靶式流量计测量高粘度介质流量有其独特的优点。
Target flowmeters offer unique features to flow measurement of media with high viscosity.
本文研究了在某些摄象器件、存贮器件或电光显示器件中介质靶诸因素对分辨率的影响。
The influences of various factors of dielectric target in certain pick-up tubes, storage devices and electro-optic display devices on the resolution are studied in this paper.
较详细地讨论了表面漏电和靶而其他介质膜层的引入对分辨率的影响。
The leakage of electricity on surface and the influence of the other medium film layer introduced on target surface on the resolution are discussed in detail.
采用双水电极实验装置,对大气压氩气介质阻挡放电中的靶波与螺旋波斑图进行了观察测量。
The spiral and target patterns have been observed in dielectric barrier streamer discharge by using water electrodes.
LPS是败血症级联反应中的早期介质,也是最高的可能的上游靶的之一,因此是一个开发成功疗法的有希望的途径。
This is an early mediator in the sepsis cascade, and one of the highest possible upstream targets, and therefore a promising approach for the development of a successful therapy.
首先使用程序包EGS4 ,对高能电子在介质中的电磁级联过程进行了模拟,优化了靶厚度,讨论了影响打靶产额的因素。
We use EGS4 code to simulate the electron-gamma shower of high-energy electrons in a medium, optimize target thickness, and analyze positron distributions in phase space.
提示靶器官由一群特定的交感节前神经元支配,后者又接受含某种特定神经介质纤维的支配。
It suggests that a target organ may be innervated by a special group of preganglionic neurons, and in turn, they may receive specific neuronal input, characterized by a particular neurotransmitter.
磁控 靶内设有冷却室,冷却室设有冷却介质进口和出口。
There is a cooling chamber with inlet and outlet for cooling medium inside magnetron targets.
因此,P 2x4受体和细胞内信号传导介质中的小胶质细胞是有希望的治疗靶点,为开发新的药物在神经性疼痛的管理。
Thus, P2X4 receptors and the intracellular signaling mediators in microglia are promising therapeutic targets for the development of novel pharmacological agents in the management of neuropathic pain.
因此,P 2x4受体和细胞内信号传导介质中的小胶质细胞是有希望的治疗靶点,为开发新的药物在神经性疼痛的管理。
Thus, P2X4 receptors and the intracellular signaling mediators in microglia are promising therapeutic targets for the development of novel pharmacological agents in the management of neuropathic pain.
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