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Numerical Analysis of the Influence of Geometry of Ceramic Units (Blocks) on Structural Walls

Numerical Analysis of the Influence of Geometry of Ceramic Units (Blocks) on Structural Walls
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摘要 This paper presents finite element results of ceramic masonry prisms and walls under concentric compression. Four different hole geometries of ceramic units were studied (called Types A, B, C and D). The A-type unit had two rectangular hollows, B-type and C-type units have two rounded hollows and different net areas, mad the D-type unit had two rectangular hollows and a double central web. This study analyzed units, prisms and structural walls joined by bedding mortar. The objective was to verify the stress distribution in units and mortars. The results showed that the distribution of compressive stress along the length and width of those units was uniform, but lateral tensile stress along the length was distinct for different geometries. In addition, this study observed that hollow shapes have an important influence in stress distribution. The D-type unit was the one that showed more uniform tension distribution, without peaks of stress concentration. This indicates that a D-type unit is the most efficient unit for use in masonry structures.
作者 Gihad Mohamad Eduardo Rizzatti Humberto Roman Gerson M. S. Alva Andre Lubeck
机构地区 Structural and Building Construction Department Building Construction Department Civil Engineering College Civil Engineering College
出处 《Journal of Civil Engineering and Architecture》 2016年第1期44-52,共9页 土木工程与建筑(英文版)
关键词 Ceramic units structural masonry geometry. 陶瓷砌体 砌体结构 单元 数值分析 墙体 几何尺寸 几何形状 应力分布
分类号 O241 [理学—计算数学] TF576.4 [冶金工程—钢铁冶金]
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参考文献10

  • 1Atkinson, R. H., Noland, J. L., and Abrams, D. P. 1985. "A Deformation Failure Theory for Stack-Bond Brick Masonry Prism in Compression." In Proceedings of 7th International Brick Masonry Conference, 577-92.
  • 2Hamid, A. A., and Drysdale, R. G. 1976. "Behavior of Concrete Block Masonry under Axial Compression." American Concrete Institute Journal 76 (6): 707-21.
  • 3Hegemeir, G. A., Krishnamoorthy, G., Numm, R. O., and Moorthy, T. V. 1978. "Prism Tests for the Compressive Strength of Concrete Masonry." In Proceedings of North American Masonry Conference,181-7.
  • 4Hilsdorf, H. K. 1969. Investigation into the Failure Mechanism of Brick Masonry Loaded in Axial Compression. Houston: Gulf Publishing Company.
  • 5Khoo, C. L. 1972. "A Failure Criterion for Brickwork in Axial Compression." Ph.D. thesis, University of Edinburgh, Scotland.
  • 6Brazilian Standard. 2005. Blockwork Clay Masonry Blocks. NBR 15270-2. Rio de Janeiro: Brazilian Standard.
  • 7Ganesan, T. P., and Ramamurthy, K. 1992. "Behavior of Concrete Hollow-Block Masonry Prisms under AxialCompression." Journal of Structural Engineering 118: 1751-69.
  • 8Brazilian Standard. 1985. Masonry Structures--Method of Test. NBR 8949. Rio de Janeiro: Brazilian Standard.
  • 9Brazilian Standard. 1995. Mortar--Compressive Strength. NBR 13279. Rio de Janeiro: Brazilian Standard.
  • 10Rizzatti, E. 2003. "Block Geometry Influence on the Mechanical Strength on Masonry Structures." Ph.D. thesis, UFSC (Federal University of Santa Catarina), Florianopolis. (in Portuguese).
Journal of Civil Engineering and Architecture
2016年 第1期

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