Investigation of spherical and concentric mechanism of compound droplets 被引量：3

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摘要 Polymer shells with high sphericity and uniform wall thickness are always needed in the inertial confined fusion(ICF)experiments.Driven by the need to control the shape of water-in-oil(W1/O)compound droplets,the effects of the density matching level,the interfacial tension and the rotation speed of the continuing fluid field on the sphericity and wall thickness uniformity of the resulting polymer shells were investigated and the spherical and concentric mechanisms were also discussed.The centering of W1/O compound droplets,the location and movement of W1/O compound droplets in the external phase(W2)were significantly affected by the density matching level of the key stage and the rotation speed of the continuing fluid field.Therefore,by optimizing the density matching level and rotation speed,the batch yield of polystyrene(PS)shells with high sphericity and uniform wall thickness increased.Moreover,the sphericity also increased by raising the oil/water(O/W2)interfacial tension,which drove a droplet to be spherical.The experimental results show that the spherical driving force is from the interfacial tension affected by the two relative phases,while the concentric driving force,as a resultant force,is not only affected by the three phases,but also by the continuing fluid field.The understanding of spherical and concentric mechanism can provide some guidance for preparing polymer shells with high sphericity and uniform wall thickness.

作者 Meifang Liu Lin Su Jie Li Sufen Chen Yiyang Liu Jing Li Bo Li Yongping Chen Zhanwen Zhang

机构地区 Research Center of Laser Fusion School of Energy and Power Engineering Key Laboratory of Energy Thermal Conversion and Control of Ministry of Education

出处《Matter and Radiation at Extremes》 SCIE EI CAS 2016年第4期213-223,共11页 极端条件下的物质与辐射（英文）

基金 the China Academy of Engi-neering Physics for financial support(2014B0302052) National Natural Science Foundation of China(U1530260).

关键词 Compound droplet stability Compound droplet deformation SPHERICITY Wall thickness uniformity Interfacial tension Density matching

分类号 TG1 [金属学及工艺—金属学]

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参考文献2

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Matter and Radiation at Extremes

2016年第4期

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