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ASTM G90-98

(Practice)

Standard Practice for Performing Accelerated Outdoor Weathering of Nonmetallic Materials Using Concentrated Natural Sunlight

Standard Practice for Performing Accelerated Outdoor Weathering of Nonmetallic Materials Using Concentrated Natural Sunlight

SCOPE
1.1 Fresnel-reflecting concentrators employing the sun as source are utilized in the accelerated outdoor exposure testing of nonmetallic materials.
1.2 This practice covers a procedure for performing accelerated outdoor exposure testing of nonmetallic materials using a Fresnel-reflector accelerated outdoor weathering test machine. The apparatus (see Figs. 1a and 1b) and guidelines are described herein to minimize the variables encountered during outdoor accelerated exposure testing.
1.3 This practice does not specify the exposure conditions best suited for the materials to be tested but is limited to the method of obtaining, measuring, and controlling the procedures and certain conditions of the exposure. Sample preparation, test conditions, and evaluation of results are covered in existing methods or specifications for specific materials.
1.4 The Fresnel-reflector accelerated outdoor exposure test machines described may be suitable for the determination of the relative durability of materials exposed to sunlight, heat, and moisture, provided the mechanisms of chemical or physical change, or both, which control the rates of acceleration factors for the materials do not differ significantly.
1.5 This practice establishes uniform sample mounting and in-test maintenance procedures. Also included in the practice are standard provisions for maintenance of the machine and Fresnel-reflector mirrors to ensure cleanliness and durability.
1.6 This practice shall apply to specimens whose size meets the dimensions of the target board as described in 8.2.
1.7 For test machines currently in use, this practice may not apply to specimens exceeding 13 mm ( 1/2 in.) in thickness because cooling may be questionable.
1.8 Values stated in SI units are to be regarded as the standard. The inch-pound units in parentheses are provided for information only.
1.9 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

General Information

Status
Historical
Publication Date
09-Dec-1998
ICS
19.040 - Environmental testing
Technical Committee
G03 - Weathering and Durability
Drafting Committee
G03.02 - Natural and Environmental Exposure Tests
Current Stage
Ref Project

Relations

Replaced By
ASTM G90-05 - Standard Practice for Performing Accelerated Outdoor Weathering of Nonmetallic Materials Using Concentrated Natural Sunlight
Effective Date
01-Oct-2005
Referred By
ASTM G178-16(2023) - Standard Practice for Determining the Activation Spectrum of a Material (Wavelength Sensitivity to an Exposure Source) Using the Sharp Cut-On Filter or Spectrographic Technique
Effective Date
10-Dec-1998
Referred By
ASTM D5105-05(2019) - Standard Practice for Performing Accelerated Outdoor Weathering of Pressure-Sensitive Tapes Using Concentrated Natural Sunlight
Effective Date
10-Dec-1998
Referred By
ASTM G183-15(2023) - Standard Practice for Field Use of Pyranometers, Pyrheliometers and UV Radiometers
Effective Date
10-Dec-1998
Referred By
ASTM D6577-15(2019) - Standard Guide for Testing Industrial Protective Coatings
Effective Date
10-Dec-1998
Referred By
ASTM D4364-13(2022)e1 - Standard Practice for Performing Outdoor Accelerated Weathering Tests of Plastics Using Concentrated Sunlight
Effective Date
10-Dec-1998
Referred By
ASTM G156-17 - Standard Practice for Selecting and Characterizing Weathering Reference Materials
Effective Date
10-Dec-1998
Referred By
ASTM D4141/D4141M-22 - Standard Practice for Conducting Black Box and Solar Concentrating Exposures of Coatings
Effective Date
10-Dec-1998
Referred By
ASTM E816-15(2023) - Standard Test Method for Calibration of Pyrheliometers by Comparison to Reference Pyrheliometers
Effective Date
10-Dec-1998
Referred By
ASTM D5722-20 - Standard Practice for Performing Accelerated Outdoor Weathering of Factory-Coated Embossed Hardboard Using Concentrated Natural Sunlight and a Soak-Freeze-Thaw Procedure
Effective Date
10-Dec-1998
Referred By
ASTM G141-09(2021) - Standard Guide for Addressing Variability in Exposure Testing of Nonmetallic Materials
Effective Date
10-Dec-1998
Referred By
ASTM D6763-16(2022) - Standard Guide for Testing Exterior Wood Stains and Clear Water Repellents
Effective Date
10-Dec-1998
Referred By
ASTM F1164-19 - Standard Test Method for Evaluation of Transparent Plastics Exposed to Accelerated Weathering Combined with Biaxial Stress
Effective Date
10-Dec-1998
Referred By
ASTM G113-22 - Standard Terminology Relating to Natural and Artificial Weathering Tests of Nonmetallic Materials
Effective Date
10-Dec-1998
Referred By
ASTM G147-17 - Standard Practice for Conditioning and Handling of Nonmetallic Materials for Natural and Artificial Weathering Tests
Effective Date
10-Dec-1998

