KR20130008403A - Curved jig for test of weather resistance - Google Patents

Abstract

PURPOSE: A curved jig for a weatherproof test is provided to induce the generally uniform curve-transformation of a testing piece at a predetermined curvature radius when evaluating degradation caused by bended vehicle parts, thereby improving evaluation reliability and reproducibility. CONSTITUTION: A curved jig for a weatherproof test comprises a support jig(14), a pressing jig(10), and a joining jig(15). The support jig has predetermined surface curvature and supports a testing piece in a rear surface of the testing piece. The pressing jig is joined to the supporting jig by a prefabricated type and presses left and right sides of the upside of the testing jig. The joining member joins the support jig and the pressing jig, thereby fixing the same. The testing piece is bent generally uniform according to the surface curvature of the support jig.

Description

Curved jig for test of weather resistance

The present invention relates to a bending jig for weather resistance testing, and more particularly, to a bending jig for weather resistance testing for use after passing test pieces in weather resistance evaluation for predicting the occurrence of coating film cracking of hard-coated parts.

In general, the plastic material undergoes a hard coating process to replace a glass material component of an automobile such as a headlamp lens, a sunroof and a side window, and performs weather resistance evaluation to predict and test a coating film crack caused by the hard coating.

Most automotive parts made of glass material are curved parts having curved surfaces. Conventional weather resistance test jigs are for evaluating deterioration of flat plate specimens, and the test time is long and the reproducibility is lowered. There was a problem in which deterioration could not be evaluated.

Accordingly, in order to evaluate the deterioration of automobile parts due to bending, as shown in FIG. 1, a conventional three-point support type bending jig has been used. It evaluates the deterioration due to bending of the central part of the specimen by using two points (2, 3) on both sides of the upper surface of the specimen and one central point (4) on the rear surface of the specimen as the support points (2 to 4). As the height of the center support point 4 on the back surface of the test piece was changed to increase the bending rate of the test piece evaluation surface, the bending rate increased only around the center support point 4 and the other parts had different bending rates. Occurs greatly, and there is a problem that the test reliability is lowered.

The present invention has been invented to solve the above problems, to provide a bending jig for weather resistance test that can improve the evaluation reliability and reproducibility by supporting and bending the test piece evenly as a whole with a predetermined radius of curvature during evaluation of degradation due to bending. There is this.

In order to achieve the above object, the present invention has a predetermined surface curvature, the support jig for supporting the test piece on the back of the test piece; A pressing jig coupled to the supporting jig prefabricated and configured to press the left and right sides of the test piece on an upper surface thereof; It consists of a fastening means for coupling and fixing the supporting jig and the pressure jig; provides a weather resistance test bending jig characterized in that the test piece can be bent uniformly as a whole according to the surface curvature of the supporting jig.

Preferably, the pressing jig is formed in a flat plate shape having an opening through which a central portion of the test piece can penetrate, and a fixed rib is mounted on a lower surface to press and hold both left and right ends of the test piece placed on the supporting jig.

In addition, the support jig is characterized in that the temperature of the test piece can be adjusted during the weather resistance test according to the surface color.

The weathering test bending jig according to the present invention can test and test the test piece with a uniform curvature radius as a whole during the evaluation of deterioration due to the bending of the automotive parts can increase the evaluation reliability and reproducibility, thereby promoting light heat In the weather resistance test by ignition, an accelerated test for reproducing cracks of the hard coating film becomes possible.

1 is a schematic diagram showing a deterioration evaluation method by the bending of automobile parts using a conventional jig for weathering test
Figure 2 is an exploded perspective view showing a bending jig for weathering test according to an embodiment of the present invention
Figure 3 is a perspective view of the bonding jig of the weathering test of Figure 2
Figure 4 is a schematic diagram showing the deterioration evaluation method by the bending of the test piece using the bending jig for weather resistance test according to the present invention
5 is a schematic diagram illustrating a method of measuring the nominal strain on the tensile surface of a test piece bent at a radius of curvature r;
6 is a view showing the weather resistance test results using the bending jig for weather resistance test according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a flexure jig for use in weather resistance tests that can predict the occurrence of hard coating film cracking of transparent material parts, such as hard-coated plastics, in order to replace automotive glass material parts. And a test piece of an evaluation part) can be bent uniformly throughout the predetermined radius of curvature.

To this end, the weathering test bending jig according to an embodiment of the present invention, as shown in Figure 2, the support jig 14 for supporting the test piece on the back of the test piece, the support jig 14 and the stacking arrangement on the test piece And a pressing jig 10 for supporting the test piece.

The pressing jig 10 is formed in a flat plate shape having a rectangular opening 11 through which a central portion (specifically, between the left and right ends of the test piece) of the test piece placed on the supporting jig 14 can pass therethrough. Fixing ribs 12 for pressing and fixing the left and right ends of the test piece placed on the support jig 14 are provided.

The pressing jig 10 is assembled and fixed to the supporting jig 14 and the left and right both ends by the fastening means 15 and 16, and thus the left and right both ends of the test piece placed on the supporting jig 14 are pressurized jig 10. Pressed by) to be in close contact with the support jig 14 is fixed between the support jig 14 and the pressure jig 10, wherein the test piece is bent uniformly as a whole according to the top surface curvature of the support jig (14).

The fixed ribs 12 bend the test pieces by pressing the left and right ends of the test piece as the test piece placed on the upper surface of the support jig 14 approaches the pressure jig 10 when the pressure jig 10 and the support jig 14 are coupled. Let it go.

As shown in Figure 4, the fixed rib 12 is formed to have a curved cross section in order to minimize the surface damage of the test piece.

The supporting jig 14 is formed of a curved panel having a predetermined surface curvature, and left and right ends thereof are formed in a flat plate shape for fastening with the pressing jig 10.

