JP3486683B1 - Weathering test method - Google Patents

Abstract

Abstract: PROBLEM TO BE SOLVED: To provide a weather resistance test method for examining weather light resistance by applying light and heat to a sample piece, and to be able to know an accurate sample surface temperature according to the color of a sample. ,
It is another object of the present invention to provide a weathering light test method for controlling a test temperature based on the sample surface temperature. SOLUTION: A weather resistance test is performed while controlling a test temperature by using a thermometer of a color closest to the color of a sample to be tested among panel thermometers of black, white, red, sky blue, and yellow. Weather resistance test method.

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] TECHNICAL FIELD The present invention relates to a method for applying light and heat to a specimen.
The present invention relates to a weathering light test method for examining weathering resistance by applying the method. Than
Specifically, more accurate test results are obtained according to the color of the sample.
Weathering test method to be used. [0002] 2. Description of the Related Art In a conventional weathering test method, JI
As shown in SB 7754: 2000,
Test temperature with rack panel thermometer and thermometer in test tank
The degree was controlled. In a xenon weather meter or the like,
With or as a substitute for a black panel thermometer
A black panel temperature sensor is often used. bra
The black panel thermometer is a bimetallic black panel thermometer.
The difference is that the degree sensor is a platinum resistor. Ma
In addition, the temperature control of the
Based on the temperature data obtained by visually observing the tunnel thermometer
This may be done manually, but in general the black panel temperature
Transmits temperature data from the temperature sensor to the control device using electrical signals
And automatically control the temperature based on the data
I do. In relation to temperature, the temperature of a sample surface during a test is known.
There is a request to do so. And the main factor of deterioration
Means that there is not only light energy but also heat (temperature)
Therefore, it is important to measure the temperature of the sample surface. Only
In addition, attaching a thermometer to each test piece requires
Undesirable because of the problem. The sample surface temperature is large depending on the color of the sample surface.
It is thought that it is greatly affected. However, the conventional weather light test
Test method, because it exhibits the highest temperature.
Test with a rack panel thermometer or black panel temperature sensor.
Since the material surface temperature was measured, the surface temperature of the sample
There was a problem that we could not know. [0005] In addition, the sample table
The problem that test results cannot be analyzed with constant surface temperature
There was a point. [0006] Assuming that the surface temperature of the sample is black
Operator tries to predict from the temperature displayed by the temperature sensor
The color of the sample, the irradiance during the test, the temperature, and
You have to consider the four factors of lamp usage time
Was difficult in practice. [0007] The present invention addresses such problems.
The present invention has been made in view of
The goal is to know the exact sample surface temperature that matches the color of the sample.
It is an object of the present invention to provide a weathering test method which can be performed. again
Weather resistance test to control test temperature by the sample surface temperature
It is to provide a method. The present inventors have achieved the above object.
As a result of intensive research to achieve
Thus, the present invention has been completed. [0008] [MEANS FOR SOLVING THE PROBLEMS] To achieve the above object
In addition, the weathering light test method of the present invention, black, white, red, sky
Color and yellow panel thermometers.
With a similar color thermometer to control the test temperature
It is characterized by performing a weather test. [0009] DETAILED DESCRIPTION OF THE INVENTION The present inventors have proposed a fade meter.
With the irradiance constant, display the black panel thermometer
Temperature and white, red, sky blue, yellow color panel thermometer
Was investigated for its correlation with the indicated temperature. Fig. 1
Display temperature of black panel thermometer
FIG. 5 is a characteristic diagram of the display temperature of the color panel thermometer with respect to the temperature.
You. In FIG. 1, “BPT” means a black panel
Represents a thermometer, and “white” indicates a color panel thermometer.
In addition, it represents a white panel thermometer. Others, such as "red"
It is the same even if it is. As shown in Figure 1, black panel
Thermometer display temperature and color panel thermometer display temperature
Do not agree, but a linear relationship holds between the two
I understand. Such results are white, red, sky blue, yellow
When testing color samples, the sample surface temperature
Unlike the display temperature of the thermometer, the conventional weather light test method
Indicates that the specimen surface temperature cannot be
You. [0010] Next, the present inventors set the black tank in the water tank.
Panel thermometer and white, red, sky blue and yellow color panels
