DE4105393A1 - Wet adhesion testing of latex paint top coats on old alkyd] resin paint - by moving loaded test needles across the wet surface of painted test strips, using special test appts. - Google Patents

Abstract

Wet adhesion testing of topcoats on old paints, esp. latex paint on old alkyd resin paint involves wetting one or more test strips of old paint (basecoat) and topcoat, applied to test substrate(s) and arranged side by side, and subjecting the surface of the strip(s) to the action of test needles which are moved over the surface at the same speed by mechanical means, with the same or different contact force or pressure (after or during wetting). Also claimed is an appts. for carrying out the process, comprising a base frame, stand or plate (I) with test substrates (2) coated with paint strips (3) affixed thereto, a bridge-like mounting (4) with a common shaft (5) for rocker arms (6) fitted with holders (7) (of the same or different contact wt. or pressure) for test needles (8), and a movable wetting device (9) beneath the rockers and behind the needles. Pref. the surface of each test strip is wetted for 1-168 (pref. 6-24) hrs.; the old basecoat is first subjected to a brief weathering process; the latex topcoat is 5-500 (pref. 10-150) microns thick and is dried for 1-14 (pref. 3-7) days at 5-50 (pref. 18-25) deg.C before wetting; the wetting device (9) consists of moisture-holding material, pref. strips of felt or woven fabric, or board covered on both sides with cloth to absorb the wetting agent; the needles (8) have a hardened ball point as the indentor, and the substrate(s) consists of strips of glass, wood or paint-resistant plastic. USE/ADVANTAGE - For testing the adhesion of water-based paints to old resin-based paint under wet conditions, e.g. to determine the resistance of such combinations to rain or condensation. The test can be carried out for any desired period of time with various needle loadings, thus making it possible to determine the time at which loss of adhesion occurs and the state of adhesion at a certain time.

Description

The present invention relates to a method and a device for wet adhesion testing of deck paints chen on old coatings, especially of dispersions painting on alkyd resin paints.

The development in the paint industry is always going on there, solvent-based paints by dissolving medium or solvent-free paints replace. Here are the so-called plastic disper to name colors that have little or no organi contain more solvents. This trend is pulling u. a. however, the problem arises that Dispersionsfar bad wet adhesion on old alkyd paints show. The moisture load can go through directly Exposure to rain or in closed rooms Condensation forms. One tries therefore wet grip through the installation of certain functional ler groups in the binder molecule to improve.

However, in order to increase the effectiveness of such improvements The ability to determine wet grip is the implementation an appropriate test is required.

The so far known wet adhesion tests on paints Old coatings such as wet abrasion test according to DIN 53 778, Cross-cut test according to DIN 53 151, roller peeling test according to DIN 53 289, fingernail test according to DIN 53 230 and blisters degrees according to DIN 53 209 are based on moisture over a period of time. The subsequent one Force exerted during the test is carried out on mecha niche-physical way. This exam will follow a predetermined time and enabled no continuous assessment. The known  Wet abrasion test allows a continuous Assessment, however, only for a certain time room. The test must be stopped after about 3,000 cycles Chen and thus leaves no further difference of the tested coatings.

The well-known test methods also make in complex coating properties as in for example elasticity and film hardness different noticeable. The relationship between layer thickness and Wet grip therefore only applies to the test method used. This is a sign that a suitable method for testing the wet grip of Painting without simultaneous viskoelasti film properties does not exist.

The object of the present invention was therefore therein, a method and an apparatus for wet haf testing of paints, especially dispersi ons paint coats on alkyd resin paints for To make available the paints continuously over a period of your choice the influence of moisture during the wet grip test can be exposed. Furthermore, the mechanical force on the paint film Date of release of the painting film from the arbor be detectable at all times and the release stage clearly assigned to specific times can be.

To solve the problem, this is fiction moderate method characterized in that one or several juxtaposed, made of old paint (Base coat) and top coat, on one or several test strips arranged test strips moistened and then or during the  Moisten the surface of the test strips kung one or more along the same mecha nically moving and moving at the same speed test mandrels on or on these surfaces different contact force or contact pressure get abandoned.

According to one embodiment of the method according to the invention, only the surface of the test strip is moistened, the duration of the wet load per test section,
1 h to 168 h, preferably
6 h to 24 h,
is.