The supporting jig 14 may be used according to the bending rate to deform the test piece, and the assembly and disassembly of the fastening means 15 and 16 constituted by the bolt member 15 and the nut member 16 and the like. By simply changing the support jig 14 having a different bending rate can be configured.

In addition, the support jig 14 may exert a heat accumulation effect according to the surface color of the back surface of the test piece during light irradiation for the degradation test of the evaluation component.

That is, the support jig 14 is capable of adjusting the temperature of the test piece during the weather resistance test according to the surface color.

When irradiating light for weather resistance test, the test piece is heated by receiving heat accumulated according to the surface color of the upper surface of the supporting jig 14 because its back surface is in close contact with the upper surface of the supporting jig 14. This allows the surface temperature of the specimen to be adjusted under the same weathering test conditions.

By using such a supporting jig 14, the temperature control according to the surface color of the supporting jig 14 can also be carried out in the weather resistance test, even parts of transparent materials difficult to control the temperature. That is, it is possible to change the temperature of the transparent material test piece to a temperature for deterioration evaluation by adjusting the surface temperature of the test piece through the surface temperature of the supporting jig 14.

For example, when the temperature of the test piece is higher than the test condition, a white support jig having a low heat absorption is used. When the temperature of the test piece is lower than the test condition, a black support jig having high heat absorption is used. By using it, the surface temperature of the specimen can be controlled.

By changing the supporting jig 14 to an appropriate surface color, the surface temperature of the test piece can be brought close to or coincident with the temperature condition for the weather resistance test (the same temperature as the black panel of the weather resistance tester). It becomes possible.

In one embodiment of the present invention, the supporting jig 14 uses an aluminum material, and the pressing jig 10 uses a material made of stainless steel with less rust.

By using the weathering test bending jig according to the present invention configured as described above, it is possible to induce a uniform and accurate bending deformation as a whole to the test piece to increase the reliability of evaluation, and also to promote the light deterioration (light irradiation to promote degradation) In the weathering test by the accelerated test, it is possible to accelerate the hard coating film cracking of the hard-coated parts.

Moreover, by using the bending jig for weathering test of this invention, the surface temperature of a test piece can be raised to the temperature close to the black panel temperature of a weather resistance tester, and the failure reproducibility of an evaluation component and acceleration of deterioration acceleration can be improved significantly.

For reference, the test piece is put into the weather resistance tester while being mounted on the bending jig of the present invention as shown in FIG. 4, and the surface temperature of the test piece is adjusted to the temperature level of the black panel of the weathering tester using the supporting jig 14 of appropriate color. The deterioration test is performed by raising it.

The flexural test defined in ISO 22088-3 (Plastics-determination of resistance to environmental stress cracking-bend strip method) for the test piece of the component having a coating film by hard coating by using the bending jig for weathering test of the present invention as described above ( That is, deterioration test by bending) can be performed during the photodegradation test.

That is, the weathering test bending jig according to the present invention, as described above, it is possible to impart a uniform uniform strain to the test piece as a whole according to the surface bending rate (or bending thickness) of the supporting jig, the color of the supporting jig Through the change, it is possible to adjust the surface temperature of the specimen during the weather resistance evaluation test, so that the occurrence time of deterioration (discoloration) according to the bending rate of the component can be confirmed and evaluated through the photo deterioration test.

5,

h: Thickness of test specimen or flexural thickness of test specimen

r is the radius of curvature of the test piece that has been radiused or bent

ε _x : Nominal strain in tensile surface

In the bending test defined in ISO 22088-3, the radius of curvature and flexural strain can be obtained as follows.

Here, (bending) thickness h of a test piece is the shortest vertical distance between the highest point and the lowest point with respect to the linear length of 100 mm of the curved test piece.

As shown in Table 1 below, as a result of measuring the bending strain (ε _x ) while changing the bending thickness h of the test piece, the bending thickness of the support jig (up and down shortest between the highest point and the lowest point with respect to the straight length of the support jig 100 mm). According to the distance) it was confirmed that it is possible to give a uniform deformation to the test piece as a whole, it can be seen that the test results with excellent evaluation reliability and reproducibility can be obtained.

Therefore, it is possible to predict the crack occurrence time by promoting the crack generation of the test piece according to the bending thickness of the supporting jig without using chemicals.

In addition, the weather resistance was evaluated by performing a bending test under the conditions shown in Table 1, and the results are shown in FIG.

6 shows the time point (light irradiation amount) at which deterioration (discoloration) of the test piece is generated with respect to the bending strain generated in the test piece, and deterioration of the test piece according to the light irradiation amount during the weather resistance test by using the bending jig for weather resistance test according to the present invention. By checking the level, we were able to see when the failure occurred when applying the part to the product.

10: pressurizing jig
11: opening
12: fixed rib
14: supporting jig
15,16: Fastening means

Claims (3)

A support jig having a predetermined surface curvature, the support jig for supporting the test piece on the back side of the test piece;
A pressing jig coupled to the supporting jig prefabricated and configured to press the left and right sides of the test piece on an upper surface thereof;
Fastening means for coupling and fixing the supporting jig and the pressing jig;
It consists of, the weather resistance test bending jig characterized in that it is possible to be bent uniformly as a whole according to the surface curvature of the support jig.
The method according to claim 1,
The pressing jig is formed in a flat plate shape having an opening through which a central portion of the test piece is penetrated, and a fixed jig for testing weather resistance of the test piece, characterized in that a fixed rib is mounted on a lower surface to press and hold both left and right ends of the test piece placed on the support jig. .
The method according to claim 1,
The supporting jig is a weather resistance test bending jig, characterized in that the temperature of the test piece can be adjusted during the weather resistance test according to the surface color.

Images