Optimisation of coating thickness through inline viscosity measurement

In this article, we would like to give you more information about inline viscosity measurement and how it can optimise the coating process in various areas of application. Below, you will learn more about this process on the basis of synthetic resin-bonded mounted points.

Process description of synthetic resin coating for mounted point blanks

Mounted points are available in various sizes and shapes for a wide range of applications. The abrasive used is often corundum or silicon carbide. However, the grit size of these materials varies, depending on the specific application.
Twelve mounted point blanks must be inserted into a magazine, which is rotated 180 degrees so that the points are hanging down. After that, these blanks are immersed into an open overflow bath of synthetic resin. The resin used in the overflow bath is pumped in the curcuit through a supply tank. Neither the tank, the circuit nor the bath are heated.

Mounted points
After the immersion, the blanks drop off and a layer of sythetic resin remains. How thick this layer is though, depends on the viscosity of the resin. Then the blanks are "dusted" with corundum or silicon carbide using hot air circulation so that the grains bond to the resin. After "dusting", the blanks are cured and dried in electrically heated chamber ovens with hot air circulation.

If the thickness of the layer is too thick and the grain size is too small, the grains may drown in the resin; if the layer is too thin and the grain size is too large, the grains may not bond properly.
Since there is a permanent loss of solvent in the open resin bath, this loss must be compensated; otherwise the required resin layer thickness will be incorrect. In addition, temperature fluctuations within the production hall also influence the viscosity in the bath.

Advantages of real-time viscosity monitoring

Continuous viscosity adjustment and thus the correct layer thickness
Resource savings due to optimised (automated) solvent dosing and minimisation of faulty batches
Reduction of spill cup and lab measurements
Process documentation

Similar applications:

Chocolate coatings (e.g. ice cream or nuts)
Sugar syrup (e.g. pills or bonbons)
Paints and varnishes (e.g. brake caliper or carpets)
Adhesives & sealants (e.g. laminate or automotive components)

Installation and configuration of the ViscoScope® viscometer

Operating principle of inline viscosity measurement

The sensor is installed in the feed line to the overflow bath inside a Varivent® flow cell. In order to avoid sump formation, the cell is positioned in an angle of 45 degrees and is filled from above. The immersion bath is above the flow cell so that the cell is always filled with resin, due to the siphon effect.

in this solution used sensors and transmitters