赤泥改良石灰土的应力-应变-电阻率研究

为了探究不同龄期下,赤泥改良石灰土的应力-应变-电阻率曲线的变化,测试了试块的初始电阻率、无侧限抗压强度和破坏电阻率,且在无侧限抗压强度测试过程中全程同步检测试块的电阻率变化,采用所得数据绘制应力-应变-电阻率曲线并进行分析。分析结果表明:试块初始电阻率和无侧限抗压强度均随龄期的增加而增加;同赤泥掺量下的应力-应变-电阻率曲线在不同龄期条件下的变化基本一致;在0%赤泥掺量条件下,电阻率会随应力的增加而减小,在即将达到极限应力时会迅速增加;在30%赤泥掺量条件下,电阻率随应力的增大而持续减小并最终保持稳定;破坏电阻率随龄期的增加呈线性上升的趋势。

不同温度下冻土单轴抗压强度与电阻率关系研究

为了研究青藏铁路路基在载荷下的力学行为,探索新型手段快速准确地估计冻土的单轴抗压强度参数,采用北麓河粉质黏土在室内进行了不同温度的冻土单轴压缩试验,并全过程监测土样电阻率的变化,得到了冻土的应力-应变-电阻率全过程曲线。试验结果表明,在干密度ρd=1.71g/cm3且含水率w=17.83%下,冻土的单轴抗压强度随温度降低而线性增加;初始电阻率ρ0随温度降低逐渐增大,从-20℃对温度的敏感性开始显著增强;冻土单轴抗压强度与初始电阻率之间满足半对数线性关系,相关性很好,因此测定初始电阻率可准确估算冻土的qu。从应力-应变-电阻率全过程曲线来看,冻土在单轴载荷作用下经历的压密、弹性变形、塑性屈服、破裂后各阶段对应电阻率变化趋势是快速减小至最小、稳定增加、剧烈增加,这种关联的变化关系也说明用电阻率法来研究冻土强度及载荷下的变形问题是可行的。

固化重金属污染土电阻率与强度特性试验研究

为研究固化重金属污染土电阻率与强度关系特征,对稻壳灰-水泥固化镉污染土开展电阻率测试及无侧限抗压强度试验,通过单轴压缩-电阻率联合试验得到固化土单轴应力-应变-电阻率关系,分析了初始电阻率影响因素及其与强度的关联性,建立了基于电阻率的强度预测与力学损伤模型。研究结果表明:固化土应力-应变和电阻率-应变曲线呈一定负相关关系;初始电阻率随稻壳灰掺量增加而先升后降,在稻壳灰掺量为5%时初始电阻率达到峰值,水泥掺量较高时初始电阻率持续降低;固化土初始电阻率随其龄期增加而持续增加,随镉含量增加而波动式增大后减小,在镉含量为2000 mg/kg时降为最低;基于初始电阻率的强度预测模型可对固化土抗压强度进行预测;基于实时电阻率的力学损伤模型可对固化土单轴压缩过程中土体破坏前的损伤发展进行预测。

Regularity and mechanism of coal resistivity response with different conductive characteristics in complete stress-strain process

The stress,strain as well as resistivity of coal during uniaxial compression process were tested based on self-built real-time testing system of loaded coal resistivity.Furthermore,the coal resistivity regularity and mechanism were analyzed at different stages of complete stress-strain process,which includes the two kinds of coal body with typical conductive characteristics.The results indicate that coal resistivity with different conductive characteristics has different change rules in complete stress-strain process.It is mainly represented at the densification and flexibility phases before dilatation occurs.The variation of resistivity can be divided into two kinds,named down and up.Dilatation of coal samples occurred between 66%σ_(max) and 87%σ_(max).Because of dilatation,coal resistivity involves sudden change.The overall representation is shifting from reducing into improving or from slow improving into accelerated improving.Thus,coal resistivity always shows an increasing tendency at the plastic stage.After peak stress,coal body enters into failure stage.The expanding and communicating of macro fracture causes further improvement of coal resistivity.The maximum value of resistivity rangeability named λ reached 3.49.Through making real-time monitoring on coal resistivity,variation rules of resistivity can be deemed as precursory information so as to reflect the dilatation and sudden change before coal body reaches buckling failure,which can provide a new technological means for forecasting the dynamic disaster of coal petrography.

单轴载荷下冻土的导电性及机敏性能试验研究

针对青藏铁路北麓河粉质黏土,利用电阻率-应力-应变试验设备,获取了不同温度单轴压缩条件下的电阻率-应力-应变全过程曲线,探讨了冻土导电性能及其机敏性。试验结果表明,在含水率w=17.8%、干密度ρd=1.71g/cm3、加载应变率为1mm/min试验条件下,初始电阻率ρ0、最大电阻率ρm、最大切线模量对应的电阻率ρtm随温度降低而同步增大;冻土在压缩过程中具有较强的压敏性,随着压应力增大,电阻率变化可分为电阻率减小区、平衡区和剧增区;冻土单轴最大切线模量与温度之间呈线性关系,最大切线模量对应的应力及应变σtm、εtm、峰值应力对应应变εm表现出温度敏感性,当T=-15℃时,σtm、εtm、εm值最小;当T>-15℃时,σtm、εtm、εm值随T降低而增大,冻土随温度降低延性增强脆性减弱;当T<-15℃时σtm、εtm、εm值随T降低而增大,冻土随温度降低,脆性增强,延性减弱。