OUT-OF-PLANE DYNAMIC RESPONSE OF A TUFF MASONRY WALL: SHAKING TABLE TESTING AND NUMERICAL SIMULATION

The authors developed two types of block systems, consisting only of main and key blocks, without joint mortar, to improve the in- and out-of-plane seismic performances and enhance the workability. Two types of block systems have different key block shapes. One is the peanuts shape, and the other is the H shape. The proposed block systems have a half-height difference between the main and key blocks, to significantly improve seismic performance in in- and out-of-plane directions, compared to typical masonry wall with joint mortar. In this study, in order to evaluate the out-of-plane seismic performance of the proposed block systems, two types of block walls are experimentally investigated, including the typical block wall. Firstly, the shaking table tests are carried out to investigate the fundamental out-of-plane behaviors of three specimens. Next, four-point bending tests are planned to evaluate the out-of-plane seismic performance, since all specimens do not occur the out-of-plane collapse in the shaking table tests from the preliminary calculation. In this paper, the development of predominant period, profiles of acceleration and displacement, and maximum tensile strength of each specimen are discussed in detail. As a result, the maximum loads of the proposed block walls were about three to four times that of the typical block wall. This result means that the proposed block system has significantly improved seismic performance in the out-of-plane direction.

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Shaking Table Test of Underground Pipeline under Three Dimension Seismic Excitation – Numerical Simulation

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.919-921.960 ◽

2014 ◽

Vol 919-921 ◽

pp. 960-964 ◽

Cited By ~ 1

Author(s):

Xiao Fu ◽

Jun Wei Bi ◽

Zhi Jia Wang ◽

Chang Wei Yang

Keyword(s):

Numerical Simulation ◽

Dynamic Response ◽

Seismic Response ◽

Shaking Table Test ◽

Time History ◽

Shaking Table ◽

Seismic Excitation ◽

Underground Pipeline ◽

Three Dimension ◽

Seismic Structure

Based on the design of the large-scale shaking table test of an underground pipeline under three dimension seismic excitation, the dynamic response of the soil-structure is analyzed by using ANSYS. In the numerical simulation, Drucker-Prager constitutive model is adopted to simulate the soil, the interface between soil and pipeline are simulated with zero thickness contact elements, size effects of test box are diminished by defining viscoelastic boundary around soil, the acceleration time history curve of the original earthquake wave is compressed and processed according to using the model scale similarity and energy duration which is presented by Trifunac-Brady [1] , and then the characteristic of seismic response of the pipeline can be found. The results show that the top of pipeline is the seismic response intense regional, deformation displacements of the central areas at the bottom and top of pipeline are always larger than others, the entrance and exit are the weak positions of anti-seismic structure; moreover, the dynamic response and interactions of soil-pipeline in the model experiment can be more accurately simulated by the methods presented in the paper. Thus, it can be served as reference for the design and construction of subsurface structures.

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Shaking table testing and numerical simulation of the seismic response of a typical China ancient masonry tower

Bulletin of Earthquake Engineering ◽

10.1007/s10518-019-00731-z ◽

2019 ◽

Vol 18 (1) ◽

pp. 331-355 ◽

Cited By ~ 1

Author(s):

Qifang Xie ◽

Dunfeng Xu ◽

Yun Zhang ◽

Yingwen Yu ◽

Wenming Hao

Keyword(s):

Numerical Simulation ◽

Seismic Response ◽

Shaking Table ◽

Shaking Table Testing ◽

Masonry Tower

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Out-of-Plane Shaking Table Tests on Seismic Response of RC Frame Infilled with a New Type of Shale Fired Heat-Insulation Blocks

Advances in Materials Science and Engineering ◽

10.1155/2020/5091707 ◽

2020 ◽

Vol 2020 ◽

pp. 1-13

Author(s):

Jian Wu ◽

Li-dan Zhang ◽

Qing Yu ◽

Bo Wang

Keyword(s):

Seismic Response ◽

Heat Insulation ◽

Masonry Wall ◽

Shaking Table ◽

Rc Frame ◽

Out Of Plane ◽

Rigid Connection ◽

New Type ◽

Infill Masonry ◽

Insulation Block

Shale fired heat-insulation block, which is made of shale, fly ash, building rubbish, and waste paper, is a new type environment-friendly product. In order to study the mechanical properties of shale fired heat-insulation block walls, four full-scale walls were tested under El-Centro, Taft, and Ninghe earthquakes using shaking table equipment, in which the influence of the spacing of cast-in-place belt and the connection between the wall and the frame on the out-of-plane seismic performance of the wall was taken into account. The subject of this study is mainly about out-of-plane dynamic response of masonry walls in terms of frequency, displacement, and acceleration. It could be concluded that the cast-in-place belt and the rigid connection between wall and RC frame could effectively reduce the out-of-plane seismic response of the infill masonry wall. Finally, the recommendations for the use of this type of block in the structure are given.

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Experimental Study on Dynamic Behavior of Unreinforced Masonry Walls

Journal of Disaster Research ◽

10.20965/jdr.2013.p0305 ◽

2013 ◽

Vol 8 (2) ◽

pp. 305-311 ◽

Cited By ~ 1

Author(s):

Taiki Saito ◽

◽

Luis Moya ◽

Cesar Fajardo ◽

Koichi Morita ◽

...

Keyword(s):

Dynamic Behavior ◽

Failure Mode ◽

Shear Failure ◽

Shaking Table Test ◽

Unreinforced Masonry ◽

Masonry Wall ◽

Shaking Table ◽

Masonry Walls ◽

Plane Failure ◽

Out Of Plane

The dynamic behavior of an unreinforced masonry wall is investigated through a shaking table test of two specimens. In order to represent a non-engineering one-story house, the first specimen consists of a Cshaped structure with masonry walls connected only at their ends. The second specimen is built to represent an upper story, so the C wall is connected at the top by a wooden diaphragm floor, and a weight is suspended onto it. The test results show each specimen exhibits different behaviors. In the first specimen, an out-of-plane failure mode governs. In the second specimen, a shear failure mode governs.

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