As the length of mandrel extension increases, the trend of thinning-rate change can be failed into three stages, namely linear decrease stage, transitional stage and nonlinear increase stage.
随着芯棒伸出量的增加,管材弯曲过程中的壁厚变薄率变化趋势可分为三个阶段即线性下降阶段、过渡阶段和非线性增加阶段。
Not only are the mountain's glaciers retreating at an unprecedented rate, but its remaining ice is thinning.
不仅只有该山峰的冰川在以前所未有的速度消融,其剩余的冰雪也在逐渐变薄。
It can reduce thinning rate greatly, ensure precision of key dimensions, reduce the mold test times and improve the efficiency.
该工艺方案减小了零件变薄率,保证了零件关键尺寸的精度,减少了试模次数,提高了效率。
The results show that HDPE/MMT nano-composite and HDPE belong to pseudoplastic fluid and present, shear thinning behaviors within the range of shear stress, shear rate and temperature.
在所研究的剪切应力、剪切速率及温度范围内,两者均属于假塑性流体,呈现剪切变稀行为。
The polymer solution was manifested to show the property of shear thinning at low flow rate and shear thickening if the flow rate exceeded a point.
实验发现聚合物溶液在低流速下,表现剪切变稀,超过一定流速后,表现为剪切增稠。
The result shows that the rheology property of paints present a shear-thinning effect, and the shearing stress and shear rate can be expressed in a modified power-law equation.
实验结果表明,涂料呈剪切稀化特性,其剪切应力与剪切速率可用修改的幂律方程表示。
This paper introduces a method to controll a superplastic bulging by a gas-pressure and a height curve. This method can significantly reduce the thinning rate and unevenness of bulging material.
超塑性胀形控制有各种方法,本文介绍了一种按气压与高度曲线控制的方法,使成形过程更接近于等应变速率胀形,能进一步改善零件厚度的不均匀性。
As the non-newtonian shear rate increasing, the melt viscosity of the PA6 and their blends were decreased, and behave shear thinning, show the Pseudo-plastic fluid features.
随着非牛顿剪切速率的增加,PA 6及其共混物的熔体粘度明显下降,表现出剪切变稀现象,呈现假塑性流体的流动特征。
As the non-newtonian shear rate increasing, the melt viscosity of the PP and their blends were decreased, and behave shear thinning, show the Pseudo-plastic fluid features.
随着非牛顿剪切速率的增加,PP及其共混物的熔体粘度明显下降,表现出剪切变稀现象,呈现假塑性流体的流动特征。
Using of the excellent FAC-resistant piping materials can effectively reduce the rate of wall-thinning, as a result, it has been widely used in design or later design alteration.
研究及实践表明,目前已有多种技术用于抑制、减缓上述壁厚减薄现象。其中,选用抗fac性能优良的管道材料能有效地降低壁厚减薄速率并已在设计或设计变更中得到广泛应用。
Using of the excellent FAC-resistant piping materials can effectively reduce the rate of wall-thinning, as a result, it has been widely used in design or later design alteration.
研究及实践表明,目前已有多种技术用于抑制、减缓上述壁厚减薄现象。其中,选用抗fac性能优良的管道材料能有效地降低壁厚减薄速率并已在设计或设计变更中得到广泛应用。
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