The test strips can apply old coatings (basic coatings) of the same or different composition have advantageous short weathering have been subjected. Since this short weathering under standardized conditions with a short proof tension test, e.g. B. Q-UV Accelerated Weathering Test, is carried out, the influences influenced by different drying of the base coats come from, turn off.

It has also proven to be advantageous if the emulsion paints to be tested have a layer thickness of
5 to 500 µm, preferably
10 to 150 µm,
and before humidification at a temperature
from 5 to 50 ° C, preferably
from 18 to 25 ° C,
for a period of time
from 1 to 14 days, preferably
from 3 to 7 days,
have been dried.

This ensures that meaningful Results in the implementation of the invention Procedure can be obtained.

The test strips can be moistened either by previous complete immersion of the test strip provided test carrier in water or during the Check by placing a moistened felt strip fens, fabric strips or one on both sides with one moistened tissue-covered boards on the surface test strips.

The device claimed for carrying out the method according to the invention consists of a base frame, base frame or base plate ( 1 ) for receiving one or more test carriers ( 2 ) arranged next to one another and fastened thereon, which are coated with the old coat (base coat) and top coat Test strips ( 3 ) are covered, one arranged above the base frame, base frame or base plate, along the same or the same movable bridge-like frame ( 4 ) with one or more, corresponding to the number of test strips, axially movable side by side in a common shaft ( 5 ) Arranged rocker arms ( 6 ) for receiving the holder ( 7 ) of the test mandrels ( 8 ) of the same or different contact force or contact pressure and from a movable humidification device ( 9 ) arranged below the rocker arms and behind the test mandrels.

The moistening device ( 9 ) consists of a moisture-storing material, preferably a felt strip, fabric strip or a board covered with fabric on both sides to receive the moistening agent.

According to an advantageous embodiment of the bean device, the test gauges have an auditory ball point as an indentor. According to another embodiment can also be circular shaped blades or gravers as indenters be used.

According to the invention, the test carrier (s) consist of Glass plates, wooden plates or paint-resistant Sheets of plastic films. However, you can also choose from other suitable substrates exist. In the Using glass plates can influence the Underground, for example migration of ingredient switch off the wooden plates into the test strips.

In the accompanying figure is an embodiment of the Device according to the invention shown.

The device has a base plate ( 1 ) fastened to two opposite sides of the frame of a frame (not shown) with fastening devices ( 11 ) for the test specimens ( 2 ), which consist of the test strips ( 3 ) with the base coat (old coat) and top coat. are covered.

Above the base plate there is the movable bridge-like frame ( 4 ), the walls ( 12 ) from the two sides and the shaft ( 5 ) arranged between these walls and connecting them for receiving seven, paired, spring-loaded rocker arms ( 6 ) , between which the stanchions ( 7 ) for the test pins ( 8 ) are located, which have a hardened ball tip as an indenter. The test pins are detachably attached to the brackets ( 7 ). This means that plug gauges with different indenters can be easily replaced. Below the base plate, the rail-shaped holder ( 13 ) connected to a movement device (not shown) is arranged, which is connected at its two ends to the two outer side walls ( 12 ) of the frame ( 4 ) and the two free sides of the base plate in the form of a projection ( 10 ) embraces. This holder ( 13 ) is thus not in contact with the base plate ( 1 ).

Below the rocker arm and behind the test mandrels, a moistened tissue strip resting on the test strip is arranged as a moistening device ( 9 ).

When the device is switched on, the holder ( 13 ) and thus the associated bridge-like frame ( 4 ) with the test mandrels moves along the test carriers attached to the base plate with the test strips. The moistening device can no longer get under the test pins; Humidification device and test mandrels run synchronously. The movement of the moistening device is controlled by the bridge-like frame ( 4 ).

The size of the contact force or the contact pressure of the Gauges can be adjusted by varying the spring force of the Rocker arm or the weight of the test mandrel holder set differently.  

