The swell shrink grade judgment of expansive soil is an important work for engineering construction in the expansive soil area.
膨胀土胀缩等级评判是膨胀土地区工程建设的重要工作。
It absorbs very little moisture and will not shrink or swell.
它水分少,既不会收缩也不会膨胀。
“But you can’t stop population growth by letting poor children die.” He has the computerised graphs to prove it: colourful visuals with circles that swarm, swell and shrink like living creatures.
汉斯•罗斯林是瑞典卡罗琳斯卡大学一位博士也是一位国际健康专家,”但是你不能因为视图阻止人口增加就让可怜的孩子们死去“,他用计算机制作的图形来证明他的观点,图形由一些圆圈组成的多彩的形象,仿佛生物般挤在一起,或膨胀或缩小。
The mercerization process causes the cotton fibers to swell laterally and shrink longitudinally.
丝光过程使棉纤维沿直径方向膨胀,沿长度方向伸长。
Swelling rock, formed in natural geologic processes and composed of a great deal of strong hydrophilic clay minerals, is of remarkable shrink-swell properties.
膨胀岩土是自然地质过程中形成的由强亲水性矿物构成的一种具有显著胀缩性的地质体。
He has the computerised graphs to prove it: colourful visuals with circles that swarm, swell and shrink like living creatures.
他用电脑图来证明这一点——这些圆圈云集,膨胀,收缩如芸芸众生般,创造了多彩的视觉效果。
The fundamental mechanical conditions of the swell-shrink and settlement are studied.
研究了膨胀土路基发生胀缩沉降的基本力学条件;
Based on special engineering properties of expansion soils, influence factors of swell-shrink distortion are analyzed.
针对膨胀土特殊工程性质,分析了胀缩变形量的影响因素。
The inverse dynamics effects, which are caused by shrink and swell under transient, startup and lower power operation, make the water level difficult to control.
SG在瞬态、启动和低功率运行工况下的“收缩”与“膨胀”现象引起的逆动力学效应使SG的水位控制变得复杂。
The mercerization process causes the cotton fibers to swell laterally and shrink longitudinally.
除了纯棉之外,涤棉混合的纤维也同样可以作丝光处理。
Find Percent (%) Swell and Shrink!
查找百分号(%)膨胀和收缩!
This article use fuzzy mathematics to appraise 4 indexs include expansion force, free expansion ration, liquid limit, plastic limit and establish a fuzzy method to judge the swell-shrink grade.
本文运用模糊数学的方法对膨胀土的膨胀力、自由膨胀率、液限、塑性指数4项指标综合评价,建立模糊识别分类方法。
There are factors such as nonlinearity, high complexity, time varying, swell-and-shrink phenomena and non-minimum phase dynamics which make water level control problem of SG very challenging.
非线性、高复杂性、时变、“膨胀”和“收缩”现象以及非最小相位等特性致使SG水位控制成为一直以来的难题。
There are factors such as nonlinearity, high complexity, time varying, swell-and-shrink phenomena and non-minimum phase dynamics which make water level control problem of SG very challenging.
非线性、高复杂性、时变、“膨胀”和“收缩”现象以及非最小相位等特性致使SG水位控制成为一直以来的难题。
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