TY - JOUR
T1 - Lateral loading test for partially confined and unconfined masonry panels
AU - Tu, Yi Hsuan
AU - Lo, Ting Yi
AU - Chuang, Tsung Hua
N1 - Funding Information:
Acknowledgement: Supported by: National Science Council
Funding Information:
This study is financially supported by Universiti Sains Malaysia, under the Research University Individual (RUI) Grant Scheme (8014080).
Publisher Copyright:
© 2020. All Rights Reserved.
PY - 2020
Y1 - 2020
N2 - Four full-scaled partially confined and unconfined masonry panels were tested with monotonic lateral loads. To study the effects of vertical force and boundary columns, two specimens with no boundary columns were subjected to different vertical forces, while two wing-wall specimens had the column placed eccentrically and in the middle, respectively. The specimens with no boundary columns exhibited ductile rocking behavior, where the lateral strength increased with increasing vertical compression. The wing-wall specimens with columns behaved as strut-and-tie systems. The column-panel interaction resulted in greater strength, lower deformation capacity and differences in failure modes. A comparison with analytical models showed that rocking strength can be accurately estimated using vertical force and the panel aspect ratio for panels with no boundary columns. The estimation for lateral strength on the basis of a panel section area indicated scattered error for wing-wall specimens.
AB - Four full-scaled partially confined and unconfined masonry panels were tested with monotonic lateral loads. To study the effects of vertical force and boundary columns, two specimens with no boundary columns were subjected to different vertical forces, while two wing-wall specimens had the column placed eccentrically and in the middle, respectively. The specimens with no boundary columns exhibited ductile rocking behavior, where the lateral strength increased with increasing vertical compression. The wing-wall specimens with columns behaved as strut-and-tie systems. The column-panel interaction resulted in greater strength, lower deformation capacity and differences in failure modes. A comparison with analytical models showed that rocking strength can be accurately estimated using vertical force and the panel aspect ratio for panels with no boundary columns. The estimation for lateral strength on the basis of a panel section area indicated scattered error for wing-wall specimens.
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U2 - 10.12989/eas.2020.18.3.379
DO - 10.12989/eas.2020.18.3.379
M3 - Article
AN - SCOPUS:85097655960
SN - 2092-7614
VL - 18
SP - 391
EP - 405
JO - Earthquake and Structures
JF - Earthquake and Structures
IS - 3
ER -