A series of hydrophilic and hydrophobic nanometer magnesia particles have been fabricated.
制备了一系列亲水型和亲油型的纳米氧化镁粉体。
ConclusionThis is a good method that can prepare nanometer magnesia particles with free-agglomeration.
结论该方法是一种很好的制备无团聚纳米氧化镁粒子的方法。
The optimum processing conditions in the surface modification of nanometer magnesia : the modification temperature is 600C;
纳米氧化镁经月桂酸钠处理可以得到表面亲油化的粒子,改性最佳工艺条件为:改性温度600C;
The properties, applications and research situation at home and abroad of nanometer magnesia have been presented in this thesis.
本论文简要介绍了纳米氧化镁的性质、用途及国内外研究现状。
In this thesis, the technology of preparing nanometer magnesia in PTM was further studied, and then surface modification of nanometer magnesia particle was discussed.
论文首先对沉淀转化法制备纳米氧化镁的工艺作了进一步研究,然后进行了纳米氧化镁表面改性技术的研究。
This paper has summarized the Sol-Gel technologies of preparation for nanometer magnesia powder in the recent years, and the development of this method was discussed in details.
对近年来以溶胶-凝胶法制备纳米氧化镁粉体的几种工艺进行了总结比较,并展望了该法的发展前景。
This paper has summarized the Sol-Gel technologies of preparation for nanometer magnesia powder in the recent years, and the development of this method was discussed in details.
对近年来以溶胶-凝胶法制备纳米氧化镁粉体的几种工艺进行了总结比较,并展望了该法的发展前景。
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