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ASTM G90-98 - Standard Practice for Performing Accelerated Outdoor Weathering of Nonmetallic Materials Using Concentrated Natural SunlightASTM G90-98 - Standard Practice for Performing Accelerated Outdoor Weathering of Nonmetallic Materials Using Concentrated Natural Sunlight
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ASTM G90-98 - Standard Practice for Performing Accelerated Outdoor Weathering of Nonmetallic Materials Using Concentrated Natural Sunlight
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NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
Designation: G 90 – 98
Standard Practice for
Performing Accelerated Outdoor Weathering of Nonmetallic
Materials Using Concentrated Natural Sunlight
ThisstandardisissuedunderthefixeddesignationG 90;thenumberimmediatelyfollowingthedesignationindicatestheyearoforiginal
adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.Asuperscript
epsilon (e) indicates an editorial change since the last revision or reapproval.
1. Scope priate safety and health practices and determine the applica-
bility of regulatory limitations prior to use.
1.1 Fresnel-reflecting concentrators using the sun as source
are utilized in the accelerated outdoor exposure testing of
2. Referenced Documents
nonmetallic materials.
2.1 ASTM Standards:
1.2 This practice covers a procedure for performing accel-
D 859 Test Method for Silica in Water
erated outdoor exposure testing of nonmetallic materials using
D 1014 Practice for Conducting Exterior Exposure Tests of
a Fresnel-reflector accelerated outdoor weathering test ma-
Paints on Steel
chine. The apparatus (see Fig. 1 and Fig. 2) and guidelines are
D 1435 Practice for Outdoor Weathering of Plastics
described herein to minimize the variables encountered during
D 1898 Practice for Sampling of Plastics
outdoor accelerated exposure testing.
D 4141 Practice for ConductingAccelerated Outdoor Expo-
1.3 This practice does not specify the exposure conditions
sure Tests of Coatings
best suited for the materials to be tested but is limited to the
D 4517 Test Method for Low-Level Total Silica in High-
method of obtaining, measuring, and controlling the proce-
Purity Water by Flameless Atomic Absorption Spectros-
dures and certain conditions of the exposure. Sample prepara-
copy
tion, test conditions, and evaluation of results are covered in
E 772 Terminology Relating to Solar Energy Conversion
existing methods or specifications for specific materials.
E 824 Test Method for Transfer of Calibration from Refer-
1.4 The Fresnel-reflector accelerated outdoor exposure test
ence to Field Radiometers
machines described may be suitable for the determination of
E 891 Tables for Terrestrial Direct Normal Solar Spectral
the relative durability of materials exposed to sunlight, heat,
Irradiance for Air Mass 1.5
and moisture, provided the mechanisms of chemical or physi-
E 903 Test Method for SolarAbsorptance, Reflectance, and
cal change, or both, which control the rates of acceleration
Transmittance of Materials Using Integrated Spheres
factors for the materials do not differ significantly.
G 7 Practice for Atmospheric Environmental Exposure
1.5 This practice establishes uniform sample mounting and
Testing of Nonmetallic Materials
in-test maintenance procedures. Also included in the practice
G 24 Practice for Conducting Exposures to Daylight Fil-
are standard provisions for maintenance of the machine and
tered through Glass
Fresnel-reflector mirrors to ensure cleanliness and durability.
G 113 Terminology Relating to Natural and Artificial
1.6 This practice shall apply to specimens whose size meets
Weathering Tests of Nonmetallic Materials
the dimensions of the target board as described in 8.2.
2.2 Other Standards:
1.7 For test machines currently in use, this practice may not
SAE J576 Plastic Materials for Use in Optical Parts Such as
apply to specimens exceeding 13 mm ( ⁄ in.) in thickness
Lenses and Reflectors of Motor Vehicle Lighting Devices
because cooling may be questionable.
SAE J1961 Accelerated Exposure of Automotive Exterior
1.8 Values stated in SI units are to be regarded as the
Materials Using a Solar Fresnel-Reflector Apparatus
standard. The inch-pound units in parentheses are provided for
information only.
3. Terminology
1.9 This standard does not purport to address all of the
3.1 Definitions—Definitions of terms common to G 3 dura-
safety concerns, if any, associated with its use. It is the
bility standards can be found in Terminology G 113.
responsibility of the user of this standard to establish appro-
Annual Book of ASTM Standards, Vol 11.01.
1 3
This practice is under the jurisdiction ofASTM Committee G-3 on Weathering Annual Book of ASTM Standards, Vol 06.01.
and Durability and is the direct responsibility of Subcommittee G03.02 on Natural Annual Book of ASTM Standards, Vol 08.01.
and Environmental Exposure Tests. Annual Book of ASTM Standards, Vol 11.02.
Current edition approved Dec. 10, 1998. Published March 1999. Originally Annual Book of ASTM Standards, Vol 12.02.
published as G 90 – 85. Last previous edition G 90 – 94. Annual Book of ASTM Standards, Vol 14.02.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
G90
FIG. 1 Schematic of Fresnel-Reflecting Concentrator Accelerated Weatering Machine Single Axis Tracking
4. Significance and Use a single material between separate, although supposedly iden-
tical, exposures carried out for the same duration or number of
4.1 Results obtained from this practice can be used to
exposure cycles. In addition, results from exterior exposures
compare the relative durability of materials subjected to the
can vary due to seasonal or annual differences in important
specific test cycle used. No accelerated exposure test can be
climatic factors. Because of the variability between materials
specified as a total simulation of natural or field exposures.
and in results obtained using this practice and the variability in
Results obtained from this practice can be considered as
results from exterior exposures, use of a single acceleration
representative of natural or field exposures only when the
factor relating x hours of this accelerated exposure to y months
degree of comparative performance has been established for
or years of exterior exposure is not recommended. If accelera-
the specific materials being tested.
tion factors are determined, they must be based on results from
4.2 The relative durability of materials in natural or field
a sufficient number of separate accelerated exposures so that
exposure can be very different depending on the location of the
data relating times to failure in each exposure can be analyzed
exposure because of differences in UV radiation, time of
using statistical methods. In addition, use of acceleration
wetness, temperature, pollutants, and other factors. Therefore,
factors assumes that the degradation mechanism is the same in
even if results from a specific accelerated test condition are
both conventional and accelerated exposures.
found to be useful for comparing the relative durability of
materials exposed in a particular exterior location, it cannot be 4.4 This practice is best used to compare the relative
assumed that they will be useful for determining relative performance of materials tested at the same time in the same
durability for a different location. fresnel reflector device. Because of possible variability be-
4.3 Variations in results may be expected when operating tween the same type of exposure devices, comparing the
conditions vary within the limits of this practice. For example, amount of degradation in materials exposed for the same
there can be large differences in the amount of degradation in duration or radiant energy at separate times, or in separate
G90
FIG. 2 Dual Axis Tracking
TABLE 1 Fresnel-Reflector Test Machine Typical Spray Cycles
devices running the same test condition, is not recommended.
This practice should not be used to establish a “pass/fail”
Daytime Nighttime
Cycle
Spray Dry-Time Spray Dry-Time
approval of materials after a specific period of exposure unless
Cycles/h Cycles/h
Duration Duration Duration Duration
performance comparisons are made relative to a reference
1 8 min 52 min 1 8 min 52 min 3 during
material exposed simultaneously, or the variability in the test is
the night
2 no water spray no water spray
defined so that statistically significant pass/fail judgements can
A
3 no water spray 3 min 12 min 4
be made.
4.5 It is strongly recommended that at least one control test
A
This is the cycle specified in Procedure C of Practice D 4141.
specimen be exposed with each test. The control test specimen
should meet the requirements of Terminology G 113, and be
chosen so that its degradation mechanism is the same as that of
difference between the machines is the addition of a water
the test specimen. It is preferable to use two control test
deliverysystemtothedeviceusedinCycles1and3.Useofthe
specimens, one with relatively good durability and one with
specific cycle should relate to end use of the material and
relatively poor durability.
should be agreed upon by all interested parties.
4.6 The use of at least two replicates of each control test
5.1.1 The Fresnel-reflector test machine is a follow-the-sun
specimen and each material being evaluated is recommended
apparatus having flat mirrors so positioned that the sun’s rays
to allow statistical evaluation of results.
strike them at near-normal incident angles while in operation.
5. Apparatus
The mirrors are arranged to simulate tangents to a parabolic
troughinordertoreflectsunlightuniformlyontothespecimens
5.1 Test Machines—Fresnel-reflector test machines used in
Cycles 1, 2, and 3 of Table 1 are nearly identical. The only in the target area (see Fig. 1, Fig. 2, and Fig. 3).
G90
FIG. 3 Schematic of Optical System for a Fresnel Reflecting Concentrator Accelerated Weathering Machine
5.1.2 The test machine is equipped with a blower to cool the elevation. The axis of the target area remains parallel to the
test specimens. The air is directed over the specimens by an ground. The machine rotates about horizontal and vertical axes
adjustable deflector along one side of the target area. For to keep the target area in focus.
unbacked mounting, air is also directed under the specimens. 5.5 Nozzles—The test machine used in Cycles 1 and 3 of
This limits the increase in surface temperatures of most Table 1 is provided with a nozzle assembly for spraying water
specimens to 10°C above the maximum surface temperature onto the specimens during exposure. Fan spray nozzles which
that would be reached when identically mounted specimens are provides a uniform fine mist over the specimen area are
exposed to direct sunlight at normal incidence at the same time recommended.
and location without concentration.
6. Reagents and Materials
5.2 Mirrors—The Fresnel-reflector system mirrors of ma-
chines currently in use have a typical specular, spectral 6.1 Water Quality:
reflectancecurvesuchasthatpresentedinFig.4.Othermirrors 6.1.1 The purity of water used for specimen spray is very
may be used providing they meet the requirements of 6.2. important.Without proper treatment to remove cations, anions,
5.3 Photoreceptor Cells—Two photoreceptor cells, such as organics, and particularly silica, exposed panels will develop
silicon solar cells, are installed near the top of the air tunnel on spots or stains that do not occur in exterior exposures.
the side facing the sun.A“T” shadow maker is mounted above 6.1.2 Water used for specimen spray shall leave no objec-
the cells to illuminate equally one-half of each cell when the tional deposits or stains on the exposed specimens. It is
test machine is in proper focus. As one cell receives more strongly recommended that the water contain a maximum of
radiation than the other, the balance is disturbed and a signal is 1-ppm solids and a maximum of 0.2-ppm silica. Silica levels
furnished through an amplifier to a reversible motor which should be determined using the procedures defined in Test
adjusts the machine to maintain focus. Methods D 859 or D 4517. Prepackaged analysis kits are
5.4 Tracking System—The test machine shall be equipped commercially available that are capable of detecting silica
with a system to keep the target area in focus throughout the levels of less than 200 parts per billion (ppb).Acombination of
day. Several options are possible. deionization and reverse osmosis treatment can effectively
5.4.1 Single-axis tracking with manual altitude adjustment produce water with the desired purity. If the spray water used
(Fig. 1a). The test machine’s axis is oriented in the north/south is above 1-ppm solids, the solids and silica levels must be
direction, with the north pole being altitude-adjustable to reported.
account for seasonable variations in solar altitude at zenith. 6.1.3 If specimens are found to have deposits or stains after
5.4.2 Dual axis tracking (Fig. 2). The test machine is exposure in the apparatus, the water purity must be checked to
equipped with two sets of photoreceptor cells, one to control determine if it meets the requirements above. On some
the azimuth rotation of the machine, the other to control the tilt occasions,exposedspecimenscanbecontaminatedbydeposits
G90
FIG. 4 Specular Reflectance of Mirror Material
from bacteria that can grow in the purified water used for 8. Test Specimens
specimen spray. If bacterial contamination is detected, the
8.1 Users of the accelerated outdoor exposure test method
entire system used for specimen water spray must be flushed
described should follow the statistical procedures for sampling
with chlorine and thoroughly rinsed before resuming expo-
presented in Practice D 1898.
sures.Although it does not always correlate with silica content,
8.2 The maximum length and width of specimens cannot be
it is recommended that resistivity of water used for specimen
larger than the length or width of the target area, or both.
spray be continuously monitored and that exposures be discon-
8.3 The air-cooling process and mechanism may limit
tinued whenever the resistivity falls below 1 MV.
specimen thickness to 13 mm ( ⁄in.) or less.
6.2 The mirrors used on Fresnel-reflector test machines
8.4 Fig. 5 shows typical mounting for specimens smaller
shall be flat and shall have specular ultraviolet reflectance of
than the maximum allowable size. The leading edge of
65 % or greater at 310-nm wavelength as measured by Test
specimens to be mounted closest to the airflow shall be aligned
MethodE 903orothermethodfoundtogiveequivalentresults.
with the leading edge of the target boards so as not to disrupt
Fig. 4 presents typical and minimum acceptable specular
the airflow. Specimens shall not be mounted in a manner that
reflectance curves.
disrupts the uniform airflow used for cooling.
7. Safety Precautions
9. Specimen Mounting
7.1 Suitable eye protection shall be required when working
9.1 Specimens are to be mounted facing the mirror array on
with Fresnel-reflector test machine
...

