折反式激光粒度测量方法

Refract-reflect laser particle size measurement method

  • 摘要: 激光粒度仪因其快速、非接触等优点被广泛应用于各领域的粒度分布测量,但颗粒散射光的角分布与粒度大小关系复杂。为了获得不同粒度下的相对精度一致,通常会造成粒度分布测量范围小、无法满足宽分布粒度测量要求等问题。根据Mie散射近似的菲涅尔原理,提出采用折反式光路,将颗粒散射信号由分光镜分成两束,经两组组合式镜头和2个光电探测器分别采集透射和反射的散射信号,信号组合后经反演得到颗粒粒度分布,从而提高了可测粒度范围。采用两种标准粒子及其混合物进行了实验,结果表明,单种标准粒子测量结果的体积中位径D50的测量相对误差都不大于7.9%;对混合粒子也能够得到正确的峰值分布。

     

    Abstract: Laser particle size analyzer has been widely used in the measurement of particle size distribution in various fields due to its advantages of fast speed and non-contact. However, the relationship between the angular distribution of scattered light and particle size is complex. In order to obtain the consistent relative accuracy under different particle sizes, the measurement range of particle size distribution will be small and cannot meet the requirements of wide distribution particle size measurement. According to the Fresnel principle of Mie scattering approximation, it was proposed to use the catadioptric optical path. The particle scattering signal was divided into two beams by the splitter, and the transmitted as well as reflected scattering signals were collected by two sets of compound lenses and two photodetectors, respectively. The combined signal was inversed to obtain the particle size distribution, thereby improving the range of particle size measurement. Two kinds of standard particles and their mixtures were used in the experiment. The results show that the relative error of the volume median diameter D50 measured by a single standard particle is not greater than 7.9%, and the correct peak distribution can also be obtained for mixed particles.

     

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