摘要
为进一步揭示黏弹塑性模型比以往的黏弹性模型更能合理反映循环荷载作用下加筋土的力学响应特性,将筋材当作黏弹性材料,视土体为弹塑性材料,把国内外已有的3个参数(E1,E2,η)黏弹性模型拓展成了6个参数(E1,E2,E3,η2,η3,σs)的黏弹塑性模型。在ANSYS10.0环境下进行2次开发得到的理论值与土工离心模型实验得到的实测值进行对比,其误差比黏弹性模型减少8%以上,在一致性方面也明显比黏弹性模型要好。表明本文构建的黏弹塑性模型全面揭示了通车后的加筋土路基在车辆的反复碾压下所具有的黏弹塑性材料全部特征。
In order to reveal the mechanical deformation responding of reinforcement engineering of viscoelast-oplasticity model by comparing viscoelasticity model under cycle load, the viscoelasticity model of three parameters (El, E2, ~/) was changed into the viscoelast-oplasticity model of six parameters (El, E2, E3, ~/2, 73, trs), on the basis of idea that geosynthetics was regarded as viscoelasticity material and the soil was treated as elastoplasticity material. The error of viscoelast-oplasticity model was reduced by 8% and the consistency is better than viscoelasticity model, between when comparing theoretical values from secondary development under ANSYS 10.0 and measured values from geotechnical centrifuge modeling test. It is revealed that the viscoelast-oplasticity model can reflect all features of viscoelast-oplasticity material of reinforcement engineering under rolling repeatedly by vehicle.
出处
《中南大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
2013年第4期1672-1677,共6页
Journal of Central South University:Science and Technology
基金
国家自然科学基金资助项目(51178063)
江西省交通厅科技计划项目(200732)
关键词
加筋土
循环荷载
黏弹塑性
二次开发
数值分析
土工离心模型
reinforcement engineering
cycle load
viscoelast-oplasticity
secondary development
numerical analysis
geotechnical centrifuge modeling
作者简介
通信作者:匡希龙(1965-),男,湖南双峰人,教授,博士,从事岩土工程及道路铁道工程研究;电话:0731-82310870;E-mail:kuangxilong_10@yahoo.com.cn