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5.1 As with any accelerated test, the increase in rate of weathering compared to in-service exposure is material dependent. Results from exposures conducted to this practice may provide good rank correlation to results from actual use conditions for one type of material or product. It should not be assumed that this will be true for other materials or products. It is always best to verify the ability of an accelerated exposure test to properly rank the durability of materials with actual use conditions. Guide G141 provides information about using rank correlation.  
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5.4 It is recommended that at least one control material be exposed with each test. The control material should be of similar composition and construction and be chosen so that its failure modes are the same as that of the material being tested. It is preferable to use two control materials, one with relatively good durability, and one with relatively poor durability. If control materials are included as part of the test, they shall be used for the purpose of comparing the performance of the test materials relative to the controls.
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1.1 This practice covers the basic principles and operating procedures for using outdoor glass-covered exposure apparatus with air circulation. This practice is limited to the procedures for obtaining, measuring and controlling conditions of exposure. A number of exposure procedures are listed in Appendix X1; however, this practice does not specify the exposure conditions best suited for the material to be tested.  
1.2 For direct weathering exposures, refer to Practice G7. For exposures behind glass without air circulation, refer to Practice G24.  
1.3 Test specimens are exposed to solar radiation filtered through glass under partially controlled environmental test conditions. Different glass types and operating parameters are described.  
1.4 Specimen preparation and evaluation of the results are covered in ASTM methods or specifications for specific materials. More specific information for determining the change in properties after exposure and reporting these results is described in Practices D5870, D2244 and Test Method D523.  
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Standard Practice for Performing Accelerated Outdoor Weathering of Materials Using Concentrated Natural Sunlight

