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今后 10年 ,固体颗粒加工的关注点将从所获得产品的尺寸和粒度分布转向微结构及形态的更基础方面。新产品和加工方法的重点是更好地控制初始粒子的物理性质、高效产品的粒度和组成以及产生所需的特性。这样可以满足具有高价值的、生产量小的特殊工程粉体材料的需求。将来 ,需特殊考虑的将是高价值和特殊效果粉体材料 ,而非简单的颗粒群材料。一般而言 ,工业部门将不得不满足日益增加的最终用户的需求。团聚科学和技术在探索这种新的、微分化的粉体产品性质及其加工方法方面将具有极其重要的作用。这些新领域的主要要求是 ,团聚体的结构和形态要有更大程度的灵活性。这不仅要求对团聚的基础理论有更深刻的了解 ,而且也需要机械、化学、加工方面的工程师与各工业部门的物理化学家、胶体和生物化学科学家及其他研究人员进行各学科之间的努力。
In the next 10 years, the focus of solid particle processing will shift from the size and particle size distribution of the products obtained to more fundamental aspects of microstructure and morphology. The focus of new products and processing methods is to better control the physical properties of the primary particles, the particle size and composition of the highly efficient product, and the desired properties. This can meet the high value, low volume of special engineering powder material needs. In the future, special consideration will be given to high value and special effect powder materials, rather than simple particle swarm materials. In general, the industrial sector will have to meet the needs of an increasing number of end users. Agglomeration science and technology will play an extremely important role in exploring the properties of this new, differentiated powder product and its processing methods. The main requirement in these new areas is that there is a greater degree of flexibility in the structure and morphology of aggregates. This requires not only a deeper understanding of the basic theory of reunification but also the efforts among mechanical, chemical and processing engineers and physicists in various industrial sectors, colloidal and biochemical scientists and other researchers in all disciplines .