根土复合体,root-soil composite
soil-roots system complex根-土复合体
1.Analyzing the experimental results and comparing them with theoretical results,It is shown that: the roots can improve the shear strength of soil;the shear strength between soil andsoil-roots system complex will decrease when the moisture content of .对试验结果进行了分析,并和理论计算相比较,结果表明:植物根系可以明显提高土体的抗剪强度;随着含水量的增加,土体和根-土复合体的抗剪强度会下降;直根和斜根对根-土复合体抗剪强度的提高是相似的,都是随着根条数的增加而增加,但斜根的加强作用要大些;随着根条数的增加,根-土复合体的c、φ值都会提高。
3)root-soil composite systems根–土复合体
parison between the shear strengths of four-shrubroot-soil composite systems is made to evaluate the enhancement effect of the systems for slope protection.通过在试验区将4种护坡灌木植物种植在PVC管内,分别对土体、4种灌木根–土复合体试样做直接剪切试验,对比非含根土体与4种灌木含根系土体抗剪强度指标,评价试验区生长时间为1 a灌木根系的护坡力学效应;通过对比4种灌木根–土复合体抗剪强度,评价生长时间为1 a的4种灌木根–土复合体的护坡力学强度增强效应。
4)root system-loess composite根系-土壤复合体
5)soil-root composite土壤-根系复合体
1.To investigate the strength of thesoil-root composite in water and soil conservation,the constitutive model of asoil-root composite and its characteristic parameters,based on the fundamental theory of soil mechanics and the basic methods of mechanics of composite materials,was established in this paper.为研究土壤-根系复合体强度问题,运用土壤力学理论和复合材料力学方法分析了土壤-根系复合体的力学特性和力学模型;在弹性、横观各向同性条件下,计算得出了表征土壤-根系复合体应力-应变关系的本构方程。
6)root-loess composite根系-黄土复合体
延伸阅读
染色体结合复合体分子式:CAS号:性质:一种细胞器,出现于减数分裂过程中,染色体同源区域间居间的密切的成双配对。