SIGNIFICANCE AND USE
4.1 Results obtained from this practice can be used to compare the relative durability of materials subjected to the specific test cycle used. No accelerated test can be specified as a perfect simulation of natural or field exposures. Results obtained from this practice can be considered as representative of natural weathering only when a sufficient magnitude of mathematical correlation exists between exposures.  
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1.1 Linear Fresnel reflector concentrators using the sun as source are utilized in the accelerated outdoor exposure testing of materials.  
1.2 This practice covers a procedure for performing accelerated outdoor exposure testing of materials using a linear Fresnel reflector, accelerated outdoor weathering, test machine. The apparatus (see Fig. 1 and Fig. 2) and guidelines are described herein to minimize the variables encountered during outdoor accelerated exposure testing.    
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1.6 This practice shall apply to specimens whose size meets the dimensions of the target board as described in 8.2.  
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5.1 The use of this apparatus is intended to induce property changes consistent with the end use conditions, including the effects of the UV portion of sunlight, moisture, and heat. Typically, these exposures would include moisture in the form of condensing humidity. Exposures are not intended to simulate the deterioration caused by localized weather phenomena, such as atmospheric pollution, biological attack, and saltwater exposure. Alternatively, the exposure may simulate the effects of sunlight through window glass. (Warning—Refer to Practice G151 for full cautionary guidance applicable to all laboratory weathering devices.)  
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Standard Practice for Operating Xenon Arc Lamp Apparatus for Exposure of Materials

