植物纤维单块土坯抗压试验研究
|
摘要
通过对同尺寸的单块素土坯及掺和麦秸秆的单块土坯的各向抗压试验获得了素土坯和掺和麦秸秆土坯的抗压强度及受力破坏形态,总结了单块土坯抗压试验的试验过程及试验现象。得到荷载—位移曲线后,评估掺和麦秸秆对土坯抗压承载能力的影响及得出了麦秸秆的最优掺量。掺和适量的麦秸秆能提高土坯的抗压强度及应变能力。从本试验研究得出的结果,为土坯砌体试验和土坯墙片试验提供基本力学性能数据。
Through the compressive test of adobe and straw fiber adobe with same size,the compressive strength and failure mode of adobe and straw fiber adobe are obtained,at the same time,the process and phenomenon of the experiment are summarized.After the load-displacement curve is gained,the influence of the straw fiber on the adobe compressive load-bearing capacity is assessed and the optimum usage of straw fiber is obtained.Blend of right amount straw fiber can improve the compressive strength and strain capacity of the adobe.These are the basic data for the adobe masonry and adobe wall experiments.
Through the compressive test of adobe and straw fiber adobe with same size,the compressive strength and failure mode of adobe and straw fiber adobe are obtained,at the same time,the process and phenomenon of the experiment are summarized.After the load-displacement curve is gained,the influence of the straw fiber on the adobe compressive load-bearing capacity is assessed and the optimum usage of straw fiber is obtained.Blend of right amount straw fiber can improve the compressive strength and strain capacity of the adobe.These are the basic data for the adobe masonry and adobe wall experiments.
引文
[1]葛学礼,王亚勇,朱立新.建筑抗震设防是减轻地震灾害的根本途径[J].工程抗震,2003,5(2):45~49.
[2]阿肯江.托呼提,亓国庆,陈汉清.新疆南疆地区传统土坯房屋震害及抗震技术措施[J].工程抗震与加固改造,2008,30(1):87~89.
[3]Binici H,Aksogan O,Shah T.Investigation of fibre reinforcedmud brick as a building material[J].Constr Build Mater 2005;19:313~8.
[4]Yetgin S,avdar O,avdar A.The effects of the fiber contentson the mechanic properties of the adobes[J].Constr BuildMater 2008;22:222~7.
[5]施楚贤.砌体结构理论与设计(2版)[M].北京:中国建筑工业出版社,203:36~38.
[6]Jean-Claude Morel,Abalo Pkla,Peter Walker.Compressivestrength testing of compressed earth locks[J].Construction andBuilding Materials,2007,21:303~309.
[7]Koji YOSHIMURA,Masayuki KUROKI.Damage to MasonryBuildings Caused by EI Salvador Earhquake of January 13,2001[J].Journal of Natural Disaster Science,2001,23(2):53~63.
[8]黄金胜,陶忠,陆琨,潘文.云南农村居民生土建筑土坯砌体的力学性能试验研究[J].工程抗震与加固改造,2008,30(1):94~98.
[2]阿肯江.托呼提,亓国庆,陈汉清.新疆南疆地区传统土坯房屋震害及抗震技术措施[J].工程抗震与加固改造,2008,30(1):87~89.
[3]Binici H,Aksogan O,Shah T.Investigation of fibre reinforcedmud brick as a building material[J].Constr Build Mater 2005;19:313~8.
[4]Yetgin S,avdar O,avdar A.The effects of the fiber contentson the mechanic properties of the adobes[J].Constr BuildMater 2008;22:222~7.
[5]施楚贤.砌体结构理论与设计(2版)[M].北京:中国建筑工业出版社,203:36~38.
[6]Jean-Claude Morel,Abalo Pkla,Peter Walker.Compressivestrength testing of compressed earth locks[J].Construction andBuilding Materials,2007,21:303~309.
[7]Koji YOSHIMURA,Masayuki KUROKI.Damage to MasonryBuildings Caused by EI Salvador Earhquake of January 13,2001[J].Journal of Natural Disaster Science,2001,23(2):53~63.
[8]黄金胜,陶忠,陆琨,潘文.云南农村居民生土建筑土坯砌体的力学性能试验研究[J].工程抗震与加固改造,2008,30(1):94~98.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心