CS215852B1 - Method of determining electrostatic resistance of ename - Google Patents

Description

The invention relates to a method for determining the electrostatic adhesion of enamel powders as the most important processing property of powders intended for electrostatic deposition, i.e. powders whose electrostatic deposition, i. powders whose particles are coated with suitable hydrophobizing agents.

The prior art methods for determining the electrostatic adhesion of enamel powders can be included in three basic groups: vibration-based methods, for example, a method in which an electric vibrator acts on a powder coated sheet for 30 seconds. These are based on the striking of a moving object on a stationary sparse sheet. One of them. the method is also carried out by means of a ball can of defined weight, mounted on a free-rotating arm of defined weight. This is done by raising the canopy on the arm into a horizontal seat and lowering, thereby impacting the canopy to the center of the unpowdered side of the sheet suspended from the fixture. In another case, the edge of the movable object is struck from the side into a powdered, free-hanging sheet, the edge of the object being parallel to the sheet. The third group comprises methods based on the impact of the moving sputtered sheet on a stationary object, whether it is a free fall of the sputtered object on the beam or a horizontal impact of a vertically oriented sputtered sheet on the cab wall. In all cases except the first, it is usually a single blow or impact. In most cases the percentage is evaluated

215 852

215 852 the proportion of powder that remains on the sheet after vibration or mechanical impact.

In the latter case, the holding is assessed visually only. A disadvantage of the method in which the enamelled sheet is subjected to vibration is that it requires a costly apparatus while the other known methods are inaccurate and have insufficient reproducibility.

These disadvantages are largely eliminated by the method of determining the electrostatic adhesion of the enamel powders of the present invention by comparing the weight of the sheet and the enamel powder applied before and after impacting another object, which consists in pre-weighing and vertically arranged steel sheet of defined dimensions by dusting. a defined number of vertical oscillatory movements terminated by impact from a specified distance of its lower edge to the impact that is parallel to the lower edge of the sheet and after re-weighing the powder sheet remaining on Excessive data are evaluated by expressing the weight of the remaining powder on the sheet as a percentage of the flooded powder as an electrostatic addition.

An advantage of the process according to the invention is that it can obtain, more quickly and at lower cost, more reliable control data on the electrostatic adhesion of the enamel powder than the most important processing properties of the enamel powder intended for electrostatic deposition not only in laboratory conditions, but especially in the manufacturing process. This will improve the production process and make it economical.

Example of application according to the invention: stainless steel sheet, cold rolled steel, cold rolled, 2x2 dm, 1 mm depth, with two holes in the upper corners, degreased, stamped to a loss of 10 g Fe / m, passivated Weigh in 0.3% borax solution. The figure thus obtained shall constitute the first export and. Then, from a distance of 25 cm at a voltage of 60 kV, the sheet is sputtered onto a coating of 180 to 350 g / m @ ² and reweighed, representing a type of balance b. Furthermore, from the height of 5 cm above the bottom of the cab, 5 impacts of about half the intensity of the free fall impact on the lower edge of the sheet parallel to the impact plate, in this case the bottom of the cab, , which represents the third export ca

c. From the data a, b, možno, a clear percentage of the electrostatic adhesion of the enamel powders can be obtained after substitution into the formula b-a * 100. Similar to other measurement methods, in this case the measurement can be repeated several times to obtain such an arithmetic mean as the endpoint, which is decisive in terms of powder usability in terms of electrostatic adhesion. Powder with an electrostatic holding greater than 60% may be considered as technically feasible.

The method according to the invention need not be carried out in the cab, but also outside it. In this case, the bottom of the cab is replaced by a sheet of dimensions eg. 3x3 dm, lying on the table and serving as an impact plate.

The degree of reproducibility of the method is satisfactory throughout the practicable range of from 60% to 95% of the adhesion of the powder, and in the area of higher adhesion values I-, this reproducibility is significantly better.

Claims (1)

Method for determining the electrostatic adhesion of an enamel powder based on comparing the weight of a sheet with an enamel powder applied before and after impact on another object, characterized in that a pre-unbound and vertically arranged sheet of defined dimensions with a defined surface pretreatment is dusted from a defined distance under defined conditions it shall be subjected to a specified number of vertically oscillating movements, impacted by impact from a specified distance of its lower edge from the impact thatch, after weighing.