SIGNIFICANCE AND USE
5.1 The apparatus exposes specimens to light, heat, and optionally moisture, often to attempt to replicate specimen property changes observed in outdoor and indoor end-use environments. Exposures are not intended to simulate the deterioration caused by localized weather phenomena, such as atmospheric pollution, biological attack, and saltwater exposure.  
5.2 This practice allows a wide range of exposure conditions that may produce significantly different results. Therefore, no reference shall be made to results from its use unless accompanied by a report in conformance with Section 10 detailing the specific operating conditions.  
5.2.1 A control (a similar material of known performance) should be exposed simultaneously with the test specimen to provide a reference for comparative purposes. It is best practice to use two different control materials: one known to have relatively poor durability and one known to have relatively good durability. At least three replicates of each test specimen and control material should be exposed concurrently to permit statistical evaluation of results.  
5.3 Comparison of results obtained from specimens exposed in different apparatus (even if the apparatus is the same model) using the identical setpoints and operational controls should not be made unless reproducibility has been established between apparatus for the material to be tested.  
5.4 Refer to Practice G151 for cautionary guidance applicable to all laboratory weathering apparatus.  
5.5 It is recommended that users follow good laboratory practices in order to reduce variability in exposures (1).8
SCOPE
1.1 This practice is limited to the basic principles and procedures for operating a xenon arc lamp and water apparatus; on its own, it does not deliver a specific result.  
1.2 It is intended to be used in conjunction with a practice or method that defines specific exposure conditions for an application along with a means to evaluate changes in material properties. This practice is intended to reproduce the weathering effects that occur when materials are exposed to sunlight (either direct or through window glass) and moisture as humidity, rain, or dew in actual use. This practice is limited to the procedures for obtaining, measuring, and controlling conditions of exposure.
Note 1: A number of exposure procedures are listed in an appendix; however, this practice does not specify the exposure conditions best suited for the material to be tested.
Note 2: Practice G151 describes general procedures and performance requirements to be used when exposing materials in an apparatus that uses laboratory light sources.  
1.3 Test specimens are exposed to light from an optically-filtered xenon arc lamp under controlled environmental conditions. Different types of optical filters in combination with xenon arc light sources are described.  
1.4 Specimen preparation and evaluation of the results are covered in ASTM methods or specifications for specific materials. General guidance is given in Practice G151.
Note 3: General information about methods for determining the change in properties after exposure and reporting these results is described in Practice D5870.  
1.5 This practice is not intended for corrosion testing of bare metals.  
1.6 Units—The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.7 This practice is technically similar to the following ISO documents: ISO 4892-2, ISO 16474-2, ISO 105-B02, ISO 105-B04, ISO 105-B05, ISO 105-B06, and ISO 105-B10.  
1.8 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.8.1 Should any ozone be generated from the operation of the la...

