1) macropore
['mækrəpɔ:]
大孔隙
1.
Research on accurate measurement method of porosity of macropore sample;
公路工程大孔隙试件孔隙率精确测定方法研究
2.
CT Scan Analysis and Grey Relativity Evaluation of Macropores in Paddy Soils in Taihu Lake Region;
太湖地区水稻土大孔隙的CT扫描分析与灰色关联评价
3.
Characteristics of macropores in two forest soils on northern slope of Changbai Mountains;
长白山北坡两种类型森林土壤的大孔隙特征
2) macropores
大孔隙
1.
Compare macropores distribution of two soils;
两种土壤大孔隙分布的比较
2.
Distribution of soil macropores characterized by CT;
CT扫描确定土壤大孔隙分布
3.
Physical simulation experiments of effects of macropores on soil water infiltration characteristics
大孔隙对土壤水分入渗特性影响的物理模拟试验
3) pore size
孔隙大小
1.
The results show that the porosity of excessive-ceramic areas in two coatings are similar and it is the greatest at the interface which is less than 6%,the probability distributions of pore size in two coatings are resemble,pores of diameters from 1um to 10um are the most w.
利用定量金相技术对两种涂层富陶瓷区域不同位置的孔隙率、孔隙大小和形态进行了定量分析。
4) big-hole concrete
大孔隙砼
5) macroporosity
[,mækrəpɔ:'rɔsiti]
大孔隙度
1.
In order to understand and appraise the potential effect of rock fragment on the macropore formation deeply,the variety of the contents of rock fragments and macroporosity and their effects of rock fragments on the macroporostiy and the radius and density of macropore are studied in the Liupan Mountains and the results indicate that the increase o.
为了深刻了解和评价土壤中石砾对大孔隙形成的可能作用,本研究分析了六盘山典型植被类型下土壤中的石砾体积含量、大孔隙度变异以及石砾体积含量对大孔隙度、大孔隙半径与密度的影响。
6) macropore flow
大孔隙流
1.
This paper giv es the review on macropore flow research in so ils, including the researching history a n d the study methods of macropore flow.
介绍了近十几年来关于土壤中大孔隙流方面的研究现状与进展 ,包括大孔隙流的研究史和大孔隙流的研究方法 ,详细讨论了在研究大孔隙流时比较常用的二域模型 ,并指出了目前大孔隙流研究中存在的一些问
2.
Uncertainty of macroporous distribution is very important in the research on macropore flow.
精确表达大孔隙分布的不确定性对开展大孔隙流的研究具有举足轻重的作用。
补充资料:催化剂孔隙度(degree of catalyst pole)
分子式:
CAS号:
性质:又称催化剂孔隙度(degree of catalyst pole)。多孔性催化剂颗粒内微孔的总体积,单位是ml/g。其大小由催化剂制备条件决定。
CAS号:
性质:又称催化剂孔隙度(degree of catalyst pole)。多孔性催化剂颗粒内微孔的总体积,单位是ml/g。其大小由催化剂制备条件决定。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条