KR20100001311A - Method for evaluating water-proofing adhesion in automotive steel sheet - Google Patents

Abstract

PURPOSE: A method for evaluating the water-proofing adhesion of a vehicle steel sheet is provided to improve the reliability of the estimation scale by making the quantitative analysis of the part separated from the steel sheet. CONSTITUTION: A deposited and covered steel sheet specimen dips in the water to be kept. An evaluation reference plate with a plurality of straight lines drawn on the surface of a steel sheet specimen in vertical and horizontal direction using a cutter is formed. An inspection adhesive tape is detachably attached to the surface of the steel sheet. An actual image is stored after attaching the adhesive tape to the inspection target steel sheet.

Description

Method for evaluating the water adhesion of automotive steel sheets {Method for Evaluating Water-proofing Adhesion in Automotive Steel Sheet}

The present invention relates to a method for evaluating the water adhesion of automotive steel sheets, and more particularly, to quantify and evaluate the water adhesion of automotive steel sheets so that they can be used for applicability evaluation when developing steel sheets for automobiles.

In general, the car body is painted with paint to protect the body from the external environment. The degree of closeness of the paint used in the painting work to the car body is a very important factor in determining the body quality of the car. It is

Therefore, the steel sheet for automobiles used as the vehicle body of automobiles is evaluated for the adhesion of the coating film in which the paint adheres to the surface at the time of development. .

The method of evaluating the water-resistance adhesion of automotive steel sheet is to immerse the steel sheet specimens with electrodeposition coating in water in the tank for a certain time, and then draw a checkerboard scale on the surface of the steel sheet specimen using a cutter knife, and then checkerboard The adhesive tape for inspection is attached to the surface of the specimen, and then peeled off. The tester visually checks the grade.

However, in the above-described conventional method for evaluating the water resistance of automotive steel sheets, the evaluation grade is determined by visually confirming the amount of the coating film dropped by the tester attached to the adhesive tape, so that the determination result may be determined differently according to the subjectivity of the tester. When a small number of testers evaluated, there was a problem that the reliability of the rating could not be secured.

Therefore, there are many errors in applying the water-resistant adhesion evaluation grade to the development of automotive steel sheets, as well as the closure of reliable data for the developed steel sheets.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for evaluating the water adhesion of automotive steel sheets which can obtain reliable evaluation grade data by quantifying the grade for evaluating the water adhesion of automobile steel sheets.

The object of the present invention is the specimen immersion step of soaking and maintaining the electrode plate coated steel plate in water;

A grid forming step of drawing a steel plate specimen which has undergone the specimen immersion step and then drawing a straight line with a cutter knife at a predetermined interval on the surface thereof, and forming an evaluation reference plate having a plurality of grids in a longitudinal direction and a transverse direction;

A tape detachment step of attaching and removing the adhesive adhesive tape on the surface of the steel plate specimen which has undergone the grid forming step;

An image storage step of attaching the adhesive tape peeled off through the tape detachment step to an inspection sheet and storing the measured image;

It is solved by providing a method for evaluating the water-resistant adhesion of automotive steel sheets including a grade determining step in which grades are determined through a plurality of evaluation grades quantified by analyzing images stored through the image storing step.

The present invention improves the reliability of the evaluation grade by quantitatively analyzing the amount of the coating film separated from the steel plate specimen with an image analyzer, and also provides a reliable evaluation criteria to the steel plate developer to help the steel sheet development. will be.

In addition, the present invention is easy to control the quality of the steel sheet for automobiles, there is an effect that can provide reliable data in developing a steel sheet of a suitable grade for each use.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 is a block diagram showing the process of the water resistance evaluation method of the present invention automotive steel sheet, showing that the specimen immersion step, grid forming step, tape detachment step, image storage step, and graded step in sequence have.

2 to 7 illustrate reference images for determining an evaluation grade in the present invention, FIG. 2 is a reference image of the first grade, FIG. 3 is a reference image of the second grade, and FIG. 4 is of a third grade. 5 is a reference image of a fourth grade, FIG. 6 is a reference image of a fifth grade, and FIG. 7 is a reference image of a sixth grade.

Hereinafter, as shown in FIG. 1, the method of evaluating the water resistance of the steel sheet for automobiles of the present invention is to sequentially pass through a specimen immersion step, a grid forming step, a tape detachment step, an image storage step, and a rating step.