Example of the wet grip test according to the invention

Seven glass plates with a length of 30 cm and a width of 25 cm were coated with the same alkyd resin as an old coat (base coat) and in a short exposure device (Q-UV Accelerated Weathe ring Tester) in an alternating cycle, 3 hours of light / 3 hours. Moisture weathered. The dispersion paints of various compositions to be tested were then knife-coated onto this alkyd resin substrate using a lacquer dumbbell with a gap height of 150 μm and dried at 23 ° C. for 1 day. The finished be coated glass plates were aligned in a holder ( 11 ) of the base plate ( 1 ) of the device according to the invention in parallel, fastened side by side and below the seven test pins arranged side by side in a movable, bridge-like frame ( 4 ) on an axis in rocker arms with the same contact pressure or the same tracking force. The test mandrels had a hardened ball tip as an indenter. The indenter weighed 29.4 g on the paint. Below the rocker arm and behind the test mandrels, a board covered with a damp cotton fabric was installed as a moistening device transversely to the longitudinal direction of the glass plates. The device was switched on and a maximum moisture load of 6 hours was selected, which corresponds to exactly 15 minutes of moisture load per cm for a test section of 24 cm. The individual test gauges moved over the damp coatings; the distance covered was proportional to the duration of the wet load. When delamination began, the test mandrel pushed the emulsion paint together; there was a fold. After this fold, the test mandrel jumped back onto the coating and a fold group was subsequently formed. In the evaluation, the distance to the first fold and the distance to the fold group were measured. After completion of the wet grip test, a damage pattern could be clearly assigned to the duration of the wet load.

Dispersion paint A:

1. Wrinkle formation 0.8 cm / 12 min
Wrinkle group: 2.5 cm / 37 min

Dispersion paint B:

1. Wrinkle formation 2.4 cm / 36 min
Wrinkle group: 8.2 cm / 123 min

Emulsion paint C:

1. Wrinkle formation 1.7 cm / 25 min
Wrinkle group: 5.0 cm / 75 min

A comparison of the results of the invention Wet adhesion test of the three emulsion paints A, B and C with different composition thus allows the conclusion that the emulsion paint B in practice better wet adhesion on the alkyd resin paint will have than the emulsion paints A and C.

By changing the shape of the indentor Test gauges and the amount of the contact force or the Contact pressure of the test mandrels is possible at all damage to the emulsion paints to be examined image and thus to statements about the Wet adhesion of top coats to old coats, especially of emulsion paints on alkyd resin-coated, to arrive.

Claims (8)

1. A method for wet adhesion testing of top coats on old coats, in particular of emulsion paint coats on old alkyd resin coats, characterized in that one or more test strips consisting of old coat (primer coat) and top coat, arranged on one or more test substrates, are moistened and subsequently moistened or subsequently during or Moisturize the surface of the test strips to the action of one or more test mandrels, which move mechanically at the same speed along the same surface and lie on these surfaces, with the same or different contact force or contact pressure. 2. The method according to claim 1, characterized in that the surface of the test strips is moistened and the duration of the wet load per test section,
1 h to 168 h, preferably
6 h to 24 h,
is. 3. The method according to claim 1 or 2, characterized records that the test carrier (s) an arbor have a dash (primer coat) of one Brief weathering is subject. 4. The method according to one or more of claims 1 to 3, characterized in that the dispersion paint a layer thickness,
from 5 to 500 µm, preferably
from 10 to 150 µm,
and previously humidified at a temperature,
from 5 to 50 ° C, preferably
from 18 to 25 ° C,
for a period of time
from 1 to 14 days, preferably
from 3 to 7 days,
has been dried. 5. Apparatus for carrying out the method of wet adhesion testing of top coats on Altanstri chen according to claims 1 to 4, characterized in that it from a base frame, a Grundge stell or a base plate ( 1 ) for receiving one or more, arranged side by side and on it attached test support ( 2 ), which is coated with the old coat (base coat) and top coat as test strips ( 3 ), an above the base frame, base frame or base plate, along the same or the same movable bridge-like frame ( 4 ) with one or more, corresponding to the number of test strips next to each other in a common shaft ( 5 ) movably arranged rocker arms ( 6 ) for receiving the brackets ( 7 ) of the same or different support weight or pressure for the test mandrels ( 8 ) and from a movable one arranged below the rocker arms and behind the test mandrels Humidifier ( 9 ) exists. 6. The device according to claim 5, characterized in that that the movable humidifier from one moisture-storing material, preferably made of a felt strip, fabric strip or one board covered with fabric on both sides for holding of the humidifier. 7. The device according to claim 5 or 6, characterized records that the test pins are a hardened ball have point as indenter. 8. The device according to claim 5 to 7, characterized indicates that the test carrier (s) is made of glass plates, Wooden panels or paint-resistant sheets consists of plastic films.