TY - JOUR
T1 - Numerical Modeling of a Church Nave Wall Subjected to Differential Settlements
T2 - Soil-Structure Interaction, Time-Dependence and Sensitivity Analysis
AU - Drougkas, Anastasios
AU - Verstrynge, Els
AU - Szekér, Pepijn
AU - Heirman, Gert
AU - Bejarano-Urrego, Leidy Elvira
AU - Giardina, Giorgia
AU - Van Balen, Koenraad
PY - 2019
Y1 - 2019
N2 - Historic masonry structures are particularly sensitive to differential soil settlements. These settlements may be caused by deformable soil, shallow or inadequate foundation, structural additions in the building and changes in the underground water table due to the large-scale land use change in urban areas. This paper deals with the numerical modeling of a church nave wall subjected to differential settlement caused by a combination of the above factors. The building in question, the church of Saint Jacob in Leuven, has suffered extensive damage caused by centuries-long settlement. A numerical simulation campaign is carried out in order to reproduce and interpret the cracking damage observed in the building. The numerical analyses are based on material and soil property determination, the monitoring of settlement in the church over an extended period of time and soil-structure interaction. A sensitivity study is carried out, focused on the effect of material parameters on the response in terms of settlement magnitude and crack width and extent. Soil consolidation over time is considered through an analytical approach. The numerical results are compared with the in-situ observed damage and with an analytical damage prediction model.
AB - Historic masonry structures are particularly sensitive to differential soil settlements. These settlements may be caused by deformable soil, shallow or inadequate foundation, structural additions in the building and changes in the underground water table due to the large-scale land use change in urban areas. This paper deals with the numerical modeling of a church nave wall subjected to differential settlement caused by a combination of the above factors. The building in question, the church of Saint Jacob in Leuven, has suffered extensive damage caused by centuries-long settlement. A numerical simulation campaign is carried out in order to reproduce and interpret the cracking damage observed in the building. The numerical analyses are based on material and soil property determination, the monitoring of settlement in the church over an extended period of time and soil-structure interaction. A sensitivity study is carried out, focused on the effect of material parameters on the response in terms of settlement magnitude and crack width and extent. Soil consolidation over time is considered through an analytical approach. The numerical results are compared with the in-situ observed damage and with an analytical damage prediction model.
KW - Finite element modeling
KW - historic structures
KW - masonry
KW - settlement-induced damage
KW - soil-structure interaction
UR - http://www.scopus.com/inward/record.url?scp=85064507009&partnerID=8YFLogxK
U2 - 10.1080/15583058.2019.1602682
DO - 10.1080/15583058.2019.1602682
M3 - Article
AN - SCOPUS:85064507009
SN - 1558-3058
VL - 14
SP - 1221
EP - 1238
JO - International Journal of Architectural Heritage
JF - International Journal of Architectural Heritage
IS - 8
ER -