(Created page with "== Abstract == Masonry structures constructed about one hundred and fifty years ago, in the era of the opening of Japan, have been recognized as industrial heritag...") |
m (Scipediacontent moved page Draft Content 167230250 to Maeda et al 2021a) |
(No difference)
|
Masonry structures constructed about one hundred and fifty years ago, in the era of the opening of Japan, have been recognized as industrial heritages. Many of them are masonry warehouses made of brick or stone walls framed by wood members. In this research, a two-story warehouse in Tomioka city, a mortar jointed brick masonry with wooden frame reinforcements, was studied for strong earthquake ground motion. Several vibration modes were identified by micro-tremor observations and excitation tests. The three-dimensional FE overall model was constructed and tuned for the distinctive vibration modes. Two DEM local models, one for bending at the center bottom of the wall treated by plane strain, and the other for shear at the upper corner of the wall by plane stress, were constructed to evaluate brick joint splitting. For both models, dynamic displacement response obtained by the three- dimensional FEM were specified at their peripheries via periphery blocks. At the center bottom of the wall, horizontally developing joint splitting in the section was evaluated. At the upper corners, obliquely proceeding joint splitting on the wall was evaluated. In these analyses, the specified displacements were calculated by the FE model for intact brick walls, regardless of the degrading status of the walls. Although this assumption will have to be justified, the results of DEM were consistent with the reported summary of past earthquake damages.
[1] Hironaka, T., Maeda, T. Araya, M. and Ejiri, N. Safety Evaluation of Inner Gallery in Bayon Temple by DEM with Preliminary Experiments, 10th SAHC (2016).
[2] Yamashita, Y. and Maeda, T. Simulation of Distinct Element Joint Stiffness of the Historical Masonry Structure Model by Micro-tremor Measurement, 11th SAHC (2018).
[3] Yamamoto, T. and Maeda, T. Earthquake Safety Assessment of a Tall Brick Chimney in Tokoname Based on the Micro-Tremor Measurement, 14WCEE (2008), 05-04, 0073.
[4] Minamide ,K. et al. Basic investigation of seismic diagnosis method on historical masonry, Historical masonry prevention committee’s report, Proceedings of Annual meeting for Hokkaido Branch of Architectural Institute of Japan, (1997), pp.253-256 in Japanese.
Published on 30/11/21
Submitted on 30/11/21
Volume Numerical modeling and structural analysis, 2021
DOI: 10.23967/sahc.2021.049
Licence: CC BY-NC-SA license
Are you one of the authors of this document?