BS ISO 9370-1997 塑料制品.风化试验辐射暴露度的仪器测定.一般指南和基本试验方法
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标准号:BS ISO 9370-1997
中文标准名称:塑料制品.风化试验辐射暴露度的仪器测定.一般指南和基本试验方法
英文标准名称:Plastics - Instrumental determination of radiant exposure in weathering tests - General guidance and basic test method
标准类型:G31
发布日期:1997/12/15 12:00:00
实施日期:1997/12/15 12:00:00
中国标准分类号:G31
国际标准分类号:83.080.01
适用范围:1 This International Standard specifies methods for the instrumental measurement of irradiance on a planar surface. This includes both natural and simulated natural exposure testing.
2 Instrumental techniques include the continuous measurement of total solar and spectral solar irradiance (with emphasis on the ultraviolet wavelength region), and the
accumulation (or integration) of instantaneous data to provide a total radiant exposure (dosage).
3 Exposure in apparatus using artificial light sources sometimes requires measurement of irradiance and radiant exposure at specified wavelengths in order to monitor and, if required, control the irradiance on a planar surface and/or to define quantitatively the exposure stages of an exposed specimen. Typically, measurements of radiation in the 290 nm to 400 nm band, or narrow-band measurements with centre wavelengths at, for example, 340 nm or 420 nm, are required. However, in contrast to natural exposure conditions, radiation of wavelengths shorter than 300 nm is present in most light sources used in laboratory accelerated tests, and is known to cause rapid degradation in many polymers. In addition, radiation of longer wavelengths can be very important in product degradation such as colour fade. Therefore, it may be very useful to monitor short-wavelength radiation of less than 300 nm and long-wavelength radiation at wavelengths greater than 400 nm.
4 This International Standard does not specify procedures using blue wool standards, chemical actinometry, monochromators or polymeric and other film dosimetry.
NOTE 1 This should not be construed to imply that such techniques are
undesirable. Efforts are under way in several countries to develop polymeric dosimeters for this purpose.
NOTE 2 Monochromators are usually used in spectroradiometric systems where
high-resolution precision scanning of a passband is required.
5 The total solar and solar ultraviolet radiation measuring instruments described in this International Standard can be used in the following exposure tests:
a) Natural exposure tests
Measurement of total solar and solar ultraviolet radiation using the instruments and procedures specified in this International Standard will improve the comparability of exposure tests conducted at different times in a single location. It may also improve the comparability of results obtained in different locations with similar climates.
However, comparison of results from exposures in different locations must also consider the effects of temperature, moisture and other climatic factors on the type and rate of product degradation as well as the level of solar radiation.
NOTE 3 While the instrument performance data described in tables 1 and 2 may be considered as a specification, especially for instruments that measure total solar radiation, instruments currently available for measurement of solar ultraviolet radiation may not meet all of the performance features listed.
b) Comparison between natural exposure and laboratory accelerated tests Measurements of ultraviolet and/or visible radiation using the instruments and procedures specified in this International Standard may aid in comparing results from artificial accelerated tests with those from natural exposure. When this is done, comparison should be made in several passbands. Comparing the radiation in a short-wavelength UV passband is necessary to gauge the relative severity of the exposure and to estimate the risk that the accelerated test might produce degradation reactions that would not occur in a natural exposure. The intensity and spectral distribution of the radiation used in accelerated tests is only one factor in determining the comparability of results obtained in natural exposures. One must also consider temperature, moisture and other climatic factors (notably pollution effects) when making these comparisons. Because of differences between a material's response to increased radiation levels and
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