Shaking-table tests of a full-scale ten-story reinforced-concrete building (FY2015). Phase I: Free-standing system with base sliding and uplifting

Autor: Koichi Kajiwara, Hiroshi Fukuyama, Toshikazu Kabeyasawa, Takuya Nagae, Kunio Fukuyama, Yusuke Tosauchi, Tomohisa Mukai, Jae-Do Kang, Toshimi Kabeyasawa, Takahito Inoue, Hitoshi Shiohara, Eiji Sato
Rok vydání: 2021
Předmět:
Zdroj: Engineering Structures. 233:111848
ISSN: 0141-0296
DOI: 10.1016/j.engstruct.2020.111848
Popis: In this paper, results are presented from shaking-table tests of a full-scale 10-story reinforced-concrete structure to confirm the behavior of a free-standing system with a base that permits both sliding and uplifting. The purpose of this system is to use the seismic resistance of the structure during a small or medium earthquake and a sliding and uplifting behavior of the free-standing system during a large earthquake. Cast-iron plates were installed on the grade beams of the lower part of the specimen building to generate a low friction coefficient. Thus, the specimen building should be able to move sideways during large earthquakes, although the specimen building should not move sideways during small earthquakes. In the tests, the specimen building was moved sideways during tests with JMA-Kobe 25%, 50%, and 100% amplitude excitations but not during that with JMA-Kobe 10% amplitude excitation, and the specimen building was uplifted at one of its corners for all amplitude excitations. The base sliding displacement was 84–189 mm, and the corner uplift was 5–40 mm. The sliding and uplift behavior led to small maximum inter-story drift ratios, and these behaviors did not increase the base overturning moments. Thus, allowing sliding and uplifting behavior can reduce building damage in an extremely large earthquake.
Databáze: OpenAIRE