Steel sheet specimens used for the evaluation of water resistance include cold rolled steel sheets and plated steel sheets used in automobiles, and have a size of 100 or more 1 mm × 1 mm grids (2) in the grid forming step. It is based on the thing which formed the coating film by electrodeposition coating, Since the process of the electrodeposition coating is the same as well-known, it turns out that detailed description is abbreviate | omitted.

The specimen immersion step is to soak the electrode plated steel plate soaked in water as described above, and to maintain the water at a constant temperature after storing the water in the tank formed to the size to immerse the specimen soaked for a certain time The same test conditions shall be provided for each specimen specimen to be tested.

The specimen immersion step is to immerse the specimens in water for 230 to 250 hours while maintaining the temperature of the water in the tank at 35 ~ 45 ℃, in the present invention to immerse the specimens in water for 240 hours while maintaining the temperature of the water at 40 ℃ It is based on evaluating each steel plate specimen under the same immersion conditions.

After the specimen immersion step, a grid forming step of forming a gap at a predetermined interval with a cutter knife on the steel plate specimen surface is performed.

The grid forming step is a straight line in the longitudinal direction with a cutter knife, a plurality of spaced apart at regular intervals, and then draw a straight line in the transverse direction again, drawing the same interval and number as the longitudinal direction a plurality of grid (2) checkerboard shape To be formed.

The grid forming step is to draw a straight line in the longitudinal direction with a cutter knife, draw a straight line so that 10 1mm intervals are formed, draw a straight line in the transverse direction so as to intersect a plurality of straight lines drawn in the longitudinal direction, a straight line to form 10 1mm intervals It is based on forming the evaluation reference plate 1 in which 100 grids 2 each having a size of 1 mm x 1 mm are formed.

In the grid forming step, a straight line is formed with a cutter knife to form the grid 2 so that each straight line has the same depth by forming a straight line with a constant depth corresponding to the thickness of the coating film. It is desirable to have.

On the other hand, the steel sheet specimens subjected to the grid forming step is subjected to a tape detachment step of attaching and detaching the adhesive tape for inspection having a certain adhesive strength to the evaluation reference plate (1) of the surface.

When the adhesive tape for inspection is attached and detached in the tape detaching step, a portion of the coating film adhered to the surface of the steel sheet specimens that is weakly adhered by water is adhered to the inspection adhesive tape and peeled off from the surface of the steel sheet specimen. The adhesive tape uses what was formed of the transparent material so that the peeled coating film could be easily confirmed.

After the tape detachment step, the test adhesive tape to which the peeled coating film is adhered is attached to the test sheet, and the image storage step of storing the measured image is performed.

The inspection sheet uses a white paper to attach the inspection adhesive tape, which has undergone the tape detachment step, to store the image, thereby making it easy to identify the peeled coating film.

In addition, the image storing step is based on storing the test sheet to which the test adhesive tape is attached as an image file using an actual optical microscope.

In addition, it is found that the present invention includes any means capable of filing an image by attaching the test adhesive tape to the test sheet after the tape detaching step.

The image file stored through the image storing step is to determine the water-resistant adhesion grade of the steel sheet specimen through the grade determining step.

The grade determining step is to determine the water-resistant adhesion grade through a plurality of evaluation grades quantified by analyzing the image of the stored image file through the image storage step.

Since automotive steel sheets have different acceptance criteria for water adhesion according to each use, the water resistance adhesion grade is divided into a plurality of grades so that the quality of the automobile steel sheet can be easily managed according to the intended use.

The image analyzer determines the water-resistant adhesion evaluation grade by comparing the position and number of the peeled coating film in the stored image file and the total area of the peeled coating film with the data of the grading criteria.

In the water-resistant adhesion evaluation grade, the grade determination reference data is basically divided into six grades in the present invention, which is the evaluation reference plate in which 100 grids 2 having a size of 1 mm × 1 mm are formed in the grid forming step ( It is based on 1).

Water-resistant adhesion in the grading criteria data The grading criterion for the first grade is that the coating film is not peeled off at the longitudinal and transverse straight lines forming the grid 2 as illustrated in FIG. 2, and the coating film is peeled off at each corner of the grid 2. The number of peeled grids 2 is less than 10, and the area of the peeled coating film is not more than 1/2 of the area of the grid 2, and the area of the total peeled coating film is 15.5 mm ² or less.

That is, the image analyzer is analyzed in the image analyzer, but the data of calculating the position and number of the peeled coating film and the total area of the peeled coating film on the basis of the evaluation reference plate (1) and the water resistance adhesion grade 1 judgment reference data If the above case is to determine the water-resistant adhesive grade of 1 grade.

