| 1. | Basic dyke swarms ; round columnar joints ; cool shrink ; viscous shearing
基性岩墙群圆柱状节理冷却收缩黏滞性剪切作用 |
| 2. | Low viscosity polymer resin
低黏滞性聚脂 |
| 3. | The colloidal character of the dispersion gives the drink high body , high viscosity and low surface tension
这些散布的胶体,就造成了浓缩咖啡高质感、高黏滞性以及低表面张力等特性。 |
| 4. | And the detailed features of the elliptical asymmetry suggest that this surprising liquid flows with almost no viscosity
在椭圆不对称上的细节特徵指出,这种令人惊奇的液体流动时几乎没有黏滞性。 |
| 5. | The rate at which magma leaves a chamber depends primarily on two factors : the magma ' s viscosity , or ability to flow , and the pressure difference between the chamber and the earth ' s surface
岩浆从岩浆库喷出的速度,主要取决于两个因素:岩浆的黏滞性(或是流动能力)以及岩浆库与地表的压力差。 |
| 6. | The round columnar joints are one of the flow structures showing the horozontal emplacement of basic dyke swarms . the round columnar joints show that the basic dyke has rheological behaviour of the viscous shearing in magma emplacement
岩墙发育圆柱状节理表明出露的是岩墙的顶部,反映基性岩墙群侵位时岩浆具有黏滞性剪切作用的流变学特征。 |
| 7. | In this study , the transonic shock - wave / boundary - layer interaction and viscous shear stress for the turbine and compressor stator were simulated used the implicit two - factor flux - splitting schemes for solving the thin - layer compressible flow
除验证各式正确性外并仿真叶片外形对气流分离、震波/边界层相互干扰及压缩比等关系,以及流体黏滞性等影响下,引擎能量损失与效益分析。 |
| 8. | In this study , the transonic shock - wave / boundary - layer interaction and viscous shear stress for the turbine and compressor stator were simulated used the implicit two - factor flux - splitting schemes for solving the thin - layer compressible flow
除验证各式正确性外并模拟叶片外形对气流分离、震波/边界层相互干扰及压缩比等关系,以及流体黏滞性等影响下,引擎能量损失与效益分析。 |
