The paper is still the application performance of the body the concrete flocculent and ion exchange resin compound.
本文还具体研究了絮凝剂与离子交换树脂复合体的应用性能。
The adsorption, desorption performance of strong acidic ion-exchange fiber (IEF) for unsymmetrical dimethyl hydrazine (UDMH) was investigated.
研究了强酸性离子交换纤维对偏二甲肼的吸附、解吸性能。
The paper changed a various of experimental conditions, emphasized to study the synthesis of the resin of styrene-methyl methacrylate, and then studied its adsorption performance to the cupric ion.
文章研究了苯乙烯-甲基丙烯酸甲酯树脂的制备,并研究了该树脂对铜离子的吸附性能。
While Ion Torrent can expect newer, more powerful chips to improve its performance, other sequencing companies are also making rapid strides.
虽然离子激流可以期待更新,更强大的芯片,以改善其业绩,其他公司也正在测序的快速进展。
Due to the low cost of the battery cells and excellent performance at ambient temperature, Lithium-ion (Li-ion) battery is a promising technology for propulsion applications.
由于此蓄电池的低成本和在环境温度下的优秀性能,锂电池将会在推进力应用的技术上有广泛的前途。
Scientists used two harmless viruses to create high-performance, rechargeable lithium-ion batteries that could power portable electronic devices like mobile phones or GPS systems for military uses.
由两种无害的病毒制造的高性能电池,可以为便携式电子设备如手机、GPS系统提供动力,此设备也可用于军事目的。
Specifically, ADA will create a high performance, cost effective and easy-to-manufacture lithium-ion battery that meets the power generation and storage requirements of military UAS.
具体来说,ADA公司将创建一种高性能、低成本、易于制造的锂离子电池,能够满足军用无人机的动力生成和存储的需求。
It showed that doped ion stabilized the structure and help to increase the performance of the material.
掺杂离子稳定了材料的结构,有利于材料的性能的稳定和提高。
Electrode materials, electrolyte and separator are important parts of lithium-ion batteries, which can influence the performance of battery directly.
电极材料、电解质和隔膜是锂离子电池重要组成部分,直接影响电池的性能。
Silicone; Penetrating agent; Concrete; Radical polymerization; Hydrolytic polycondensation; Orthogonal design; Infrared spectrum; Gel permeation chromatography; Performance test; Chloride ion.
有机硅;渗透剂;混凝土;自由基聚合;水解缩聚;正交设计;红外光谱;凝胶色谱;性能试验;氯离子。
Two major performance parameters of negative ion generator are negative ion concentration and ozone concentration.
负离子发生器的两个主要性能参数是负离子浓度和臭氧浓度。
The determination of material structure, performance parameters and membrane resistance, membrane diffusion coefficient of the F4112 ion exchange membrane were introduced.
介绍了F4112离子交换膜的材料结构、性能参数及膜电阻、膜中扩散系数的测定方法。
The main performance, characteristics and the market prospect of polymer lithium ion batteries are introduced as well as the solid polymer electrolyte it adopted.
介绍了聚合物锂离子蓄电池的主要性能特点,采用的聚合物固体电解质体系和市场前景。
The mixture ratio of C40 Marine high performance concrete is optimized through test of the hydration heat of binding material, slump, chloride ion diffusion coefficient, anti-crack rand of concrete.
通过测试胶凝材料水化热、混凝土的坍落度和氯离子扩散系数、抗裂等级等性能,对C40海工混凝土的配合比进行了优化设计。
The principle and performance of a home-made miniature photoionization ion trap mass spectrometer was introduced.
介绍了自行研制的紫外光电离离子阱质谱仪的原理和性能。
To improve the performance of a mass spectrometer, a novel method is proposed to construct an ion trap array mass spectrometer.
为了提高质谱仪的性能,提出了一种全新的构建阵列离子阱质谱仪的方法。
The good electrochemical performance shows that the highly dispersed tin and tin-cobalt alloy composites may be promising anode materials for lithium ion batteries.
良好的电化学性能表明高分散锡和锡钴合金复合材料有望成为锂离子电池负极材料。
The results show that the dynamic hybrid ion implantation deposition technology has remarkable results for improving the performance of combination between film and silicon substrate.
对比分析结果表明,动态混合离子注入沉积工艺对提高膜层与基体的结合性能效果显著。
The ion implantation method has provided a effective and new process for improving the performance of synthetic diamond and its tools.
离子注入法为提高金刚石和金刚石工具性能提供了一条有效的新途径。
High discharge current performance of lithium ion bettery is introduced.
研究了锂离子电池大电流放电性能。
The high performance has been achieved by careful calculation of the ion trajectories, close attention to the design of the ion optics and serial experimental studies.
通过离子轨迹的计算、离子光学系统的设计及一系列的实验研究,改善了系统中的匹配,提高了系统的性能。
More and more attentions are being paid on the capacity and safety of Li-ion battery for its wider use and higher performance demands.
随着锂离子电池应用范围拓宽和人们对锂离子电池高电压、高比能等性能的要求,锂离子电池的高容量和高安全受到关注。
The composite was investigated by XRD and XPS, its electrochemical performance as anode active materials for lithium ion batteries was studied, and its chemical mechanism was discussed.
利用X射线衍射(XRD)、X射线光电子能谱(XPS)对材料进行表征,并将复合材料用作锂离子电池负极材料,研究了它作为负极的电化学性能,并初步探讨了化学机理。
The initial efficiency of discharge-charge, resistance, cycle performance, voltage platform and low temperature performance of Li-ion batteries with different electrolyte was studied.
对使用不同电解液的电池的初始充放电效率、内阻、循环性能、电压平台、低温性能等进行了测试分析。
The formation, structure and components of electrode surface films had much effect on performance of Li-ion batteries.
锂离子电池电极表面膜的形成、结构和组成与电池性能有很大的关系。
The effects of hexamethyldisilazane(HMDS)to the stability of electrolyte and cycle performance of Li-ion battery were studied.
研究了六甲基二硅氮烷(HMDS)对电解液稳定性和锂离子电池循环性能的影响。
The performance such as conductivity and electrochemical stability of common organic electrolyte of Li-ion batteries and general requirement for electrolyte were reviewed.
综述了锂离子电池常用有机电解液的电导率、电池学稳定性等性能及电池对电解液的一般要求。
Searching electrolyte low temperature co-solvent and investigating the effect of it on low temperature electrochemical performance of lithium ion batteries are the intentions of this research.
本课题的立意在于寻求锂离子电池电解液的低温共溶剂,并考察其对锂离子电池低温电化学性能的影响。
Surface of high performance polyethylene fibers have been treated with corona, chemical, high-energy ion and plasma.
采用化学法、电晕法、高能离子法和等离子体法对高性能聚乙烯纤维进行表面处理。
Surface of high performance polyethylene fibers have been treated with corona, chemical, high-energy ion and plasma.
采用化学法、电晕法、高能离子法和等离子体法对高性能聚乙烯纤维进行表面处理。
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