In order to get the optimum processing conditions and the effects of various factor in preparation of nanometer magnesia and surface modification of prepared magnesia, monofactor method and multifactor orthogonalizing design method have been applied.
最后以单因素和正交试验法对纳米氧化镁改性进行了研究,筛选出改性的最佳工艺条件。
参考来源 - 纳米氧化镁制备工艺研究The optimum processing conditions and the key factor in preparation of nanometer magnesia are achieved.
纳米氢氧化镁的煅烧是一个晶型转化和热分解反应的过程。
参考来源 - 纳米氧化镁的制备及动力学研究Through the product antibacterial performance test discovery,the nanometer magnesia antibacterial effect is best.
通过产品的抗菌性能测试发现,纳米氧化镁的抗菌效果最好。
参考来源 - 纳米氧化物的制备及其性能表征·2,447,543篇论文数据,部分数据来源于NoteExpress
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;
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