与堆叠毛毡的重量不同,漂浮的织物响应游客的行为和微气流以提供敏感的运动。
Being different from the heaviness of the stacking felt, the floating fabric provides sensitive movements in response to behaviours of visitors and micro airflow.
本文叙述了用PTFE废弃边角屑料经辐射裂解,超微气流粉碎制备PTFE超细粉的工艺过程与应用范围。
This paper describes the preparation of ultrafine PTFE powder from the waste leftover bits and pieces of PTFE by radiation splitting and superfine airflow, as well as the application of the powder.
这种方法借助于流化床技术,利用气流使颗粒、微丸处于悬浮流化状态进行包衣的一种方法。
The process can be used to apply coating film to the granules and pellets when they are in the state of suspending and fluidizing using airflow by fluidized-bed technology.
介绍一种新型气体流量传感器——AWM系列微桥式气流质量传感器在微小气体流量测量中的应用。
Microbridge mass airflow sensors of AWM series, a new kind of airflow sensors, applied in micro airflow measurements is presented.
频率微扰商是表示连续元音发声时声带振动相邻周期间的微细变动量; 发声效率反映平均气流率与声能的有效转换率。
PP indicates the amount of irregular vibration of vocal folds and I/F represents efficient transition from MFR to acoustic energy.
结果:微囊防潮效果随着进风温度的提高、供液速度的降低、雾化气流速的降低而增强;反之则减弱。
Result: the damp proof effect enhanced with the increase of inlet air temperature and the decrease of flow rate and air pressure.
结果表明,反应气流的流向以及催化剂在反应过程中发生的物理和化学变化是导致碳微线圈形态变化的两个重要原因。
The results of SEM, TEM, SAED and XRD show that the direction of gas current and the physical or chemical changes of catalyst grain cause the morphology variety of carbon micro-coils.
铜板作微穿孔处理,使得空气流通但阻挡了雨水的侵入。
The micro perforation of the copper allows the passage of air while blocking rainwater.
基于微缝隙气流的粘度修正模型,分析了气体对微圆盘的压膜阻尼效应,得到微圆盘表面的压强分布、压膜阻尼力和压膜阻尼系数的解析解。
Based on a viscosity amendment model of gas flow in micro-gap, squeezs gas film damping effect on micro plates is investigated.
本文利用FACE(佛罗里达积云试验)1978年夏季积云飞机实测资料,对微物理过程的垂直连续性及其和上升气流的关系进行了研究。
An experiment to examine the vertical continuity of microphysical processes in relation to the supporting updrafts was conducted during the Florida Area Cumulus Experiment (FACE) in 1978.
研究表明,随着气流马赫数的增加,吸声结构的消声系数明显下降,微穿孔板的非线性声阻和声质量修正值都略有减少。更需注意,在高速流条件下吸声结构的共振峰将会发生偏移。
It is shown that the attenuation coefficient will decrease obviously with the increase of Mach number, and the nonlinear acoustic resistance and acoustic mass will reduce slightly.
研究表明,随着气流马赫数的增加,吸声结构的消声系数明显下降,微穿孔板的非线性声阻和声质量修正值都略有减少。更需注意,在高速流条件下吸声结构的共振峰将会发生偏移。
It is shown that the attenuation coefficient will decrease obviously with the increase of Mach number, and the nonlinear acoustic resistance and acoustic mass will reduce slightly.
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