Submerge the thermometer and adjust the tank temperature to
The temperature was displayed or experimented. FIG. 2 shows the relationship between the aquarium temperature and
Black panel thermometer and white, red, sky blue, yellow
It is a characteristic diagram with the display temperature of a color panel thermometer. FIG.
From, the display temperature of the black panel thermometer and white, red,
The display temperatures of the sky blue and yellow color panel thermometers are
It can be seen that they match. Therefore, the connection shown in FIG.
When combined with the result, the display temperature of the black panel thermometer and the white
Display temperature of each color panel thermometer of color, red, sky blue, yellow
The difference with the degree is considered to be due to radiant heat. [0011] In response to these results, the present inventors furthermore:
With a xenon weather meter, due to the difference in irradiance,
Display temperature of black panel thermometer and white panel thermometer
It was checked whether the display temperature was different. Xenon weather meter
, The irradiance is 60W / m²Or 180W /
m²It is often tested. FIG. 3 shows the irradiance 18
0W / m²Progress in the Xenon weather meter
The display temperature of the black panel thermometer and the white
It is a figure which shows the relationship of the display temperature of a tunnel thermometer. FIG.
Irradiance 60W / m²Xenon weather meter
Display temperature of black panel thermometer against elapsed time
FIG. 6 is a diagram showing the relationship between the temperature and the display temperature of a white panel thermometer.
You. In both figures, “BPT” is the black panel thermometer table
Indicated temperature, “WPT” indicates the indicated temperature of the white panel thermometer.
You. From both figures, the higher the irradiance, the higher the black panel temperature.
The difference between the display temperature of the thermometer and the display temperature of the white panel thermometer is large.
I understand that it is good. In addition, the temperature in the tank is
When the display temperature of the thermometer is constant, the higher the irradiance,
Lower. Therefore, white, red, sky blue, yellow samples
Table temperature and black panel thermometer table when
It is predicted that there will be a difference from the indicated temperature due to the difference in irradiance
Is done. [0012] The present inventors embed the program,
Black panel thermometer by inputting the color of the sample
Weather light that displays or outputs the sample surface temperature from the displayed temperature
Test equipment and method were developed. However, an apparatus not having such a program
But it's relatively simple, but more accurate than traditional methods.
You may want to know the surface temperature. Therefore, the present inventors
Is similar to the color of the specimen instead of a black panel thermometer.
By selecting a color panel thermometer with
We have invented a weathering test method that can provide accurate test results. The embodiment shown below is a xenon weather
Example in a meter, but other weathering test equipment
Can also be used in common. [0015] BRIEF DESCRIPTION OF THE DRAWINGS FIG.
And will be described in detail. As shown in FIG. 1 to FIG.
Temperature data of the black panel temperature sensor
Also, the display temperature of the black panel thermometer is not necessarily the sample
It can be seen that it does not represent the surface temperature of the piece. But
Therefore, for a more detailed analysis of the test results,
Requires temperature data. In Example 1 of the weathering test method of the present invention,
Black, white, red, sky blue, and yellow panel thermometers
Medium, use a thermometer with the color closest to the color of the specimen to be tested.
And perform a weathering test while controlling the test temperature. According to Example 1 of the weathering test method of the present invention.
The test results are shown in FIGS. FIGS. 5 to 7 show 60 W / m², 120W /
m², 180W / m²Irradiance of xenon weather
The black panel temperature sensor and
Black, white, red, sky blue, yellow color panel thermometer
FIG. 4 is a diagram showing a relationship between display temperatures of the first embodiment. "Black" in the figure
Represents a black panel thermometer. FIG. 5 shows an irradiance of 60 W / m.²Xenon
Black panel temperature sensor in weather meter
The display temperature of each color panel thermometer against the display temperature of
FIG. FIG. 6 shows an irradiance of 120 W / m.²No
Black panel temperature sensor for non-weather meters
Display temperature of each color panel thermometer against display temperature
It is a figure showing a degree. FIG. 7 shows an irradiance of 180 W / m.²of
Black panel temperature in xenon weather meter
Table of each color panel thermometer against the displayed temperature of the sensor
It is a figure which shows an indication temperature. What are the approximate curves obtained in FIGS. 5, 6, and 7?
They have extremely high linearity, and most of them are R ²= 0.999 or more
Met. If the color of the sample is other than black,
The displayed temperature of the temperature sensor and the sample surface temperature are different.
Using a color panel thermometer with the color closest to the color of the color
However, it was found that the sample surface temperature could be more accurately determined.
Call Also, the black panel temperature sensor alone