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ASTM
ASTM G7/G7M-21(Practice)
Standard Practice for Natural Weathering of Materials

SIGNIFICANCE AND USE
4.1 The relative durability of materials in natural exposures can be very different depending on the location of the exposure because of differences in ultraviolet (UV) radiation, relative humidity, time of wetness, temperature, wet-dry cycling, freeze-thaw cycling, pollutants, and other factors. Therefore, it cannot be assumed that results from one exposure in a single location will be useful for determining relative durability in a different location. Exposures in several locations with different climates which represent a broad range of anticipated service conditions are recommended.  
4.2 Because of year-to-year climatological variations, results from a single exposure test cannot be used to predict the absolute rate at which a material degrades. Several exposures, repeated over several years are needed to get a representative test result for a given location.  
4.3 Solar UV radiation varies considerably as a function of time of year. This can cause large differences in the apparent rate of degradation in many materials. Comparing results for materials exposed for short periods (less than one year) is not recommended unless materials are exposed at the same time in the same location.  
4.4 The duration of natural weathering tests is often based on time (24 months for example). The variability between different exposures can be reduced by using a duration based on total solar or solar UV radiant exposure. Solar UV measurements are typically made using instruments which record broadband UV (for example, 295 to 385 nm), as described in 7.2.4. An inherent limitation in timing a weathering test based solely on solar-radiation measurements is that temperature and moisture may also influence the rate or type of degradation.  
4.5 The design of the exposure rack, the location of the specimen on the exposure rack, and the type, color, and emissivity of adjacent specimens can affect specimen temperature and time of wetness. In order to minimize variability caused by t...
SCOPE
1.1 This practice covers procedures to be followed for direct exposure of materials to the environment. Typically, this testing is performed on exposure racks tilted at a commonly-used tilt angle from the horizontal (such as 5 or 45 degrees) and facing the equator. Other exposure orientations can be used.  
1.2 This practice is not intended for the corrosion testing of bare metals, or for testing behind glass.  
1.2.1 For corrosion testing, refer to Practice G50  
1.2.2 For exposures behind glass, refer to Practice G24  
1.3 Units—The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system are not necessarily exact equivalents; therefore, to ensure conformance with the standard, each system shall be used independently of the other, and values from the two systems shall not be combined.  
1.4 This practice is technically equivalent to the parts of ISO 877-1 and -2 that describe direct exposures of specimens to the environment.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM G152-13(2021)(Practice)
Standard Practice for Operating Open Flame Carbon Arc Light Apparatus for Exposure of Nonmetallic Materials

