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http://dx.doi.org/10.11112/jksmi.2011.15.4.087

A Study on Mechanical Characteristics of Masonry Structure Constructed by Clay Brick with Lime Mortar  

Yu, Hye Ran (서울시립대학교 건축공학과)
Kwon, Ki Hyuk (서울시립학교 건축학부 건축공학과)
Publication Information
Journal of the Korea institute for structural maintenance and inspection / v.15, no.4, 2011 , pp. 87-98 More about this Journal
Abstract
Clay bricks with lime mortar are recently popular since they are eco- and environment-friendly construction material being capable of air flow and moisture movement. However, there is little study on those of clay brick an lime mortar while relatively many researches on the structural characteristics of concrete bricks with cement mortar are available in Korea. Furthermore, the current Korean Building Code of masonry structures was established on the base of the Foreign Codes which does not reflect Korean masonry construction circumstance, such as material characteristics and section properties. To overcome these problems, experiments of masonry structures constructed using clay bricks with lime mortar were carried out to evaluate their structural characteristics such as, prism compressive strength, adhesive strength and diagonal tensile(shear) strength. Also this research compares the mechanical characteristics between clay bricks with lime mortar and concrete bricks with cement mortar to provide information that will be used for revisions of the domestic standards for masonry structures. As masonry structures constructed with clay bricks and lime mortar show different aspects over the ones constructed with concrete bricks and cement mortar, we suggest estimation equation of prism compressive strength and diagonal tensile strength on masonry structures constructed with clay bricks and lime mortar.
Keywords
Masonry; Clay brick; Lime mortar; Prism compressive strength; Diagonal tensile(Shear) strength;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 이원호, 이정한, 강대언, 양원직, "조적개체 재료특성에 관한 실험적 연구", 대한건축학회, 제20권, 제12호, 2004. 12, pp.45-52.
2 조홍성, "한국 근대 적벽돌 건축에 관한 연구", 수원대학교, 2006.
3 김택남, 명동성당 몰탈 1차 연구보고서, 2002. 용산신학교와 원효로성당의 몰탈과 벽돌분석, 2004.
4 박성현, 조신섭, 김성수, SPSS 17.0 이해와 활용, 한나래아카데미, 2009.
5 송재선, 우리나라 벽돌사, 미래문화사, 2006.
6 장기인, 한국건축대계 벽돌, 보성각, 2002.
7 대한건축학회, 건축구조기준(Korean Building Code), 2009.
8 지식경제부 기술표준원, 한국산업규격(Korean Standard) F4004(콘크리트 벽돌)/L 4201(점토벽돌), 2008.
9 American Society for Testing and Materials, Annual Book of American Society for Testing and Meterials Standards, E518(02, 03)/519(81), 2010.
10 British Standards Institution, Code of Practice for Structural Use of Masonry, BS 5628 Part 1(Unreinforced Masonry), British Standard Code of Practice for Use of Masonry, BS 5628 Part 2(Structural Use of Reinforced and Prestressed Masonry), 1997.
11 British Standards Institution, 영국공업규격(British Standard) 6073(콘크리트벽돌)/6677(점토벽돌), 1986.
12 International Code Council, inc, International Building Code, 2009.
13 International Council of Building Officials, Uniform Building Code, 2009.
14 JAMES E. AMRHEIN, Reinforced Masonry Engineering Handbook(Clay and Concrete Masonry), 1992.
15 김희철, 김관중, 박진호, 홍원기, "지진하중을 고려한 비보강 조적조의 재료특성 평가에 관한 실험연구", 한국지진공학회, 제5권, 제2호, 2001. 4, pp.93-101.
16 권기혁, 유혜란, "조적조 건축물의 석회 모르타르 특성에 관한 실험적 연구", 구조물진단학회, 2009. 9, pp.133-141.