1) intensity of water erosion
水蚀强度
2) anti-water erosion strength
抗水蚀强度
1.
The relationship of MOI, MOR and MOS with the ground slope, rainfall intensity, seepage coefficient and anti-water erosion strength of SRC are found out through the rainfall simulation experiment, which provides thescientific basis for evaluating the soil-water conservation efficiency.
通过人工模拟降雨试验,分别建立了渗水模数、径流模数和泥沙模数与地面坡度、降雨强度、复合体渗透系数或抗水蚀强度之间的相关方程式,即土壤-草本植被根系复合体抗水蚀能力的土壤力学模型。
2.
Based on the analysis of the mechanism of water conservation for soil-root composite (SRC), a new concept, anti-water erosion strength is proposed, which can be defined as the maximum stress of the micro-filter that can resist to the surface runoff.
分析了草本植被根系保持水土效能的机理,提出将根茎连接处形成的微型“栏上栅”及“滤水土体”抵抗径流推移破坏的极限能力,作为土壤-草本植被根系复合体的抗水蚀强度,并研究了它与含根量的相关性。
3) corrosion strength
腐蚀强度
4) strength erosion
强度腐蚀
1.
The influence laws of different chemical solution on deformation and strength erosion of limestone are obtained.
结合三轴压缩试验结果,详细分析了不同化学溶液作用下,化学腐蚀对灰岩全应力-应变过程曲线各阶段的影响特征,并对化学溶液的腐蚀影响机理进行分析,获得了不同化学溶液对灰岩变形及强度腐蚀效应的影响规律。
2.
In this paper,the present research status at home and abroad are introduced,the chemical analysis theory and energy analysis theory of hydro-chemical mechanical damage effect of rock are qualitatively studied,the hydro-chemical corrosion theory is analyzed,and the influence of different chemical erosion on deformation and strength erosion of rock are obtained.
阐述了裂隙岩体的水化学腐蚀及裂隙岩体损伤力学的国内外研究现状,定性地研究了岩石水化学损伤的化学成分分析理论及能量分析理论,对水化学溶液的腐蚀影响机理进行了分析,并研究了不同化学溶液对岩石变形及强度腐蚀效应的影响。
5) erosion intensity
侵蚀强度
1.
Simulation of the spatial differentiation and dynamic variation of watershed erosion intensity;
流域侵蚀强度空间分异及动态变化模拟研究
2.
Change of soil erosion intensity during the course of plant destruction and plant reconstruction in the Loess Plateau
黄土高原植被破坏与重建过程中土壤侵蚀强度变化
3.
Yangou watershed in the Loess Plateau was selected as the study site to determine the characteristics of soil erosion intensity on cultivated hillslopes of different cultivation ages.
以核素示踪技术为研究手段,以空间序列代替时间序列和以线控面为基本研究方法,在提出坡面平均坡度和坡面核素平均面积浓度计算方法的基础上,研究了黄土丘陵区典型小流域———延安燕沟流域不同开垦历史的农耕地坡面土壤侵蚀强度分异。
6) intensity of wind erosion
风蚀强度
1.
The result shows that there is significant logarithmic relationship between intensity of wind erosion.
结果表明:公路边坡风蚀强度与风速成显著的对数相关关系;起动风速从大到小依次是六棱砖小区>拱形框架梁小区>机械压实小区>无措施小区;从防风蚀效果来看,六棱砖最好,拱形框架梁次之,机械压实几乎没有效果;六棱砖防护下的坡面相对土壤流失率为0。
补充资料:Z向抗张强度
分子式:
CAS号:
性质:纸产品属于三度结构材料,除了纵、横向强度之外,垂直于纸平面的强度也很重要。内结合强度系指在特定条件下,使单位面积的纸或纸板发生内部脱层所需要的力,以N/cm2表示。也称Z-向抗张强度。内结合强度主要决定于纤维间结合强度,受纤维长度和纤维本身强度的影响小,但受打浆、抄纸、湿压榨、造纸添加剂和纸页中细小纤维含量等的影响很大。
CAS号:
性质:纸产品属于三度结构材料,除了纵、横向强度之外,垂直于纸平面的强度也很重要。内结合强度系指在特定条件下,使单位面积的纸或纸板发生内部脱层所需要的力,以N/cm2表示。也称Z-向抗张强度。内结合强度主要决定于纤维间结合强度,受纤维长度和纤维本身强度的影响小,但受打浆、抄纸、湿压榨、造纸添加剂和纸页中细小纤维含量等的影响很大。
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参考词条