SIGNIFICANCE AND USE
5.1 The use of this apparatus is intended to induce property changes associated with the end use conditions, including the effects of sunlight, moisture, and heat. These exposures may include a means to introduce moisture to the test specimen. Exposures are not intended to simulate the deterioration caused by localized weather phenomena, such as atmospheric pollution, biological attack, and saltwater exposure. Alternatively, the exposure may simulate the effects of sunlight through window glass. Typically, these exposures would include moisture in the form of humidity.
Note 2: Caution: Refer to Practice G151 for full cautionary guidance applicable to all laboratory weathering devices.  
5.2 Variation in results may be expected when operating conditions are varied within the accepted limits of this practice. No reference, therefore, shall be made to results from the use of this practice unless accompanied by a report detailing the specific operating conditions in conformance with Section 10.  
5.2.1 It is recommended that a similar material of known performance, a control, be exposed simultaneously with the test specimen to provide a standard for comparative purposes. It is best practice to use control materials known to have relatively poor and good durability. It is recommended that at least three replicates of each material evaluated be exposed in each test to allow for statistical evaluation of results.
SCOPE
1.1 This practice covers the basic principles and operating procedures for using open flame carbon-arc light and water apparatus intended to reproduce the weathering effects that occur when materials are exposed to sunlight (either direct or through window glass) and moisture as rain or dew in actual use. This practice is limited to the procedures for obtaining, measuring, and controlling conditions of exposure. A number of exposure procedures are listed in an appendix; however, this practice does not specify the exposure conditions best suited for the material to be tested.
Note 1: Practice G151 describes performance criteria for all exposure devices that use laboratory light sources. This practice replaces Practice G23, which describes very specific designs for devices used for carbon-arc exposures. The apparatus described in Practice G23 is covered by this practice.  
1.2 Test specimens are exposed to filtered open flame carbon arc light under controlled environmental conditions. Different filters are described.  
1.3 Specimen preparation and evaluation of the results are covered in methods or specifications for specific materials. General guidance is given in Practice G151 and ISO 4892-1. More specific information about methods for determining the change in properties after exposure and reporting these results is described in Practice D5870.  
1.4 The values stated in SI units are to be regarded as the standard.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.5.1 Should any ozone be generated from the operation of the light source, it shall be carried away from the test specimens and operating personnel by an exhaust system.  
1.6 This practice is technically similar to ISO 4892-4.  
1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM G153-13(2021)(Practice)
Standard Practice for Operating Enclosed Carbon Arc Light Apparatus for Exposure of Nonmetallic Materials

SIGNIFICANCE AND USE
5.1 The use of this apparatus is intended to induce property changes associated with the end use conditions, including the effects of sunlight, moisture, and heat. These exposures may include a means to introduce moisture to the test specimen. Exposures are not intended to simulate the deterioration caused by localized weather phenomena, such as atmospheric pollution, biological attack, and saltwater exposure. Alternatively, the exposure may simulate the effects of sunlight through window glass. Typically, these exposures would include moisture in the form of humidity.
Note 2: Caution: Refer to Practice G151 for full cautionary guidance applicable to all laboratory weathering devices.  
5.2 Variation in results may be expected when operating conditions are varied within the accepted limits of this practice. Therefore, no reference shall be made to results from the use of this practice unless accompanied by a report detailing the specific operating conditions in conformance with Section 10.  
5.2.1 It is recommended that a similar material of known performance, a control, be exposed simultaneously with the test specimen to provide a standard for comparative purposes. It is best practice to use control materials known to have relatively poor and good durability. It is recommended that at least three replicates of each material evaluated be exposed in each test to allow for statistical evaluation of results.
SCOPE
1.1 This practice covers the basic principles and operating procedures for using enclosed carbon-arc light and water apparatus intended to reproduce the weathering effects that occur when materials are exposed to sunlight (either direct or through window glass) and moisture as rain or dew in actual use. This practice is limited to the procedures for obtaining, measuring, and controlling conditions of exposure. A number of exposure procedures are listed in an appendix; however, this practice does not specify the exposure conditions best suited for the material to be tested.
Note 1: Practice G151 describes performance criteria for all exposure devices that use laboratory light sources. This practice replaces Practice G23, which describes very specific designs for devices used for carbon-arc exposures. The apparatus described in Practice G23 is covered by this practice.  
1.2 Test specimens are exposed to enclosed carbon arc light under controlled environmental conditions.  
1.3 Specimen preparation and evaluation of the results are covered in various methods or specifications for specific materials. General guidance is given in Practice G151 and ISO 4892-1. More specific information about methods for determining the change in properties after exposure and reporting these results is described in ISO 4582.  
1.4 The values stated in SI units are to be regarded as the standard.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.5.1 Should any ozone be generated from the operation of the light source, it shall be carried away from the test specimens and operating personnel by an exhaust system.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM G160-12(2019)(Practice)
Standard Practice for Evaluating Microbial Susceptibility of Nonmetallic Materials By Laboratory Soil Burial

