Publishing 2018-12-01
• Series: PSU Research Review
• Subjects: Lumped stress method; Masonry structures; Structural strengthening; Tensegrity approach; Vaults
• Online Access: https://www.emeraldinsight.com/doi/pdfplus/10.1108/PRR-07-2018-0020

Purpose - This paper aims to review recent literature results on the equilibrium problem and the strengthening design of masonry vaults. Design/methodology/approach - A Lumped Stress Method (LSM) is considered within the Heyman’s safe theorem, based on the definition of thrust surface of a masonry curved structure. In particular, the static problem of the vault is formulated by introducing a membrane continuous of the studied masonry structure to associate with a spatial truss through a nonconforming variational approximation of the thrust surface and membrane stress potential. A tensegrity approach based on a minimal mass design strategy, different strengths in tension and compression of the material is discussed within the strengthening strategy of masonry vaults. Findings - The numerical results have highlighted the efficacy of the two numerical approaches to assess the vulnerability of existing structures and design optimal strengthening interventions of these structures. Originality/value - The presented models can represent fast and useful tools to assess the vulnerability of existing structures and design optimal strengthening interventions with composite materials of these structures.