In addition, in the grading criteria data, the water-resistant adhesion grade 2 criterion is not peeled off at the longitudinal and transverse straight lines forming the grid 2 as illustrated in FIG. 3, and the coating film is peeled off at each corner of the grid 2. The number of the grids 2 with which the coating film was peeled off was more than 10, and the area of the peeled coating film was not more than 1/2 of the area of the grid 2, and the area of the total coating film which was peeled off was 19.5 mm ² or less.

That is, the image analyzer is analyzed in the image analyzer, and the data of calculating the position and number of the peeled coating film and the total area of the peeled coating film on the basis of the evaluation reference plate (1) is compared with the water resistant adhesion grade 2 judgment reference data. If the above case is to determine the water-resistant adhesive grade 2 grade.

Further, in the grading criteria data, as shown in Fig. 4, the grading resistance grade 3 criterion includes a plurality of peeling coatings in the longitudinal and lateral straight lines forming the grid 2, and at each corner of the grid 2, as shown in FIG. The coating film is peeled off, the number of the grids 2 peeled off the coating film is more than 10, the area of the peeled coating film is no more than 1/2 of the area of the grid 2, the area of the total peeled coating film is 31mm ² or less. .

That is, the image analyzer is analyzed in the image analyzer, but the data of calculating the position and number of the peeled coating film and the total area of the peeled coating film on the basis of the evaluation reference plate (1) is compared with the water resistant adhesion grade 3 judgment standard data. In this case, the water-resistant adhesion grade is determined as three grades.

Further, in the grading criteria data, the water-resistant adhesion grade 4 criterion includes a plurality of peeling coatings on the longitudinal and lateral straight lines forming the grid 2 as illustrated in FIG. 5, and at each corner of the grid 2. The coating film is peeled off, the number of grids 2 peeled off the coating film is more than 10, the area of the peeled coating film is less than or equal to five or more than the area of the grid 2, the total area of the peeled coating film is 48mm ^{It is two} or less.

That is, the image analyzer is analyzed in the image analyzer, and the data of calculating the position and number of the peeled coating film and the total area of the peeled coating film on the basis of the evaluation reference plate (1) is compared with the water resistance adhesion grade 4 judgment standard data. In this case, the water-resistant adhesion grade is determined as four grades.

Further, in the grade determination criteria data, the water resistant adhesion grade 5 determination criteria has a plurality of peeling coatings in the longitudinal and lateral straight lines forming the grid 2 as illustrated in FIG. 6, and at each corner of the grid 2. The coating film is peeled off, but the number of the grids 2 from which the coating film is peeled off is greater than 10, and the area of the peeled coating film is more than 1/2 more than the area of the grid 2, and the total thickness of the peeled coating film is 71 mm. ^{It is two} or less.

That is, the image analyzer is analyzed in the image analyzer, and the data of calculating the position and number of the peeled coating film and the total area of the peeled coating film on the basis of the evaluation reference plate (1) is compared with the water resistance adhesion grade 5 judgment criterion data. If the above case is to determine the water-resistant adhesive grade 5 grade.

In addition, in the grade criterion data, the water resistance adhesion grade 6 criterion is formed by peeling a plurality of areas where the area of the coating film peeled in the grid 2 is 1/2 or more than the area of the grid 2, as illustrated in FIG. 6. The total coated film area is greater than 71 mm ² .

That is, the image analyzer is analyzed in the image analyzer, but the data of calculating the position and number of the peeled coating film and the total area of the peeled coating film on the basis of the evaluation reference plate (1) is compared with the water resistance adhesion grade 6 criteria If the above case is to determine the water-resistant adhesive grade 6 grade.

The image analyzer determines an accurate evaluation grade by comparing the plurality of evaluation grade data quantified and separated as described above with the image file data stored in the image storing step.

On the other hand, in the evaluation grade data, the water resistant adhesion grade 2 determination criteria are determined by classifying 1.5 grades from the area of the total peeled coating film is 15.5 ~ 16.5mm ² and the water resistance adhesion grade 3 determination criteria is The area of 19.5 ~ 25mm ² is determined by dividing into 2.5 grades, and the water resistance adhesion grade 4 determination criteria is determined by dividing into 3.5 grades from 31 to 38mm ² area of the total peeled off coating film, the water-resistant adhesion grade 5 Judging criteria are determined by classifying 4.5 grades from the area of the total peeled coating film of 48 ~ 59mm ² , and the water resistance adhesion grade 6 criteria is classified into 5.5 grades from the area of 71 ~ 90mm ² of total peeled coating film. It is preferable that it is determined.

