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ASTM C1519-10(2022)

(Test Method)

Standard Test Method for Evaluating Durability of Building Construction Sealants by Laboratory Accelerated Weathering Procedures

Standard Test Method for Evaluating Durability of Building Construction Sealants by Laboratory Accelerated Weathering Procedures

SIGNIFICANCE AND USE
4.1 This test method describes the procedure to evaluate or compare, or both, the durability of sealants when subjected to accelerated weathering and cyclic movement in a joint.  
4.2 Sealant installation procedures, design considerations and movement during cure affect the aging processes and are fundamental to the success of any sealant. These factors are not addressed with this test method.  
4.3 The amount, type and frequency of movement a sealant experiences during its lifetime strongly depends on the materials used in construction and on the orientation of the joint toward sunlight and many other factors that are not uniform or consistent.  
4.4 Climatic exposures will differ with the orientation of the building and shading as well as with local and regional climatic conditions. Climates in a given location can vary from year to year because of differences in solar radiation, temperature, rainfall, and atmospheric conditions. Further, the quality and intensity of solar radiation on the earth's surface varies with geographic location, season, time of day, and cloud cover.  
4.5 Variations in results may be expected when operating conditions are varied within the accepted limits of this test method. Therefore, all test results using this test method must be accompanied by a report of the specific operating conditions as required in Section 11. Refer to Practice G151 for detailed information on the caveats applicable to use of results obtained according to this test method.  
4.6 The results of laboratory exposure cannot be directly extrapolated to estimate an absolute rate of deterioration caused by natural weathering because the acceleration factor is material dependent and can be significantly different for each material and for different formulations of the same material. However, exposure of a similar material of known outdoor performance, a control, along with the test specimens allows comparison of the durability relative to that of the control under ...
SCOPE
1.1 This test method covers the method for the determination of the durability of a sealant based on its ability to function in cyclic movement maintaining adhesion and cohesion after repeated exposure to laboratory accelerated weathering procedures.  
1.2 This test method describes two laboratory accelerated weathering procedures for evaluating the durability of a sealant.  
1.3 RILEM TC139–DBS is related to this test method.  
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, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.5 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.

General Information

Status
Published
Publication Date
14-Jun-2022
ICS
91.040.01 - Buildings in general
Technical Committee
C24 - Building Seals and Sealants
Drafting Committee
C24.40 - Weathering
Current Stage
Ref Project

Relations

Refers
ASTM C717-19 - Standard Terminology of Building Seals and Sealants
Effective Date
01-Mar-2019
Refers
ASTM C717-18 - Standard Terminology of Building Seals and Sealants
Effective Date
01-Mar-2018
Refers
ASTM C717-17a - Standard Terminology of Building Seals and Sealants
Effective Date
01-Nov-2017
Refers
ASTM C717-17 - Standard Terminology of Building Seals and Sealants
Effective Date
01-Jan-2017
Refers
ASTM C717-16a - Standard Terminology of Building Seals and Sealants
Effective Date
15-Nov-2016
Refers
ASTM C717-16 - Standard Terminology of Building Seals and Sealants
Effective Date
01-Sep-2016
Refers
ASTM C719-14 - Standard Test Method for Adhesion and Cohesion of Elastomeric Joint Sealants Under Cyclic Movement (Hockman Cycle)
Effective Date
15-Jul-2014
Refers
ASTM E177-14 - Standard Practice for Use of the Terms Precision and Bias in ASTM Test Methods
Effective Date
01-May-2014
Refers
ASTM C717-14a - Standard Terminology of Building Seals and Sealants
Effective Date
01-May-2014
Refers
ASTM G113-14 - Standard Terminology Relating to Natural and Artificial Weathering Tests of Nonmetallic Materials
Effective Date
01-Mar-2014
Refers
ASTM C717-14 - Standard Terminology of Building Seals and Sealants
Effective Date
01-Feb-2014
Refers
ASTM C717-13 - Standard Terminology of Building Seals and Sealants
Effective Date
01-Nov-2013
Refers
ASTM C719-13 - Standard Test Method for Adhesion and Cohesion of Elastomeric Joint Sealants Under Cyclic Movement (Hockman Cycle)
Effective Date
15-Jun-2013
Refers
ASTM E177-13 - Standard Practice for Use of the Terms Precision and Bias in ASTM Test Methods
Effective Date
01-May-2013
Refers
ASTM G154-12 - Standard Practice for Operating Fluorescent Ultraviolet (UV) Lamp Apparatus for Exposure of Nonmetallic Materials
Effective Date
01-Dec-2012

