4.7 Article

Self-assembly assisted by microdroplet templates confinement for the preparation of ultramixed composite energetic particulates

期刊

CHEMICAL ENGINEERING JOURNAL
卷 454, 期 -, 页码 -

出版社

ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2022.140204

关键词

Droplet template; Self-assembly; Microfluidics; Composite energetic particulates; B; BaCrO4; Delay precision

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In this study, ultramixed self-assembled B/BaCrO4 particulates with high delay precision were successfully prepared based on microfluidics, providing a novel technology and method for the preparation and mixing of other composites.
Restricted by the macroscopic spatial scale conditions in traditional preparation methods, the improvement of delay precision of the delay composition gradually arrives at the bottleneck. Therefore, a microdroplet-confined coupling polymer self-assembly theory based on microfluidics was proposed to prepare ultramixed self -assembled composite energetic material particulates in order to make a breakthrough in its delay precision. Taking boron (B)/barium chromate (BaCrO4) delay composition as the research object, nano-BaCrO4 particles were prepared and microdroplet templates were generated by using the micromixing and microdispersing re-action systems respectively. With the excellent mixing efficiency of the micromixing reaction system, the effect of reactant concentration and temperature on crystal morphology and particle size of BaCrO4 was investigated, and the spectral response of BaCrO4 particles was analyzed on-line by using an on-line UV-vis spectrophotometer. The results indicated that the reactant concentration exerted a great influence on crystal morphology and particle size of BaCrO4, and the characteristic absorption peak of BaCrO4 was red-shifted regularly with the decrease of crystal thickness at low reactant concentration. Microdroplet templates for self-assembly of B/BaCrO4 nano -composite particles were generated by using a microdispersing reaction system, and the self-assembled B/ BaCrO4 particulates were prepared. The particulates were characterized by thermal analysis and the delay precision was measured. The results exhibited that the composite energetic particulates with ultra-homogeneous mixing, excellent combustion performance and high delay precision were prepared. In summary, in this study, ultramixed self-assembled B/BaCrO4 particulates with high delay precision were prepared based on micro -fluidics, which can provide a novel technology and method for the preparation and mixing of other composites.

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