Testing with constant color sample surface temperature
Results cannot be analyzed but are closest to the color of each sample
To manage temperature using color panel thermometer of color
The test results can be analyzed with the sample surface temperature kept constant
You can see that. It should be noted that depending on the lamp usage time,
As the light in the infrared region relatively increases due to the deterioration of
It is considered that the correction based on the lamp usage time should be considered.
Fig. 8 shows a xenon weather meter with a usage time of 100 hours.
Black panel temperature sensor for irradiance
FIG. 7 is a diagram showing the display temperature of the
You. Figure 9 shows Xenon Weather for 2136 hours of use
Black panel temperature versus irradiance in meter
Indicates the display temperature of the temperature sensor and each color panel thermometer
FIG. FIG. 10 shows a graph of 180 W / m²Xenonwe
Of the lamp usage time
Display of color panel temperature sensor and color panel thermometer
It is a figure which shows a temperature. According to FIG.
Temperature differences are extremely small compared to differences due to color and irradiance.
Small, but the display temperature of the black panel temperature sensor
Know the sample surface temperature accurately regardless of lamp usage time
It turns out that you can't do that. According to Embodiment 1 of the present invention
For example, regardless of the lamp usage time, the sample surface that matches the color of the sample
You can know the temperature. The results obtained from the above experimental results were
Other weather weather test equipment.
It is thought to stand. Used in Example 1 of the weathering test method of the present invention.
The XYZ values of the color panel thermometers are as shown in Table 1.
It is. The colors of materials (samples) are numerous and countless. So
It is virtually impossible to make panels of each color,
Therefore, the most common colors are black as well as white
Color, red, sky blue, and yellow were selected as representative colors. [0026] [Table 1] For example, green is often used as a color.
The green data in advance.
Can be According to the first embodiment of the present invention, the test is more accurately performed.
You can know the surface temperature. In addition, constant sample surface temperature
It is possible to examine the test results of different colors
You. [0029] The weathering test method of the present invention is as described above.
Since it is a cage, an accurate sample surface temperature that matches the color of the sample
You can know.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a characteristic diagram of a display temperature of a color panel thermometer with respect to a display temperature of a black panel thermometer in a fade meter. FIG. 2 is a characteristic diagram of a black panel thermometer and display temperatures of white, red, sky blue, and yellow color panel thermometers with respect to a water tank temperature. FIG. 3 is a diagram showing the relationship between the display temperature of a black panel thermometer and the display temperature of a white panel thermometer with respect to elapsed time in a xenon weather meter with an irradiance of 180 W / m ² . FIG. 4 is a diagram showing a relationship between a display temperature of a black panel thermometer and a display temperature of a white panel thermometer with respect to elapsed time in a xenon weather meter with an irradiance of 60 W / m ² . FIG. 5 is a diagram showing a display temperature of each color panel thermometer with respect to a display temperature of a black panel temperature sensor in a xenon weather meter with an irradiance of 60 W / m ² . FIG. 6 is a diagram showing a display temperature of each color panel thermometer with respect to a display temperature of a black panel temperature sensor in a xenon weather meter having an irradiance of 120 W / m ² . FIG. 7 is a diagram showing a display temperature of each color panel thermometer with respect to a display temperature of a black panel temperature sensor in a xenon weather meter with an irradiance of 180 W / m ² . FIG. 8 is a diagram showing a display temperature of a black panel temperature sensor and each color panel thermometer with respect to irradiance in a xenon weather meter with a usage time of 100 hours. FIG. 9 is a diagram showing a display temperature of a black panel temperature sensor and each color panel thermometer with respect to irradiance in a xenon weather meter with a usage time of 2136 hours. FIG. 10 is a diagram showing display temperatures of a black panel temperature sensor and each color panel thermometer with respect to a lamp use time in a 180 W / m ² xenon weather meter.

Continuation of front page (56) References JP-A-63-61935 (JP, A) JP-A-6-109532 (JP, A) JP-A-5-11176 (JP, U) JP-B-52-46504 (JP, A) , B2) Jikken Sho 52-29675 (JP, Y2) Jikken Sho 46-36624 (JP, Y1) Encyclopedia of Physical Experiments, Kodansha, August 20, 1979, 4th print, p. 188-189,3. (58) Field of investigation (Int.Cl. ⁷ , DB name) G01N 17/00-17/04 G01J 1/00-11/00 G01K 1/00-19/00 G01N 25/00-25/72 JICST file (JOIS)

Claims (1)

(57) [Claims] [Claim 1] The test temperature is controlled by a thermometer of a color closest to the color of a test piece among black, white, red, sky blue, and yellow panel thermometers. A weathering light test method characterized by performing a weathering light test while performing the test.