ISO 105-G03是關(guān)于耐大氣臭氧色牢度的測試標(biāo)準(zhǔn)。目前該標(biāo)準(zhǔn)已經(jīng)被ISO 105-G03-2015替代。
ISO 105-G03描述了關(guān)于在濕度不超過65%的室內(nèi)溫度條件下,或者高溫條件中濕度80%以上環(huán)境中各類紡織用品耐大氣臭氧色牢度的測試方法。現(xiàn)行最新標(biāo)準(zhǔn)版本為ISO 105-G03-2015。
1 Scope
This part of IS0 105 specifies a method for determining the resistance of the colour of textiles of all kinds and in all forms to the action of ozone in the atmosphere, both at ambient room temperatures with relative humidities not exceeding 65 % and at elevated temperatures with relative humidities above 80 %.
NOTE l If a sample shows sensitivity to this test, it should also be tested for sensitivity to the tests specified in lS0 105-G01 (colour fastness to nitrogen oxides) and JS0 105-G02 {colour fastness to burnt-gas fumes).
2 Normative references
The following standards contain provisions which, through reference in this text, constitute provisions of this part of IS0 105. At the time of publication, the editions indicated were valid. All standards are subject to revision, and parties to agreements based on this
part of IS0 105 are encouraged to investigate the possibility of applying the most recent editions of the standards indicated below. Members of IEC and ISO maintain registers of currently valid International Standards.
IS0 105-A01:1989, Textiles - Tests for colour fastness - Part AO1: General principles of testing.
IS0 105-A02:1993, Textiles - Tests for colour fastness - Part A02: Grey scale for assessing change in colour.
IS0 105-F:1985, Textiles - Tests for colour fastness - Part F: Standard adjacent fabrics.
3 Principle
3,1 A specimen and a swatch of test-control fabric are simultaneously exposed to ozone, in an atmosphere at ambient room temperature and a relative humidity not exceeding 65 %, until the test control shows a colour change corresponding to that of a standard of fading. This exposure period constitutes one cycle. The cycles are repeated until the specimen shows a definite colour change or for a prescribed number of cycles.
3,2 A specimen and a swatch of test-control fabric are simultaneously exposed to ozone in an atmosphere which is maintained at (85 ± 5) % relative humidity and a temperature of 40 ℃C + 5 ℃until the test control shows a colour change corresponding to that of a standard of fading. The cycle is repeated until the specimen shows a definite colour change or for a prescribed number of cycles.
NOTE 2 The fadding of dyes on certain fibres does not readilly take place at humidities below 80 %. The test at high humidity is therefore required to produce a colour change that predicts service fading under warm, humid conditions.
4 Apparatus and materials
4.1 0zone exposure chamber for ambient room temperatures and relative humidities not exceeding 65 % (see A.l).
4,2 0zone exposure chamber for elevated tem peratures and relative humidities above 80 % (see clause A.2).
4.3 Test-control fabric for relative humidities not exceeding 65 % (see annex B).
4.4 Standard of fading for relative humidities not exceeding 65 % (see annex B).
4.5 Test-control fabric for high humidities (see annex B).
4.6 Standard of fading for high humidity (see annex B).
4.7 Grey scale for assessing change in colour,complying with IS0 105-A02,
5 Test specimens
5.1 If the textile to be tested is fabric, use a specimen measurcng 60 mm x l00 mm.
5.2 If the textile to be tested is yarn, knit it into fabric and use a piece measuring 60 mm x 100 mm or wind it closely round a piece of cardboard measuring 60 mm x 100 mm to form a layer having only the thickness of the yarn,
5.3 lf the textile to be tested is loose fibre, comb and compress enough of it to form a sheet measuring 60 mm x 100 mm and sew the sheet on a piece of cotton adjacent fabric, complying with IS0 105-F, section F02, to support the fibre.
5.4 For subsequent colour comparison, the unexposed sample shall be kept in an airtight container away from light to avoid further shade change.
6 Procedure
6.1 At relative humidities not exceeding 65 %
6.1.1 Suspend each specimen and a swatch of the test-control fabric (4.3) in the exposure chamber (4.1) so that each piece hangs separately, The test shall be conducted with the chamber in a room in which the ambient air temperature is 18 °C to 28℃ and the relative humidlty does not exceed 65 %. Ozone shall be present in concentrations which produce one cycle if fading in 1.5 h t0 6 h of test.
