金刚石纳米颗粒的超声团聚破碎

O. Kudryashova, A. Vereshchagin, A. V. Balakhnina, E. A. Petrov
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引用次数: 4

摘要

纳米粒子的许多实际应用都处于将粒子引入液体的技术阶段。同时,颗粒的润湿性可能很差。纳米结构团块包含充满空气的微孔和纳米孔。需要外部冲击来清理这些团块。超声治疗通常用于这些目的。超声波冲击可使团聚体破碎成原颗粒,有利于团聚体粒径的凝聚和生长。本文找到了超声处理纳米金刚石悬浮液的主导机制(破碎或团聚)的判据。从理论上和实验上考虑了超声加工过程中颗粒尺寸变化的动力学特性。纳米粒子的许多实际应用都处于将粒子引入液体的技术阶段。同时,颗粒的润湿性可能很差。纳米结构团块包含充满空气的微孔和纳米孔。需要外部冲击来清理这些团块。超声治疗通常用于这些目的。超声波冲击可使团聚体破碎成原颗粒,有利于团聚体粒径的凝聚和生长。本文找到了超声处理纳米金刚石悬浮液的主导机制(破碎或团聚)的判据。从理论上和实验上考虑了超声加工过程中颗粒尺寸变化的动力学特性。
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Ultrasonic agglomeration-fragmentation of diamond nanoparticles
A lot of practical applications of nanoparticles assume a technological stage of introduction of particles into liquid. Meanwhile, particles could have a poor wettability. Nanostructural agglomerates contain micro- and nanopores filled with air. External impact is necessary to defragment these agglomerates. Ultrasonic treatment is often used for these purposes. Ultrasonic impact can break the agglomerate to original particles and can serve coagulation and growth of the sizes of the agglomerate. We have found the criterion of the leading mechanism (fragmentation or agglomeration) at ultrasonic processing of suspensions of nanodiamond in this work. Dynamics of the change of particles’ sizes at ultrasonic processing is considered theoretically and experimentally.A lot of practical applications of nanoparticles assume a technological stage of introduction of particles into liquid. Meanwhile, particles could have a poor wettability. Nanostructural agglomerates contain micro- and nanopores filled with air. External impact is necessary to defragment these agglomerates. Ultrasonic treatment is often used for these purposes. Ultrasonic impact can break the agglomerate to original particles and can serve coagulation and growth of the sizes of the agglomerate. We have found the criterion of the leading mechanism (fragmentation or agglomeration) at ultrasonic processing of suspensions of nanodiamond in this work. Dynamics of the change of particles’ sizes at ultrasonic processing is considered theoretically and experimentally.
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