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ASTM C1519-10(2022) - Standard Test Method for Evaluating Durability of Building Construction Sealants by Laboratory Accelerated Weathering ProceduresASTM C1519-10(2022) - Standard Test Method for Evaluating Durability of Building Construction Sealants by Laboratory Accelerated Weathering Procedures
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ASTM C1519-10(2022) - Standard Test Method for Evaluating Durability of Building Construction Sealants by Laboratory Accelerated Weathering Procedures
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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.
Designation: C1519 − 10 (Reapproved 2022)
Standard Test Method for
Evaluating Durability of Building Construction Sealants by
Laboratory Accelerated Weathering Procedures
This standard is issued under the fixed designation C1519; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
1. Scope G113 Terminology Relating to Natural andArtificial Weath-
ering Tests of Nonmetallic Materials
1.1 This test method covers the method for the determina-
G141 Guide for Addressing Variability in Exposure Testing
tionofthedurabilityofasealantbasedonitsabilitytofunction
of Nonmetallic Materials
in cyclic movement maintaining adhesion and cohesion after
G151 Practice for Exposing Nonmetallic Materials inAccel-
repeated exposure to laboratory accelerated weathering proce-
erated Test Devices that Use Laboratory Light Sources
dures.
G154 Practice for Operating Fluorescent Ultraviolet (UV)
1.2 This test method describes two laboratory accelerated
Lamp Apparatus for Exposure of Nonmetallic Materials
weathering procedures for evaluating the durability of a
G155 Practice for Operating XenonArc LampApparatus for
sealant.
Exposure of Materials
1.3 RILEM TC139–DBS is related to this test method.
2.2 RILEM Standard:
RILEMTC139–DBS Determination of changes in adhesion,
1.4 This standard does not purport to address all of the
cohesion, and appearance of elastic weatherproofing seal-
safety concerns, if any, associated with its use. It is the
ants for high movement facade joints after exposure to
responsibility of the user of this standard to establish appro-
artificial weathering
priate safety, health, and environmental practices and deter-
mine the applicability of regulatory limitations prior to use.
3. Terminology
1.5 This international standard was developed in accor-
3.1 The definitions given in Terminology C717 on terms
dance with internationally recognized principles on standard-
relating to building seals and sealants and in Terminology
ization established in the Decision on Principles for the
G113 on terms relating to natural and artificial weathering tests
Development of International Standards, Guides and Recom-
are applicable to this test method.
mendations issued by the World Trade Organization Technical
Barriers to Trade (TBT) Committee.
4. Significance and Use
2. Referenced Documents
4.1 This test method describes the procedure to evaluate or
compare, or both, the durability of sealants when subjected to
2.1 ASTM Standards:
accelerated weathering and cyclic movement in a joint.
C717 Terminology of Building Seals and Sealants
C719 Test Method for Adhesion and Cohesion of Elasto-
4.2 Sealant installation procedures, design considerations
meric Joint Sealants Under Cyclic Movement (Hockman
and movement during cure affect the aging processes and are
Cycle)
fundamentaltothesuccessofanysealant.Thesefactorsarenot
C1442 Practice for Conducting Tests on Sealants Using
addressed with this test method.
Artificial Weathering Apparatus
4.3 The amount, type and frequency of movement a sealant
E177 Practice for Use of the Terms Precision and Bias in
experiences during its lifetime strongly depends on the mate-
ASTM Test Methods
rials used in construction and on the orientation of the joint
toward sunlight and many other factors that are not uniform or
ThistestmethodisunderthejurisdictionofASTMCommitteeC24onBuilding
consistent.
Seals and Sealants and is the direct responsibility of Subcommittee C24.40 on
4.4 Climatic exposures will differ with the orientation of the
Weathering.
Current edition approved June 15, 2022. Published July 2022. Originally
buildingandshadingaswellaswithlocalandregionalclimatic
