The invention relates to a method for measuring particles in suspension and a measuring instrument. In the solution the length of each fiber-like particle in suspension is one by one optically measured by a line camera in a thin equilateral capillary tube. The fiber-like particles in particular are imaged by two or more cameras in the capillary tube one or more times for measuring such properties as fiber thickness, wall-thickness and fibrillation.
The present invention relates to a method and apparatus for determining the dispersion stability of a liquid suspension. The method of the present invention includes exposing the liquid suspension to one or more appropriate wavelengths of light while maintaining insoluble particles in the liquid suspension uniformly suspended, and determining the amount of light scattered by the liquid suspension to assess the dispersion stability of the liquid suspension. The present invention also provides an apparatus for carrying out the method of the present invention. The method and apparatus of the present invention can be used, for example, to determine the effect that an additive has on the dispersion stability of a liquid suspension without having to wait for the liquid suspension to phase separate.
An image of an object is formed on a matrix detector consisting of pixels and a property dependent on at least one dimension is measured by means of a value related to the object and proportional to the intensity of the optical radiation detected by at least one pixel.
