Experimental study on the seismic behavior of masonry wall with fiberglass geogrid

被引：0

作者：

Xu C.-Y. ^{[1
]}

Lu B. ^{[1
]}

Yu X. ^{[2
]}

机构：

[1] School of Civil Engineering, Shenyang Jianzhu University, Shenyang, 110168, Liaoning

[2] Zhejiang Construction Co. Ltd of China Construction Eighth Engineer Division, Hangzhou, 311215, Zhejiang

来源：

Xu, Chun-Yi (xuchunyiyi@163.com) | 2018年 / Tsinghua University卷 / 35期

关键词：

Autoclaved aerated concrete; Ductility analysis; Glass fiber grill; Reinforced masonry; Seismic behavior;

D O I：

10.6052/j.issn.1000-4750.2017.06.S022

中图分类号：

学科分类号：

摘要：

The mortar seam in the reinforced masonry is thick, which is not conducive to energy saving and heat preservation. The glass fiber grille geotextile is used to replace the horizontal bar in the reinforced masonry. It can effectively reduce the thickness of mortar ash seam, leading to convenient construction. In order to study the seismic performance of horizontal glass fiber reinforced concrete block wall, horizontal reinforced concrete block wall and non-reinforced concrete block wall, the four-link-rod loading system is used to carry out cyclic test. The failure characteristics and seismic performance of various types of walls are compared and analyzed. Test results show that the horizontal glass fiber grille can significantly improve the shear capacity, deformation capacity and ductility of the wall. Compared with the non-reinforced concrete block wall, the ultimate load increases by 75%, the ultimate displacement increases by 7.5 times, and the ductility coefficient is 3.61 times of that without reinforcement. Compared with the reinforced concrete wall, the seismic performance index is slightly smaller than the reinforced concrete wall. The construction of fiber grille in masonry horizontal ash joints can not only improve thermal performance of the thin cracks in masonry, but also significantly improve the seismic performance of masonry walls. It has good application prospects, with important theoretical value and practical significance to promote the masonry structure seismic and building energy saving. © 2018, Engineering Mechanics Press. All right reserved.

引用

页码：126 / 133

页数：7

共 15 条

[1] Wang W., Li Z., Progress on energy-saving technology on external wall, Science & Technology Review, 31, 13, pp. 76-79, (2013)
[2] Liu X., Experimental research on drying shrinkage of unreinforced masonry and joint reinforced masonry, Changsha: Changsha University of Science & Technology, (2010)
[3] Deng M., Fan X., Gao X., Et al., Experimental investigation on seismic behavior of damaged brick masonry wall strengthened with ECC splint, Engineering Mechanics, 32, 4, pp. 120-129, (2015)
[4] Bai G., Fu G., Quan Z., Et al., Experimental study on basic mechanical properties of fired heat-insulation hollow block thin mortar joint masonry, Journal of Building Structures, 34, 10, pp. 151-158, (2013)
[5] Ferrotti G., Canestrari F., Pasquini E., Et al., Experimental evaluation of the influence of surface coating on fiberglass geogrid performance in asphalt pavements, Geotextiles & Geomembranes, 34, 10, pp. 11-18, (2012)
[6] Zhang S., Xu L., Yang D., Et al., Finite element modelling of FRP-reinforced masonry walls under in-plane loadings, Engineering Mechanics, 32, 12, pp. 233-242, (2015)
[7] Safavizadeh S.A., Wargo A., Guddati M., Et al., Investigating reflective cracking mechanisms in grid-reinforced asphalt specimens, Transportation Research Record Journal of the Transportation Research Board, 25, 7, pp. 29-38, (2015)
[8] Yan C., Liu S., Deng Y., Experimental study on horizontal bearing capacity of cement-soil pile reinforced with fiberglass geogrid, Geotechnical Special Publication, 23, 5, pp. 88-97, (2014)
[9] Yuan Z., Liu B., Yuan L., Durability of masonry structures, Building Structure, 25, 4, pp. 117-121, (2011)
[10] Zhang J., Yang X., Cao W., Et al., Seismic performance of low-rise shear wall with single layer of web reinforcement and inclined steel bars, Engineering Mechanics, 33, 1, pp. 125-132, (2016)

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