approvedin2002.Lastpreviouseditionapprovedin2017asC1519–10(2017).DOI:
conditions. Climates in a given location can vary from year to
10.1520/C1519-17R22.
2 year because of differences in solar radiation, temperature,
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. Published in Materials and Structures, 2001, pp. 34, 579–588.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
C1519 − 10 (2022)
rainfall, and atmospheric conditions. Further, the quality and substrates as well. Substrates should be compatible with the
intensity of solar radiation on the earth’s surface varies with sealant, should not degrade under weathering, and should fit
geographic location, season, time of day, and cloud cover. into the joint movement apparatus. If primer is recommended
by the sealant manufacturer, it should be used in accordance
4.5 Variations in results may be expected when operating
with the manufacturer’s recommendations.
conditions are varied within the accepted limits of this test
method. Therefore, all test results using this test method must 6.2 Spacers, for the preparation of the specimens should be
beaccompaniedbyareportofthespecificoperatingconditions of a non-adherent material and of a shape to produce a sealant
as required in Section 11. Refer to Practice G151 for detailed joint as depicted in Test Method C719.
information on the caveats applicable to use of results obtained NOTE 2—If the spacers are made of a material to which the sealant
adheres, their surfaces should be made non-adherent, for example, by a
according to this test method.
thin wax coating.
4.6 The results of laboratory exposure cannot be directly
6.3 Non-Adherent Substance, for the preparation of test
extrapolated to estimate an absolute rate of deterioration
specimens, for example, polytetrafluoroethylene (PTFE) film
caused by natural weathering because the acceleration factor is
or vellum paper, preferably on the advice of the sealant
material dependent and can be significantly different for each
manufacturer.
material and for different formulations of the same material.
However, exposure of a similar material of known outdoor 6.4 Ventilated Convection-Type Oven, capable of being
maintained at 50 °C 6 2 °C.
performance, a control, along with the test specimens allows
comparison of the durability relative to that of the control
6.5 Artificial Weathering Device—Choice of type of appa-
under the test conditions. Evaluation in terms of relative
ratus and duration of exposure shall be by mutual agreement
durability also greatly improves the agreement in test results
among the interested parties. Because of differences in test
among different laboratories.
conditions, test results may differ with the type of apparatus
4.7 Results of this procedure will depend on the care that is used. Consult Practices G154 and G155 for differences in the
spectral power distributions of the exposure sources and
taken to operate the equipment according to Practices G154
and G155. Significant factors include regulation of the line Practice C1442 for the differences in test parameters in the two
types of apparatus specified.
voltage, freedom from salt or other deposits from water,
temperature control, humidity control, where applicable, con- 6.5.1 Fluorescent UV/Condensation Apparatus—Operate
dition and age of the burners and filters in xenon arc the device in accordance with Practice C1442, Section 7.3.
equipment, and age of lamps in fluorescent UV equipment. 6.5.2 Xenon Arc Light Apparatus—Operate the device in
NOTE 1—Additional information on sources of variability and on
accordance with Practice C1442, Section 7.2.
strategies for addressing variability in the design, execution and data
NOTE 3—The xenon arc ruggedness test was run at 70 % RH using an
analysis of laboratory accelerated exposure tests is found in Guide G141.
exposure cycle of 2 h light followed by 2 h light plus water spray for more
thorough wetting. The test results compared well with those of outdoor
5. Summary
exposures. Therefore, these conditions are considered an alternate to the
5.1 For this procedure, specimens are prepared in which the
default parameters.
sealant to be tested adheres to two parallel contact surfaces.
This procedure uses the same type of specimens, in the same
7. Preparation of Test Specimens
dimensions, and the same preparation and cure as described in