SIGNIFICANCE AND USE
3.1 These results may be used to compare the susceptibility of materials when exposed to this test procedure.  
3.2 Microbiological susceptibility may be reflected by a number of changes including staining, weight loss, or reduction in tensile or flexural strength.  
3.3 This practice may be considered an inoculation with a mixed culture of fungi and bacteria.
SCOPE
1.1 This practice is limited to the method of conducting an evaluation of a nonmetallic material's microbiological susceptibility when in contact with the natural environment of the soil under use conditions. This practice is intended for use on solid material test specimens that are no larger than approximately 2 cm (0.79 in.) thick and 100 cm 2  (15.5 in.2) or on film forming materials such as coatings which may be tested in the form of films at least 50 by 50 mm (2 by 2 in.) in size. This practice may be applied to articles that do not spend the majority of their service life in soil.  
1.2 A wide variety of properties may be affected by microbial attack depending on material or item characteristics. Standard methods (where available) should be used for each different property to be evaluated. This practice does not attempt to enumerate all of the possible properties of interest nor specify the most appropriate test for those properties. Test methods must, however, be appropriate to the material being tested.  
1.3 Materials intended for use in soil burial applications are often subjected to periods of exposure to solar radiation and other elements of weather for some time before they are buried. Because these exposures may alter the ability of a material to resist the effects of soil-borne microorganisms, it is recommended that this practice be combined with appropriate environmental exposures (for example, solar simulating weathering devices, the hydrolytic effects of extended aqueous contact, or extraneous nutrients) or fabrication into articles (for example, adhesive bonding of seams) which may promote microbiological susceptibility during the service life of the material.  
1.4 The values stated in SI units are to be regarded as standard. The values given in parentheses are provided for information purposes only.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM G151-19(Practice)
Standard Practice for Exposing Nonmetallic Materials in Accelerated Test Devices that Use Laboratory Light Sources

SIGNIFICANCE AND USE
4.1 Significance:  
4.1.1 When conducting exposures in devices that use laboratory light sources, it is important to consider how well the accelerated test conditions will reproduce property changes and failure modes associated with end-use environments for the materials being tested. In addition, it is essential to consider the effects of variability in both the accelerated test and outdoor exposures when setting up exposure experiments and when interpreting the results from accelerated exposure tests.  
4.1.2 No laboratory exposure test can be specified as a total simulation of actual use conditions in outdoor environments. Results obtained from these laboratory accelerated exposures can be considered as representative of actual use exposures only when the degree of rank correlation has been established for the specific materials being tested and when the type of degradation is the same. The relative durability of materials in actual use conditions can be very different in different locations because of differences in UV radiation, time of wetness, relative humidity, temperature, pollutants, and other factors. Therefore, even if results from a specific exposure test conducted according to this practice are found to be useful for comparing the relative durability of materials exposed in a particular exterior environment, it cannot be assumed that they will be useful for determining relative durability of the same materials for a different environment.  
4.1.3 Even though it is very tempting, calculation of an acceleration factor relating  x h or megajoules of radiant exposure in a laboratory accelerated test to y months or years of exterior exposure is not recommended. These acceleration factors are not valid for several reasons.  
4.1.3.1 Acceleration factors are material dependent and can be significantly different for each material and for different formulations of the same material.
4.1.3.2 Variability in the rate of degradation in both actual use and la...
SCOPE
1.1 This practice covers general procedures to be used when exposing nonmetallic materials in accelerated test devices that use laboratory light sources. Detailed information regarding procedures to be used for specific devices are found in standards describing the particular device being used. For example, detailed information covering exposures in devices that use open flame carbon arc, enclosed carbon arc, xenon arc, and fluorescent UV light source are found in Practices G152, G153, G154, and G155 respectively.
Note 1: Carbon-arc, xenon arc, and fluorescent UV exposures were also described in Practices G23, G26, and G53 which referred to very specific equipment designs. Practices G152, G153, and G154, and G155 are performance based standards that replace Practices G23, G26, and G53.  
1.2 This practice also describes general performance requirements for devices used for exposing nonmetallic materials to laboratory light sources. This information is intended primarily for producers of laboratory accelerated exposure devices.  
1.3 This practice provides information on the use and interpretation of data from accelerated exposure tests. Specific information about methods for determining the property of a nonmetallic material before and after exposure are found in standards describing the method used to measure each property. Information regarding the reporting of results from exposure testing of plastic materials is described in Practice D5870.
Note 2: Guide G141 provides information for addressing variability in exposure testing of nonmetallic materials. Guide G169 provides information for application of statistics to exposure test results.
Note 3: This standard is technically equivalent to ISO 4892, Part 1.  
1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, an...

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