TY - GEN
T1 - EVALUATION OF HISTORICAL STONE STRUCTURES UNDER EXTREME ACTIONS USING RIGID SOLID DYNAMICS METHODS. CASE STUDY
T2 - 9th Euro-American Congress on Construction Pathology, Rehabilitation Technology and Heritage Management, REHABEND 2022
AU - Suárez, Diana
AU - Goicolea, José María
AU - Tarque, Nicola
N1 - Publisher Copyright:
© 2022, University of Cantabria - Building Technology R&D Group. All rights reserved.
PY - 2022
Y1 - 2022
N2 - The conservation of historical masonry structures must include resistance to dynamic actions, such as earthquakes, explosions, impacts, among others. These actions typically require the use of complex nonlinear models. In addition, these models present additional difficulties when dealing with masonry structures, limiting the applicability of the calculation models and finite element programs. The research focuses on developing numerical models-formed by blocks-that fully consider rigid solid dynamics (3D), considering the normal and tangential nonlinear behaviour at the contact zones between all blocks themselves. The solution was performed in an explicit time-domain for dynamic analysis due to the extreme nonlinearity. One of the practical problems to solve here was related to the construction of the numerical model itself through the geometric placement of the different stone blocks, each with its shape and orientation. To solve this issue, scripts were written in Python that allowed systematising and facilitating the entire generation of models with thousands of blocks. As a representative case study, the central pier of the Alcántara Bridge –located in Cáceres, Spainwas used. The bridge is an iconic work of Roman engineering (2nd century) with enormous heritage and historical value. After subjecting the central pier to a seismic action at the base, the results validated the expected collapse mechanism in this structure, characterised by the expulsion of the stone blocks and the progressive collapse of the internal infill. It is thus demonstrated that nonlinear modelling of masonry structures with rigid blocks can be an effective alternative to determine the seismic capacity of historic stone structures.
AB - The conservation of historical masonry structures must include resistance to dynamic actions, such as earthquakes, explosions, impacts, among others. These actions typically require the use of complex nonlinear models. In addition, these models present additional difficulties when dealing with masonry structures, limiting the applicability of the calculation models and finite element programs. The research focuses on developing numerical models-formed by blocks-that fully consider rigid solid dynamics (3D), considering the normal and tangential nonlinear behaviour at the contact zones between all blocks themselves. The solution was performed in an explicit time-domain for dynamic analysis due to the extreme nonlinearity. One of the practical problems to solve here was related to the construction of the numerical model itself through the geometric placement of the different stone blocks, each with its shape and orientation. To solve this issue, scripts were written in Python that allowed systematising and facilitating the entire generation of models with thousands of blocks. As a representative case study, the central pier of the Alcántara Bridge –located in Cáceres, Spainwas used. The bridge is an iconic work of Roman engineering (2nd century) with enormous heritage and historical value. After subjecting the central pier to a seismic action at the base, the results validated the expected collapse mechanism in this structure, characterised by the expulsion of the stone blocks and the progressive collapse of the internal infill. It is thus demonstrated that nonlinear modelling of masonry structures with rigid blocks can be an effective alternative to determine the seismic capacity of historic stone structures.
KW - Alcántara Bridge
KW - Dynamic behaviour
KW - Earthquake
KW - Finite element
KW - Heritage structures
KW - Historical constructions
KW - Rigid bodies
UR - http://www.scopus.com/inward/record.url?scp=85142246846&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85142246846
SN - 9788409422524
T3 - REHABEND
SP - 1009
EP - 1019
BT - REHABEND 2022 - Construction Pathology, Rehabilitation Technology and Heritage Management
A2 - Blanco, Haydee
A2 - Boffill, Yosbel
A2 - Lombillo, Ignacio
PB - University of Cantabria - Building Technology R&D Group
Y2 - 13 September 2022 through 16 September 2022
ER -