重点讨论了热喷雾化工艺参数对热喷铜锌粉末的粒度与颗粒表面性质的影响;
The TA parameters that influenced the particle's size and the powder's surface properties were emphatically discussed.
本文对近年来国内外学者利用热喷雾液质联用技术进行药用植物化学研究的情况进行了综述 ,并介绍了几个较为重要的应用实例。
This article reviewed the recent application of thermospray LC MS technique in the research of chemistry of medicinal plants, and also gave several important examples in more details.
热熨斗和喷雾器也能创造奇迹。
将头发向一边偏分一点点,喷点热保护喷雾。
Make a slightly off-center part, and mist with a heat-protective spray.
本文针对稀土氧化物超微粉末的研制,提出较好的制备方法:沉淀转化法和喷雾热解法。
Deposition inversion and pulverization pyrolysis are the better preparation methods on the study of rare earth oxide ultra micro powder.
综述了国内外铁氧体空心微球的各种制备方法,如:喷雾热结法、模板法、逐层组装法等,及其优缺点和研究现状。
The preparation methods of the ferrite hollow microspheres, such as spray drying method, templating method, layer - by - layer assembly, and the investigation status are reviewed.
目的对风热感冒提取液喷雾干燥时的条件进行筛选和改进,寻求最佳工艺条件。
OBJECTIVE To screen and improve spray drying condition for the extract and obtain the best process.
喷雾冷却时,液膜厚度过大和蒸汽与液滴的逆向运动都会影响沸腾的换热效果。
Both the thickness of liquid film and the reverse movement of steam and liquid droplet influence the effect of heat transfer during spray cooling.
喷雾干燥技术的热干燥机理十分复杂,机理的研究一般采用实验的方法。
The thermo mechanism of spray drying technology is rather complex and generally studied by experiments.
并进一步研究了喷雾热解法中薄膜的形成过程和工艺参数对薄膜微观结构和性能的影响。
The influences of the spray parameters on the electrical and optical properties of the ATO films were evaluated and analyzed in details.
目的:观察清咽喷雾剂治疗急性咽炎肺胃实热证的的安全性和有效性。
This work observed safety and effectiveness of Qingyan Spray for acute pharyngitis with lung-stomach excess-heat syndrome.
采用差式扫描热分析和高温动态X射线衍射对喷雾造粒白炭黑微球的烧结行为进行了研究。
The sintering behavior of white carbon powders by spray pelletization is investigated by DSC and high temperature dynamic XRD.
目的:考察热固化时间及温度对喷雾干燥牛血清白蛋白微球表面活性氨基含量的影响。
OBJECTIVE: Effects of heat denaturation time duration and temperature on the surface reactive amino group content of spray dried bovine serum albumin microspheres were investigated.
以廉价的水玻璃和炭黑为原料,采用沉淀-喷雾干燥法制备反应前驱体,经碳热还原合成碳化硅。
Nanocrystalline SiC powder was synthesized by carbothermal reduction of the precursor of carbon black and silica gel prepared by precipitation-spray drying slurry of carbon black and water glass.
深入探讨了喷雾热解法的成膜机理。
The formation mechanism of the thin films prepared by spray pyrolysis was discussed.
本文基于绿色制造的理念,提出了一项可望从根本上强化加工区换热过程的独创构想——关于低温气动喷雾射流冲击强化换热的构想。
Based on the conception of Green Manufacturing, an original idea about Cryogenic Pneumatic Mist Jet Impinging Cooling is put forward in this paper.
以不同原料,分别对制备高纯超细氧化铝粉的静态热分解法及喷雾热分解法进行对比研究,对影响粉体质量的诸因素作了具体分析与对比。
The effects of different raw materials and techniques on character of alumina powder were respectively compared and researched to pyrolysis and spray pyrolysis methods.
该设备解决了传统喷雾热解设备体积庞大,热效率低,清洗困难,粉体容易被污染,噪音污染严重等问题。
The device solved the defects of traditional spray pyrolysis equipment such as bulky device, lower thermal efficiency, difficulty cleaning, contaminated powder easily, serious noise pollution.
喷雾后,跃跃欲试或类似的,围绕一个大卷发几秒钟,以免烧毁或损坏链铁(或大)热辊筒包头发。
After prepping hair with spray or similar, wrap around a large barrel curling iron (or large hot rollers) for a few seconds to avoid burning or damaging strands.
并对加压中和、喷雾自热干燥磷铵生产工艺存在的缺陷及产品结块原因进行了讨论。
And the causes of caking occurring at the product from pressured-neutralization, spraying and self-drying process, are discussed.
论文主要的研究工作如下:(1)喷雾热分解机理模型的建立和实验条件研究。
The main results are as follows:(1) The mechanism model of spray pyrolysis was established and the experimental conditions was researched.
本发明涉及掺氮空穴型氧化锌薄膜材料的喷雾热解制备方法,属于半导体材料领域。
The present invention is spraying pyrolysis process of preparing nitrogen doped hole type zinc oxide film material, and belongs to the field of semiconductor material.
对于固相合成和喷雾热解法两种方法制备出的样品进行了比较,确定了喷雾热解的制备方法可以使得组分混合的均匀从而导致样品对激发光有更加充分的吸收。
Two preparation methods are compared and confirm that the spray pyrolysis may have an average spread of the particle size distribution, which will lead to the effective absorption of the sample.
对于比较顽固的污渍,用一杯酒精、一小匙清洁剂混合后,用喷雾器喷在污渍处,再以热毛巾覆盖,污渍就能轻易去除了。
For stubborn stains, with a glass of alcohol, a mixed t detergents, airbrush in stains Department, and then covered with hot towels, stains can be easily removed.
对于比较顽固的污渍,用一杯酒精、一小匙清洁剂混合后,用喷雾器喷在污渍处,再以热毛巾覆盖,污渍就能轻易去除了。
For stubborn stains, with a glass of alcohol, a mixed t detergents, airbrush in stains Department, and then covered with hot towels, stains can be easily removed.
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