JPH07120242A - Method for evaluating coating film of inorganic plate object - Google Patents

Abstract

PURPOSE:To realize objective and efficient evaluation by adopting photographing and measuring processes instead of visual inspection. CONSTITUTION:An adhesive tape 4 is stuck to the surface of an inorganic plate object on which coating 3 is applied. Then, the tape 4 and coating film 3 therearound are photographed and the obtained picture is binarized by every pixel at a specified threshold so as to measure the area of the tape 4. The tape 4 is peeled off thereafter. At this time, the film 3 which is short of adhesivity onto the object 2 is partly peeled off together with the tape 4 when the tape 4 is peeled off. Successively, the part from which the tape 4 is peeled off, is photographed, and the obtained picture is binarized by every pixel at a specified threshold so as to measure the area of the part that the base surface of the object 2 is exposed after the film 3 thereon is peeled off. Finally, both of the measured area values are compared/calculated to evaluate the adhesivity of the film 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for evaluating the adhesion of a coating film on a coated inorganic plate.

[0002]

2. Description of the Related Art In many cases, an inorganic plate-like body is coated in terms of aesthetics, weather resistance and water resistance. For example, as roof tiles, colorful slate tiles have recently been used in place of conventional pottery tiles. The roof tiles are cold, rainy, ultraviolet rays,
Since it is used in harsh climatic conditions such as dust, the adhesion of the coating film is an important issue.

Therefore, the following three methods based on JIS-K5400 are generally carried out as a method for measuring the adhesion of the coating film. (1) Cross-cutting method Visually observe the state of adhesion of the coating film that occurs when a cut that penetrates the coating film on the test piece and reaches the ground surface is made in a grid pattern. (2) Cross-cut tape method Penetrate the coating film on the test piece and make a cut in a grid pattern with a cutter knife, attach an adhesive tape on the cross-cut surface, and remove the coating film after peeling. The state of adhesion is visually observed. (3) X-cut tape method An X-shaped cut (X-cut) that penetrates the coating film on the test piece and reaches the ground surface is attached with a cutter knife, and the adhesive tape is attached on top of it and then peeled off. Visually check the adhesion between the substrate and the coating film.

[0004]

However, in all of the above-mentioned methods, the peeling state of the coating film of the sample is visually inspected, and therefore the evaluation is subject to individual differences and is inefficient. It was

The present invention has been proposed in view of the above problems, and proposes a method for evaluating a coating film of an inorganic plate, which can objectively and efficiently determine the adhesion of the coating film. Has an aim.

[0006]

In order to solve the above-mentioned problems, in the method for evaluating a coating film of an inorganic plate-like body of the present invention, a step of attaching an adhesive tape to the coating film applied to the inorganic plate-like body A tape image pickup step for picking up the adhesive tape and the coating film in the vicinity thereof, a tape area measuring step for binarizing the image obtained in the tape image pickup step for each pixel to measure the area of the adhesive tape, and an adhesive tape And a peeling process,
The peeling imaging step of imaging the part where the adhesive tape is peeled off, and the image obtained in this peeling imaging step
A peeling area measuring step of quantifying the coating film peeling area,
An evaluation step of taking out the two measured area values and comparing and calculating them is used.

Here, the adhesive strength (fracture area) of the adhesive tape of the present invention is preferably 75% or more. When it is 75% or less, the adhesive force of the coating film of the measurement object may not be sufficiently evaluated. The adhesive strength of the adhesive tape is measured according to JIS-Z0218. Also, if the adhesive tape attachment area is 5 cm ² or less, it may not be possible to sufficiently evaluate the difference in the adhesive force of the coating film of the measurement object, and if it is 30 cm ² or more, the measuring device becomes large. It is preferably about 5 cm ² to 30 cm ² .

[0008]

In the method for evaluating a coating film for an inorganic plate of the present invention, first, an adhesive tape is attached to the surface of the inorganic plate which has been coated in the attaching step. Next, in the tape imaging step, the adhesive tape and the coating film in the vicinity thereof are imaged, and in the tape area measuring step, the image is binarized for each pixel by setting a certain threshold value, and the area of the adhesive tape is measured. After that, the adhesive tape is peeled off by a prescribed method in the peeling step. This time,
When the adhesive tape is peeled off at the coating film portion lacking in adhesion to the inorganic plate, the coating film adheres to the tape and peels off. Next, in the peeling imaging step, an image is taken of the part from which the adhesive tape has been peeled off, and in the peeling area measuring step, a fixed threshold value is set based on this image to binarize each pixel, and the coating film peels off Measure the area of the plate where the ground is visible. Finally,
In the evaluation step, the two measured area values are taken out from each of the above steps and subjected to comparative calculation to evaluate the adhesion of the coating film.

[0009]

The present invention will be described below in detail with reference to the drawings showing the embodiments. FIG. 1 is a block diagram of an apparatus used in the method for evaluating a coating film on an inorganic plate of the present invention, and FIG. 2 is a flowchart of the present invention.

In FIG. 1, 1 is a roofing material having a coating 3 applied on the surface of a cement molding 2, 4 is an adhesive tape attached to the surface of the coating 3, 5 is a CCD black and white camera, and 6 is a camera 5.
Is an image processing circuit for receiving and processing the output, 7 is an evaluation circuit for comparing and calculating the area value data, and 8 is a light source of the camera.

