文章摘要
李 阳, 张 旭, 赖 韩, 彭兆轩, 王瑞骏, 李 岩, 秦 睿.运行期高面板坝挤压边墙的破碎机理试验研究Journal of Water Resources and Water Engineering[J].,2020,31(4):98-103
运行期高面板坝挤压边墙的破碎机理试验研究
Study on fracture mechanism of extruded concrete curb of high concrete face rockfill dam during operation period
  
DOI:10.11705/j.issn.1672-643X.2020.04.14
中文关键词: 混凝土面板堆石坝  三轴试验  挤压边墙  应力-应变  裂缝发展  破碎机理
英文关键词: concrete face rockfill dam (CFRD)  triaxial test  extruded curb  stress-strain  crack development  fracture mechanism
基金项目:国家自然科学基金项目(51879217)
Author NameAffiliation
LI Yang1, ZHANG Xu1, LAI Han1, PENG Zhaoxuan2, WANG Ruijun1, LI Yan1, QIN Rui1 (1.西安理工大学 省部共建西北旱区生态水利工程国家重点实验室 陕西 西安 710048
2.新疆水利水电规划设计管理局 新疆 乌鲁木齐 830000) 
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中文摘要:
      通过组合模型试件(尺寸φ150 mm×H450 mm)的三轴试验,模拟运行期面板自重及其上游水压力等荷载对挤压边墙混凝土(extruded curb concrete, ECC)产生的顺坡向及法向荷载作用,从而研究围压、面板厚度以及水胶比对ECC破碎机理及裂缝发展规律的影响。试验结果表明:应力-应变曲线经历了3个阶段,第1阶段表明各组件“石膏-面板-ECC-垫层料-石膏”之间空隙已被压实,第2阶段主要是垫层料的压实,第3阶段主要是ECC裂缝发展及破碎过程,材料近似表现为线弹性特性;初始裂缝发生在ECC之间的搭接部位,而不是ECC与垫层料接触的齿状部位,随着荷载逐渐增大,最终ECC完全被压碎成为垫层料的一部分;ECC在“初始裂缝-裂缝增多-最终破碎”的发展过程中,破碎率从15%增加到50%再到100%,偏应力增加了1.5~2.0 MPa;相对面板厚度,ECC的应力-应变对围压及水胶比更敏感。
英文摘要:
      Triaxial tests were conducted on composite model specimens (size:φ150mm×H450mm) and the effect of normal and along-slope loads caused by the gravity of the face slabs and the upstream water pressure on the extruded concrete curb (ECC) during operation period was simulated to study the influence of the confining pressure, slab thickness and water-binder ratio on the fracture mechanism and crack development of the ECC. The test results showed that the stress-strain curve went through three stages. During the first stage the voids between the components of “gypsum-slab-ECC-cushion material-gypsum” were compacted. The second stage was mainly about the compaction of the cushion material, whereas the third stage was mainly about the development of the cracks and the damage process of the ECC, during which the materials presented approximate linear-elastic characteristics. Initial cracks occurred in the overlap area between ECC rather than the tooth-shaped part connecting the cushion material. With the increase of the loads, the ECC was completely crushed then became a part of the cushion material. During the development of “initial crack-crack increase-final damage”, the damage rate of ECC increased from 15% to 50% and then to 100%, and the stress increased 1.5-2.0 MPa. The stress-strain of ECC was more sensitive to confining pressure and water-binder ratio than to the slab thickness.
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