这里,提出三步纯化法,去除了碳纳米管阵列顶端的催化剂颗粒,极大地增强了碳纳米管的表面场强。
The catalyst grains on the top of CNTs is removed by using three step purified method in this paper, the electric field intensity is enhanced.
实现除雾高效化,关键在于研制高性能的新型阴极线和阳极管,提高电流密度和电场强度。
To realize the high efficiency of dernisting, thenew type cathode wires and anode tubes with superperformance were developed for increasing the current density and field intensity.
碳纳米管薄膜机械强度高,化学稳定性好,并且有很低的发射场强阀值,较高的发射电流密度。
The aligned nanotube thin films are substantially strong, and chemically inertial with their onset field low and the emission current strong.
根据管型母线的相间距离,计算了管型母线表面工作场强,校验了管型母线的电晕及无线电干扰。
Based on the phase distance of the tubular bus, the working field strength of the surface of the tubular bus had been calculated and the corona and the radio interference of the tubular bus had be.
对离子迁移谱系统进行了优化,得到了最佳的迁移管长度和管内电场强度;同时研究了迁移信号和样品浓度的关系。
The length of the mobility tube and the electric field intensity have been adjusted to optimum, and the relationship between the drift signal and the sample concentration has been studied.
以实验方法调查了其换热系数强化率与外加电场强度、热通量及流动速度、油温、管型等因素的相关性。
The effects of electric voltage applied, heat fluxes, flow velocity and initial temperature of the oil on the heat transfer enhancement were fully investigated.
以实验方法调查了其换热系数强化率与外加电场强度、热通量及流动速度、油温、管型等因素的相关性。
The effects of electric voltage applied, heat fluxes, flow velocity and initial temperature of the oil on the heat transfer enhancement were fully investigated.
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