The procedure of the embodiment of the present invention will be described below with reference to the flowchart of FIG. First, in the pasting step of step S1, the adhesive tape 4 is carefully rubbed onto the coating film 3 by rubbing it with an eraser so that air does not get in between. Then, in the tape image pickup step of step S2, the coating film 3 is placed upward and placed right below the lens of the camera 5 perpendicularly to its optical axis. At this time, it is confirmed that the adhesive tape 4 is in the image frame of the camera 5. And camera 5
Takes an image of the coating film 3 and the adhesive tape 4 and sends the image to the image processing circuit 6.

Here, 2 in step S3 and step S6.
FIG. 3 shows a flowchart of two area measuring steps. The image processing circuit 6 receives the original image from the camera 5 in step S11, defines a frame of the image to be measured in step S12, and divides the image data of the brightness of each pixel in the frame into two with a certain threshold in step S13. . That is, the target image is divided into binary values of a bright portion (for example, 1) and a dark portion (for example, 0) for each pixel. In the next step S14, the target area value (tape area Sa in step S3, peeling area Sb in step S6) is obtained from the binary data, and stored in the image processing circuit 6 in step S15. .

After step S15 of the tape area measuring step, in the peeling step of step S4, the edge of the adhesive tape 4 is held perpendicular to the coated surface to be momentarily peeled off, and after the peeling imaging step of step S5. Camera part 5
And outputs the image to the image processing circuit 6. Next step S
In the peeling area measuring step of 6, the image processing circuit 6 performs the processing of steps S11 to S15 as described above.
In the evaluation step of step S7, the tape area value Sa previously stored in step S3 and the coating film peeling area value Sb stored in step S6 are taken out from the image processing circuit 6, and the coating film peeling area ratio is output. To do. The calculation formula is as follows. Coating film peeling area ratio (%) = (Sb / Sa) × 100

Next, an inorganic plate having the following composition,
Others are prepared and specific settings of the present invention are described. First, the cement molded product 2 as an inorganic plate-like material was 100 parts by weight of ordinary Portland cement (manufactured by Onoda Cement Co., Ltd.), 50 parts by weight of silica sand (average particle diameter 100 μm, true specific gravity 2.8), vinylon fiber (fiber diameter 5). Denier, fiber length 6m
m) 2 parts by weight, 1 part by weight of hydroxypropylmethylcellulose (manufactured by Shin-Etsu Chemical Co., Ltd .: product number 90SH-4000), and 50 parts by weight of water are mixed. Then, the applied coating film 3 is an acrylic paint manufactured by Dainippon Paint Co., Ltd., which is 120 ° C. for 5 minutes after being applied to the cement molded product 2.
And the finished product has a thickness of 20 μm. The adhesive tape 4 is a Sekisui cloth tape No. 600 manufactured by Sekisui Chemical Co., Ltd., and has a width of 10 mm and a length of 150 mm. The adhesive tape 4 is attached to the surface of the coating film 3 as described above, and then peeled off 5 minutes later, and the peeled state of the coating film 3 is examined. Here, the brightness of the surface of the cement molded product 2 and the adhesive tape 4 can be clearly distinguished from the brightness of the surface of the coating film 3.

In the case where the object is an inorganic plate, the substrate is peeled off with the coating film adhered when cut, and therefore the adhesion between the coating film and the surface of the inorganic plate cannot be measured accurately. However, according to this method, since the inorganic plate-shaped body is not scratched, accurate measurement can be performed. Also, the time for making a cut can be shortened. Further, by mechanizing the attaching process and the peeling process, the adhesiveness can be evaluated even in the middle of the production line, and the occurrence of defective products can be found quickly.

In this embodiment, the difference in lightness is used for the distinction of the areas, but the hue of the coating film, the inorganic plate and the adhesive tape is changed, and the coating film peeling portion and the coating film are coated by using the color camera and the color filter. The film portion, the adhesive tape and the coating film may be recognized separately.

[0017]

As described above, according to the present invention, by using the process of imaging and measuring instead of visual inspection,
The evaluation can be objective and more accurate because the judgment of the measurer can be eliminated. Further, even an unskilled person can easily carry out the method, is efficient, and can significantly reduce the time required for evaluation.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an apparatus of an example of a method for evaluating a coating film on an inorganic plate according to the present invention.

FIG. 2 is a flowchart of an embodiment of the present invention.

FIG. 3 is a detailed flowchart of an area measuring process.

[Explanation of symbols]

 1 Roofing Material 2 Cement Molded Product (Inorganic Plate) 3 Coating Film 4 Adhesive Tape 5 Camera 6 Image Processing Circuit 7 Evaluation Circuit Sa Tape Area Sb Peeling Area

Claims (1)

[Claims] 1. A sticking step of sticking an adhesive tape to a coating film applied to an inorganic plate, a tape imaging step of imaging the adhesive tape and the coating film in the vicinity thereof, and an image obtained in the tape imaging step. Area measurement process for binarizing each pixel for measuring the area of the adhesive tape, peeling process for peeling off the adhesive tape, peeling imaging process for imaging the peeled part of the adhesive tape, and this peeling imaging process A peeling area measuring step of binarizing the image obtained in step 1 for each pixel to measure the peeling area of the coating film, and an evaluation step of taking out two measured area values and comparing and calculating them. A method for evaluating a coating film on an inorganic plate-like body characterized by