寒旱区4种草本根系力学特性试验研究

为研究青藏高原东北部地区草本植物根系力学特性及其根系固土护坡力学机制,以青海省刚察县三角城种羊场地区为研究区,将赖草、扁穗冰草、早熟禾和紫花针茅4种优势草本植物作为供试种,开展室内单根拉伸和剪切试验,系统分析了4种草本植物的单根力学特性。结果表明:4种草本植物平均单根抗拉力大小顺序为赖草(3.336 N)>扁穗冰草(2.677 N)>早熟禾(1.988 N)>紫花针茅(1.588 N),单根抗拉力与根径之间成指数函数关系;平均单根抗拉强度大小顺序为早熟禾(68.166 MPa)>扁穗冰草(67.049 MPa)>赖草(39.411 MPa)>紫花针茅(32.207 MPa),单根抗拉强度与根径之间成幂函数关系;平均单根抗剪力大小顺序为赖草(7.086 N)>扁穗冰草(6.628 N)>早熟禾(5.215 N)>紫花针茅(3.938 N),单根抗剪力与根径之间成指数函数关系;平均单根抗剪强度大小顺序为扁穗冰草(67.217 MPa)>早熟禾(56.051 MPa)>紫花针茅(41.998 MPa)>赖草(35.494 MPa),单根抗剪强度与根径之间成幂函数关系。

重金属污染物侵入对岩石力学性能影响的研究

通过抗剪强度试验、风化耐久性强度试验、耐崩解试验、点荷载试验,对受重金属污染的泥岩、页岩、砂岩的力学强度变化特性进行了研究,并根据试验结果绘制了3种岩石抗压强度与重金属含量的关系曲线,采用线性回归法分析了岩石抗压强度与重金属质量比的相关关系。研究结果表明:在岩性、含水量、试验条件等相同的条件下,3种重金属污染岩石的力学强度都随着重金属污染物含量的增加而减小;重金属污染的泥岩、砂岩和页岩的单轴抗压强度与重金属质量比关系分别呈幂函数(泥岩、砂岩)、对数函数(页岩)关系,关系分化度为较显著-显著负相关。根据Weibull分布定律与对流-扩散特性建立了重金属污染物侵入与延伸性能方程,并对泥岩试验结果进行了计算,绘制了侵入性能、延伸性能与时间的关系曲线。结果表明:4种金属元素在泥岩中平均侵入性能与延伸性能的大小顺序为Cd2+>Pb2+>Cu2+>Zn2+,且元素活性越大,侵入能力与延伸能力越强,侵入性能随着时间变化而逐渐减小,延伸性能随时间变化而逐渐增加。

Experimental study on remodeling strength of granular materials under different loads and lengths of time

Remodeled clay and sand rock specimens were prepared by designing lateral confinement and water drainage experiments based on the stress exerted on granular materials in a waste dump.An in situ test was conducted in an internal waste dump;the physical and mechanical parameters of the remodeled rock mass dumped at different time and depths were measured.Based on statistics,regression analysis was performed with regard to the shearing stress parameters acquired from the two tests.Other factors,such as remodeling pressure(burial depth),remodeling time(amount of time since waste was dumped),and the corresponding functional relationship,were determined.Analysis indicates that the cohesion of the remodeled clay and its remodeling pressure are correlated by a quadratic function but are not correlated with remodeling time length.In situ experimental results indicate that the shear strength of reshaped granular materials in the internal dump is positively correlated with burial depth but poorly correlated with time length.Cohesion Cand burial depth H follow a quadratic function,specifically for a short time since waste has been dumped.As revealed by both in situ and laboratory experiments,the remodeling strength of granular materials varies in a certain pattern.The consistency of such materials verifies the reliability of the remodeling experimental program.

Discrete numerical modeling of granular materials considering crushability

The aim of this study is to numerically investigate the influence of particle breakage on the mechanical behavior of granular materials using a discrete element method(DEM). To enable particle crushing, non-crushable elementary particles are boned together to represents the granular aggregates which can be crushed when the external force exceeds its strength. The flaw of the aggregate was also modeled by randomly distributed void. Single particle crushing tests were carried out to determine the distribution of particle strength. The results of single particle crushing tests illustrate that the simulated single particle fracture strength and pattern agree well with the Weibull's distribution equation.Conventional oedometer tests, drained monotonic and cyclic triaxial tests were also carried out to investigate the crushing of the aggregates and the associated mechanical behaviors. The effect of confining pressure on the crushing of aggregates and the mechanical behavior was also analyzed. It was found that the peak stress and dilation decrease significantly when particle crushing was considered.The deformation behavior of the specimen is essentially controlled by two factors: particle rearrangement-induced dilation and particle crushing-induced contraction. The increase of permanent strain and the reduction of dilation were observed during cyclic loading and they tend to reach a stable state after a certain number of cycles. The crushing of aggregate is most significant in the first two cycles. The results also indicated that for the same axial strain the volumetric strain and the bound breakage in the cyclic loading tests are significantly larger than that in the monotonic loading tests,especially at high cyclic stress ratio.

Influence of specimen uniformity on mechanical behaviour of unsaturated soil

Pressure plate instrument is employed during drying, and unconfined compressive strength test is performed on the unsaturated specimen. Curves of shear force versus shear displacement, and curves of saturation degree versus time are investigated. The results show that the specimens with similar curves of saturation degree versus time have nearly identical mechanical behavior. In particular, the uniform specimens should be chosen within the lower equilibrium saturation degree because steady test results are presented. Further, the conclusion is verified by the repeated test. Thus, the method for distinguishing the uniform unsaturated specimen is obtained. In the light of the method, an improved test process is proposed. The uniform specimens should be chosen by this method under the specific matric suction, and then shear tests are carried out on the chosen unsaturated specimen. Namely, initial value of unsaturated soil is not zero matric suction but a specific suction.

Research on the mechanical property test of a new high-strength metal bolt

In order to study how to improve the overall performance of the operational metal bolt, based on the production process of an ordinary metal bolt used in understructure engineering, this paper focused on the existing problems of ordinary metal bolts identified by some survey and analysis. The results show that the structure of operational metal bolts is so unrea- sonable that the bolt tail is easily fractured by low load capacity. Furthermore, a new type of strong big-end metal bolt and its heat treatment and roughing processing technology were introduced. Through bolt tensile and metallographic tests, the property of the new big-end bolt was analyzed. The new findings indicate that after a special processing, the overall strength and plasticity of the bolt is greatly improved, and the grain of the bolt tail structure is refined, which would help build up favorable working conditions for bolt tails.

Experimental study on similarity materials for soft rock of deep-buried tunnels

When every parameter is properly scaled down in accordance with some similarity coefficients, it is possible to study the physical-mechanical properties of rock mass with a scale model. To identify the key mechanisms of soft rock in deep buried tunnels, the proper sand, binder and ratio were selected. During the process, the model manufacture technology was introduced and typical tests were done and the results were presented. The physical and meehanieal properties effects caused by each composition were discussed. It is shown that the physical and mechanical properties of chosen ratio material such as uniaxial compressive strength tests, elasticity modulus, tensile strength, internal frictional angle, and Poisson＇s ratio meet with similarity relationship well. The physical and mechanical properties of deep soft rock are simulated successfully.