6.1.2 Compare the colour of the control swatch with that of the standard of fading (4.4) periodically in day light ranging from average to slightly bluish North Sky light, or equivalent artificial light. When they match, the specimens have been exposed for one cycle and
each shall then be compared with a specimen of the untreated material.
6,1.3 Remove those specimens which exhibit a col our change at the end of one cycle, One cycle will generally produce a measurable colour change in samples which are ozone-sensitive.
6.1.4 Suspend a fresh swatch of the test-control fabric and continue exposure of any remaining specimens for a second cycle.
6.1.5 Run additional similar cycles as necessary.
6.1.6 At the end of each cycle, cmmediately compare those specimens which are removed from the exposure chamber with the preserved original samples from which they were drawn.
6.1.7 Assess the change in colour of the specimens,after any specified number of cycles, with the grey scale (4,7).
6.2 At high relative humidity
6.2.1 Suspend each specimen and a piece of the test-control fabric (4.5) in the exposure chamber (4.2) which is maintained at (85 ± 5) % relative humidityand a temperature of 40 °C ± 5 °C. Ozone shall be present in concentrations ranging from 10 pphm to 35 pphm, which should produce one cycle of fading in 6 h t0 24 h of test,
6.2.2 Compare the colour of the control swatch with that of the standard of fading (4.6) periodically in daylight ranging from average to slightly bluish North Sky light, or equivalent artificial light. When they match,the specimens have been exposed for one cycle and each shall then be compared with a specimen of the untreated material.
6.2.3 Remove those specimens which exhibit a colour change at the end of one cycle. One cycle will generally produce a measurable colour change in samples which are ozone-sensitive.
6,2.4 Suspend a fresh wwatch of the control sample and continue exposure of any remaining specimens for a second cycle.
6.2.5 Run additional similar cycles as necessary
6.2.6 At the end of each cycle, immediately com pare those specimens which are removed from the exposure chamber with the preserved original samples from which they were drawn.
6.2.7 Assess the change in colour of the specimens, after any specified number of cycles, with the grey scale (4.7).
7 Test report
The test report shall include the following particulars:
a) the number and date of publicatlon of this part of IS0 105, i.e. IS0 105-G03:1993;
b) all details necessary for the idantificatcon of the sample tested;
c} the numerical rating for the change in colour of each specimen;
d) the number ot cycles run and the temperature and relative humidity at which the test was performed.
翁開爾公司代理的德國ANSEROS安索羅斯臭氧箱滿足ISO 105 G03測試標(biāo)準(zhǔn)。
1.德國ANSEROS安索羅斯臭氧老化箱介紹
德國ANSEROS安索羅斯公司依據(jù)國際標(biāo)準(zhǔn)如ASTM、ISO和DIN發(fā)展并制造了臭氧測試系統(tǒng),為用戶測試橡膠產(chǎn)品的臭氧老化提供了可靠的測試條件。
德國ANSEROS安索羅斯公司SIM系列臭氧箱專門用于電纜和密封件的測試,其功能包括:自動PLC控制,精確模擬和控制溫度、濕度、臭氧濃度;不同的工具幫助您進(jìn)行多項靜態(tài)和動態(tài)測試。使用ANSEROS公司臭氧測試系統(tǒng),您能夠?qū)崿F(xiàn)任何橡膠制品的加速老化,從而預(yù)測產(chǎn)品壽命。
臭氧老化試驗箱一般均具有 3大主要部分,即臭氧發(fā)生器、老化試驗箱、臭氧濃度控制與檢測裝置等。
2.德國ANSEROS安索羅斯臭氧老化箱型號
(2)德國ANSEROS安索羅斯臭氧老化箱 SIM 7500型號
(3)德國ANSEROS安索羅斯臭氧老化箱 SIM 6050-T型號
(4)德國ANSEROS安索羅斯臭氧老化箱 SIM 6010-T型號
(5)德國ANSEROS安索羅斯臭氧老化箱 SIM 8000型號
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