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Thursday, 01 October 2020
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Raw materials & technologies, Technologies

VIS-optical reflectometry: a method to investigate latex-based coatings

Monday, 6 January 2020

A noninvasive technique can be used to study the film formation from aqueous mixtures layered up to 25 μm thickness.

New challenges lie in analysing the outputs of the experiments. Image source: Shawn Hempel - stock.adobe.com. (symbol image)

New challenges lie in analysing the outputs of the experiments. Image source: Shawn Hempel - stock.adobe.com. (symbol image)

In many applications, water-based dispersions of polymeric particles are dried under well-defined environmental conditions and/or technologies to form a continuous thin layer with special properties and morphology.

The aim of a actual study is to present a recently developed noninvasive technique based on optical reflectometry in visible range used to study the film formation from aqueous mixtures layered up to 25 μm thickness. The sample holder is made of crystalline silicon (c-Si) because the interference fringes generated by the optical beams reflected at the air/liquid sample and liquid sample/c-Si are vital in determining the sample thickness. For the polymeric colloids with minimum film formation temperature higher than the room temperature, the setup is used to determine the evaporation rate and the temperature film formation.

Analysing the outputs of the experiments

The versatility of the experimental setup is increased by a controlled temperature of the sample holder and a controlled microclimate chamber (temperature and relative humidity). Investigations on various aqueous dispersions considering the composition, the viscosity of the liquid, and different types of polymeric colloidal particles have been performed, and some results are discussed.

New challenges lie in analysing the outputs of the experiments considering the interparticle distance and interparticle interferences.

The study has been published in Journal of Coatings Technology and Research, Volume 16, pages1571–1580.

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