That is, by classifying the water resistance adhesion grade in the evaluation grade data is further divided, it can be compared with reference to the water adhesion of the product developed during the development of automotive steel sheet more precisely.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1 is a block diagram showing a process of the water resistance evaluation method of the present invention automotive steel sheet

2 to 7 illustrate reference images for determining an evaluation grade in the present invention.

* Description of the major symbols in the drawings *

1: Evaluation Reference Board 2: Grid

Claims (5)

A specimen immersion step of immersing and maintaining the electrodeposited steel plate specimen in water; A grid forming step of drawing a steel plate specimen which has undergone the specimen immersion step and then drawing a straight line with a cutter knife at a predetermined interval on the surface thereof, and forming an evaluation reference plate having a plurality of grids in a longitudinal direction and a transverse direction; A tape detachment step of attaching and removing the adhesive adhesive tape on the surface of the steel plate specimen which has undergone the grid forming step; An image storage step of attaching the adhesive tape peeled off through the tape detachment step to an inspection sheet and storing the measured image; And a grade determining step of determining a grade through a plurality of evaluation grades quantified by analyzing the image stored through the image storing step with an image analyzer. The method according to claim 1, The image storage step is a method for evaluating the water-resistant adhesion of the steel sheet for automobiles, characterized in that the actual storage of the image by using a measurement optical microscope. The method according to claim 1, The grid forming step is to draw a straight line in the longitudinal direction with a cutter knife, draw a straight line so that 10 1mm intervals are formed, draw a straight line in the transverse direction so as to intersect a plurality of straight lines drawn in the longitudinal direction, a straight line to form 10 1mm intervals Forms an evaluation reference plate in which 100 grids having a size of 1 mm x 1 mm are formed. In the grading step, the water resistance adhesion evaluation method of the steel sheet for automobiles, characterized in that divided into six grades by comparing the position and number of the peeled coating film, the peeled area based on the evaluation reference plate. The method according to claim 3, The evaluation grade of the grading step is that the coating film is not peeled off at the longitudinal and lateral straight lines forming the grid, and the coating film is peeled off at each corner of the grid, and the number of the peeled coating film is within 10, and the area of the peeled coating film is grid. It is not more than 1/2 compared to the area of 1, and the area of the peeled total coating film is 15.5mm ² or less; The coating film is not peeled off at the longitudinal and lateral straight lines forming the grid, and the coating film is peeled off at each corner of the grid, and the number of the peeled coating film is more than 10, and the area of the peeled coating film is 1/2 or more than the area of the grid. No. 2 grade ² having an area of 19.5 mm ² or less of the total peeled coating film; There are a plurality of peeling of the coating film in the longitudinal and lateral straight lines forming the grid 2, and the coating film is peeled off at each corner of the grid 2, and the number of the grids 2 from which the coating film is peeled off is greater than 10, and the peeled coating film No. 3 is not more than 1/2 of the area of the grid 2, and the total thickness of the peeled coating film is not more than 31 mm ² and 3 grade; There are a plurality of peeling of the coating film in the longitudinal and lateral straight lines forming the grid, and the coating film is peeled off at each corner of the grid, and the number of the peeled coating film is more than 10, and the area of the peeled coating film is 1 compared to the area of the grid. A grade 4 having five or less of two or more and an area of the total peeled coating film of 48 mm ² or less; There are a plurality of peeling of the coating film in the longitudinal and lateral straight lines forming the grid, and the coating film is peeled off at each corner of the grid, and the number of the peeled coating film is more than 10, and the area of the peeled coating film is 1 compared to the area of the grid. A grade 5 having more than 5 and not less than ² and a total area of the peeled coating film of 71 mm ² or less; A method of evaluating the water-resistance adhesion of automotive steel sheets, characterized in that the area of the coating film peeled off in the grid is formed in a number of 1/2 or more than the area of the grid, and the total area of the peeled coating film includes a grade 6 of more than 71 mm ^2. . The method according to claim 4, The second grade includes a grade 1.5 with the total area of the peeled coating film 15.5 ~ 16.5mm ² , the third grade includes a grade 2.5 with the total area of the peeled coating film 19.5 ~ 25mm ² , the fourth grade is peeling Grade 3.5 includes a grade 3.5 of 31 to 38 mm ² , and the grade 5 criterion includes grade 4.5 of 48 to 59 mm ² of the total peeled coating, and the grade 6 is the area of the total coated film. A method for evaluating the water resistance of automotive steel sheets comprising 5.5 grades of 71 to 90 mm ² .

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