inner sleeve meaning in Chinese
内套管
内套筒
Examples
- The distribution of the gas - flow speed is measured at a position 1cm away from the outlet ( the end with larger air - gap ) . it is illustrated that the gas - flow speed keeps increasing from the out surface of the inner sleeve to the inner surface of the outer sleeve , and then it decreases gradually
测量了楔形气隙流体出口(大间隙端口)外1厘米处空气流速大小的分布,发现空气流速自转子(内筒)壁面处开始逐步增大,至定子(外筒)壁面处达到最大值,随后开始减小。 - Temperature field of hollow ingot solidification is simulated by fem . to different mould , effect of heat transfer coefficient between inner sleeve and cooling medium and thickness of core refractory on final position of solidification , the highest temperature of inner sleeve against cooling medium , and shrinkage cavity and porosity are compared . in addition , change of temperature in typical position of core refractory is also compared
对空心钢锭凝固过程的温度场进行了有限元分析,对不同锭型结构的芯部换热系数、耐火材料厚度对最终凝固位置、内筒壁最高温度及缩孔疏松的影响进行了对比,并讨论了耐火材料典型部位的温度随凝固时间的变化。 - Under the assumption that the inner surface of stator sleeve and outer surface of rotor are smooth , taking the fact into account that the temperature of stator sleeve of evaporation cooling motor keeps almost the same , horizontal evaporation cooling motor is simplified as a physical model of two coaxial sleeves , with outer sleeve ( the stator ) holds still and keep at constant temperature and inner sleeve ( the rotor ) is rotating and heated
本文通过数值和实验手段研究了卧式蒸发冷却电机楔形气隙中的流体流动、传热现象。本文在定子套筒和转子表面光滑的假设下,针对蒸发冷却电机定子套筒壁面基本恒温的特点,将实际蒸发冷却电机简化为同轴套筒内筒加热旋转、外简静止定温的物理模型。 - Abstract : temperature field of hollow ingot solidification is simulated by fem . to different mould , effect of heat transfer coefficient between inner sleeve and cooling medium and thickness of core refractory on final position of solidification , the highest temperature of inner sleeve against cooling medium , and shrinkage cavity and porosity are compared . in addition , change of temperature in typical position of core refractory is also compared
文摘:对空心钢锭凝固过程的温度场进行了有限元分析,对不同锭型结构的芯部换热系数、耐火材料厚度对最终凝固位置、内筒壁最高温度及缩孔疏松的影响进行了对比,并讨论了耐火材料典型部位的温度随凝固时间的变化。