As a new subject, sonochemistry had been applied in many chemistry and chemical industry fields.
声化学作为一门新的学科,已经广泛应用于化学及化工领域。
The principle of sonochemistry and ultrasonic apparatus for chemical laboratories are introduced.
介绍了超声化学的原理和实验室常用的超声设备。
Ultrasound wave has been widely utilized in various industries for its physical and sonochemistry effects.
超声波具有多种物理和声化学效应,应用广泛。
This paper is mainly summarized the application of ultrasonic techniques of sonochemistry in food industry.
综述声化学中超声波技术在食品工业的应用状况。
Sonochemistry can be used both in synthesize and degradation of chemical compounds. The principal and applications of sonochemical reactions…
本文介绍了超声化学的基本原理及其在有机合成、治理难生物降解有毒有机污染物方面的应用。
Sound cavitation is the driving force of sonochemical reactions. Investigation on sonochemical yield is useful in application of sonochemistry.
声空化是声化学反应的主动力,对声化学产额的研究将能更好地利用声化学技术。
Ultrasonics sonochemistry is also called sound chemistry, it is a newly cross chemistry about speed-up chemical reaction, increasing reaction yield under ultrasound.
超声波化学又称声化学,是利用超声波加速化学反应、提高反应产率的一门新兴的交叉学科。
Based on the theory of sonochemistry, the influence of ultrasound on the carbonation process of the synthesis of nanometer light calcium carbonate is studied initiatively.
根据声化学的有关原理初步探索了超声场对于纳米级轻质碳酸钙合成碳化过程的影响。
This article gives a comprehensive description of the function mechanism, recent application research conditions home and abroad and the development prospects of sonochemistry.
文章综合介绍了声化学作用成因、国内外应用研究现状及其发展前景。
The preparation of nano-iron and coated nanocomposite magnetic powder by sonochemistry and the mechanism of coating were systematically studied by means of SEM, tem, ir, XRD and EDS.
采用SEM、TEM、XRD、IR、EDS等分析方法对超声化学制备纳米铁颗粒以及制备包覆型纳米复合磁粉和超声化学包覆机理进行了研究。
The principles and characteristics of sonochemistry are described. Its application in the area of the technology of textile dyeing is reviewed, and its perspective is analysed and assessed.
论述了超声波化学的基本原理和特点,及其在纺织品染色工艺中应用研究所取得的成果,并对其应用前景进行了分析和评价。
We confirm that sample is the Fe-Co alloy ultrafine powders that have been reported by experiments, and this may open a new way to synthesize other iron-based alloy powders using sonochemistry method.
证实实验所制备的样品是铁钴合金纳米微粒,这也许可为制备新的纳米材料开辟一条新的途径。
We confirm that sample is the Fe-Co alloy ultrafine powders that have been reported by experiments, and this may open a new way to synthesize other iron-based alloy powders using sonochemistry method.
证实实验所制备的样品是铁钴合金纳米微粒,这也许可为制备新的纳米材料开辟一条新的途径。
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