制备兼具阳离子和阴离子性能的柔软剂。
Preparation of a softening agent with both cationic and anionic nature.
并测试了竹炭的红外线性能与负离子性能。
Infrared ray and negative ion of bamboo charcoal were tested.
研究了改性熄焦粉的表面化学特性及其对吸附阳离子性能的影响。
This paper studied the surface chymic character of the modified extinguishing coke powder and the effect of the adsorbing cation capability.
本文研究了内核经硫加金增感的内敏核壳乳剂的感光性能和离子性能。
The properties and ionic conductivities of internal sensitive emulsions, the core of which were chemically sensitized with sulfur-plus-gold, were studied.
有些事实上已经在电动汽车中与锂离子电池同时使用。以提高加速性能和在所谓的“再生”刹车过程中回收能源。
Some, indeed, are already used in tandem with the lithium-ion batteries in electric cars to boost acceleration and recapture energy during so-called "regenerative" braking.
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。
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.
研究了在不同气氛下进行离子渗氮对TC 4钛合金渗氮层的组织与性能的影响。
The effect of the atmosphere on the structure and properties of ion nitriding layer of alloy TC4 was investigated.
一些有害离子(如氯离子)是通过水向混凝土中渗入而进入混凝土中并对混凝土的性能产生不良影响,且有可能导致混凝土中的钢筋生锈;
The water penetrating into concrete may bring in a lot of harmful ions(for example chlorine ion), which has a harmful effect on concrete property and may brings into reinforcement in concrete to rust.
本文介绍钛材离子氮化工艺对其组织结构和性能的影响。
Effect of ion nitriding process for titanium materials on its microstructure and properties have been studied.
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。
It showed that doped ion stabilized the structure and help to increase the performance of the material.
系统的研究了尾矿人工砂的技术路线、配合比、机械性能和高强混凝土的氯离子渗透试验。
In this paper, the technical channel, match ratio, mechanical property, and anti-chlorine permeability of HPC with tail mineral sand are studied systematically.
电解质是制备高功率密度和高能量密度、长循环寿命和安全性能良好的锂离子电池的关键材料之一。
Electrolyte was one of the key points which made rechargeable lithium ion batteries with high power and energy density, long cycling life and desirable safety.
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。
Electrode materials, electrolyte and separator are important parts of lithium-ion batteries, which can influence the performance of battery directly.
而高性能电解质材料的研究与开发是锂离子二次电池的关键技术之一。
One of the critical techniques is to study and develop new high energy density electrolyte materials.
介绍了等离子体对涤纶织物进行表面处理以改善其粘接性能的研究进展。
This paper introduces the research progress on improvement of adhesion of PET fabric by plasma treatment.
注入样品的温升对离子注入层的性能有直接影响。
Temperature rise of implanted samples have direct influences on properties of ion implantation layer.
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。
More and more attentions are being paid on the capacity and safety of Li-ion battery for its wider use and higher performance demands.
把特殊的树脂加入粘胶纺丝液中,能获得具有离子交换性能的纤维。
By incorporation of special resins into the spinning dope of viscose, fibers with ion - exchange properties were obtained.
采用交流阻抗谱分析研究了样品的氧离子导电性能。
The oxygen ionic conducting properties of the ceramic specimens were examined by impedance spectroscopy analysis.
选择合理的过充保护添加剂是提高锂离子电池耐过充性能的主要措施。
The main measures of improving overcharge performance was adaptive overcharge protecting additive.
简要介绍了锂离子电池电解质的分类和性能指标;
The properties of electrolytes and their categories were simply stated.
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。
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。
Two major performance parameters of negative ion generator are negative ion concentration and ozone concentration.
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