- Title
- Earthquake shear load in load-bearing masonry buildings
- Creator
- Sing-Sang, P.; Totoev, Y.; Page, A.
- Relation
- Australian Journal of Structural Engineering Vol. 8, Issue 2, p. 171-188
- Relation
- http://www.engineersmedia.com.au/journals/ajse.html
- Publisher
- Institution of Engineers
- Resource Type
- journal article
- Date
- 2008
- Description
- Load-bearing masonry buildings are composed of concrete slabs and supporting masonry walls, and in Australia usually incorporate slip joints in the interfaces between walls and slabs for serviceability reasons. The apparent conflicting requirements of the slip joints, to slip under long-term loads and to transmit short-term loading from wind and earthquake actions, together with the lack of attention to the design of slip joints, make slip in the joints likely to occur when the building is subjected to a lateral loading. Joint slip leads to a redistribution of loading in the building wall system, resulting in wall shear loads different from that determined using the current standard elastic design procedures. Redistribution of loading may be also caused by softening of the masonry. This paper has assessed the realistic response of various load-bearing masonry buildings, including the potential for slip in the joints and softening of the masonry, and evaluated the level of wall shear load deviations resulting from the application of current design procedures. Analyses of the buildings, using non-linear static and dynamic finite element models, have indicated that joint slip may occur in buildings subjected to earthquake loading. The application of current elastic design procedures, which do not account for loading redistribution, resulted in major wall shear load deviations, such as overestimations of up to +75% and underestimations of up to -62%. It was therefore concluded that improvements in the current design procedures are required for a more accurate evaluation of wall shear loads in load-bearing masonry buildings subjected to the lateral loading.
- Subject
- structural engineering; engineering; joints; strains and stresses, mathematical models; earthquake resistant design
- Identifier
- uon:5324
- Identifier
- http://hdl.handle.net/1959.13/43197
- Identifier
- ISSN:1328-7982
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