加载介质对HDPE土工膜鼓胀变形力学性质的影响OA
Influence of loading medium on mechanical properties of geomembrane bulging deformation
为研究加载介质对土工膜鼓胀变形力学性质的影响,选择 0.2、0.3、0.6 mm三种厚度的HDPE土工膜为研究对象,使用鼓胀变形专用试验设备,分别以气体和液体作为加载介质,在1 kPa/s的注入速率下开展环形约束下的球形鼓胀变形试验,并借助偏光显微镜着重分析土工膜鼓胀破坏的微观形态变化与差异及破坏机理.结果表明:在相同环境条件下,液胀下的胀破压力比气胀下约平均高出34%,液胀破坏时鼓胀高度比气胀下约平均高出22%;气、液胀下土工膜鼓胀变形表现为不同的弹性、屈服、强化和破坏变形阶段;气胀时土工膜为线状破坏面,微观上表现为高分子链段的均匀拉伸变形与断裂,液胀时土工膜均为带状破坏面,微观上表现为高分子链段不均匀拉伸变形与断裂;加载介质对土工膜球形鼓胀变形力学性质和破坏特征的影响主要与介质自身性质、膜下压力荷载分布和高分子链段的重新取向、重结晶有关.建议采用液体介质开展土工膜鼓胀破坏强度试验.
In order to find out whether the loading medium has an effect on the mechanical properties of geomembrane bulging deformation,HDPE geomembranes with three thicknesses of 0.2 mm,0.3 mm and 0.6 mm were selected as the research objects.Using the special test equipment for bulging deformation,we used air and liquid as the loading media respectively.At the injection rate of 1 kPa/s,the spherical bulging deformation test under annular constraints was carried out,and the microscopic morphology changes and differential failure mechanisms of geomembrane bulging failure were emphatically analyzed by means of a polarizing microscope.The results show that under the same environmental conditions,the bursting pressure under liquid bulging is about 34%higher than that under air bulging,and the bulging height under liquid bulging is about 22%higher than that under air bulging.The bulging deformation of geomembranes under air and liquid bulging shows different stages of elastic,yield,strengthening and failure deformation.The geomembrane presents a linear failure surface during air bulging,which is manifested as uniform tensile deformation and fracture of the polymer chain segments at the micro level.The geomembrane presents a banded failure surface during liquid bulging,which is manifested as uneven tensile deformation and fracture of the polymer chain segments at the micro level.The influence of the loading medium on the mechanical properties and failure characteristics of the spherical bulging deformation of the geomembrane is mainly related to the properties of the medium itself,the distribution of pressure load under the membrane and the reorientation and recrystallization of polymer chains.According to the research results,it is recommended to use liquid medium to carry out the strength test for the bulging failure of the geomembrane.
李政;李旺林;汪万升;于海瑞;薛霞
济南大学 水利与环境学院,济南 250022济南大学 水利与环境学院,济南 250022济南大学 水利与环境学院,济南 250022水发规划设计有限公司,济南 250013济南大学 水利与环境学院,济南 250022
建筑与水利
土工膜压力介质气胀液胀鼓胀变形破坏形态
geomembranepressure mediumair bulgingliquid bulgingbulging deformationdamage mode
《土木与环境工程学报(中英文)》 2026 (1)
110-117,8
山东省自然科学基金(ZR2019MEE106) Shandong Provincial Natural Science Foundation(No.ZR2019MEE106)
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