7.1 Adhere the sealant to be tested to two parallel contact
Test Method C719. While any substrates can be specified and
surfaces as described in Test Method C719. The user is to
used, this procedure was developed with anodized aluminum
specify the number of specimens.
substrates. Following cure, the specimens are placed in an
7.2 Unless specified otherwise, use anodized aluminum
artificial weathering chamber for 4 weeks. On removal from
substrates.
the weathering chamber, they are placed in a cyclic movement
machine and subjected to 6 cyclic movements of extension and
7.3 For each specimen, assemble two supports and two
compression at room temperature according to the method of
spacers as shown in Test Method C719 and set up on the
C719. Any degree of extension and compression can be used.
non-adherent substrate.
After the movement cycles the sealant is blocked open at the
7.4 Follow the instructions of the sealant manufacturer, for
recommended extension and examined for flaws. The cycle of
instance, whether a primer is to be used.
weathering followed by movement testing and examination is
repeated as often as specified. After each cycle, the number of 7.5 Fill the hollow space formed by supports and spacers
cycles is recorded as well as the mode of failure, that is,
shall be with sealant previously conditioned for 24 h at 23 °C
cohesive or adhesive, amount of failure, the depth of any 6 2 °C. The following precautions shall be taken:
cracks or breaks and other pertinent observations, such as
7.5.1 avoid the formation of air bubbles;
sealant deformation and bubble formation.
7.5.2 discardthefirst5gofsealantoutofthetube,cartridge
or dispenser;
6. Apparatus
7.5.3 press the sealant towards the contact surface of the
6.1 Aluminum Supports, for the preparation of test speci- supports; and
mens (two supports for each specimen).Anodized aluminum is 7.5.4 trim the sealant surfaces so that they are flush with the
the standard substrate, but this method can be used with other face of the supports and spacers.
C1519 − 10 (2022)
7.6 Backing materials and other joint formation aids should 10. Periods of Exposure and Evaluation of Results
beremovedassoonaspossible,consistentwithnodeformation
10.1 In most cases, periodic evaluation of materials is
of the sealant, to assist in the curing process.
necessary to determine when significant changes occur.
10.2 The time of radiant exposure necessary to produce a
8. Conditioning
defined change in a material property can be used to evaluate
8.1 The specimens shall be conditioned or cured following
or rank the stability of materials. This method is more reliable
the procedures of Test Method C719, Section 8.
than evaluating materials after an arbitrary exposure time or
radiant exposure.
9. Test Procedure
10.2.1 Exposure to an arbitrary time or radiant exposure
may be used for the purpose of a specific test if agreed upon by
9.1 After completion of 7.6 process, place the test speci-
the parties concerned or if required for conformance to a
mens in an artificial weathering device so that the sealant
particular specification.When a single exposure period is used,
surface (top of the joint) faces the exposure source.The face of
select a time or radiant exposure that will produce the largest
the samples are positioned at the specified distance from the
performance differences between the test materials.
exposure source.
10.2.2 In the development of a specification, the minimum
9.1.1 If the specimens do not completely fill the racks, fill
exposure time shall be that necessary to produce a substantial
the empty spaces with blank metal panels to maintain the test
change in the property of interest for the least stable material
conditions within the chamber.
being evaluated. An exposure time that produces a significant
9.1.2 Specimens should be confined to an exposure area
change in one type of material cannot be assumed to be
where the irradiance is at least 90 % of that measured at the
applicable to other types of materials.
center of the exposure area. Unless it is shown that irradiance
uniformity meets the requirements of Practice G151, section
11. Report
5.1.3 for no repositioning, use one of the procedures described
11.1 The report shall make reference to this test method and
in section 5.1.4 to ensure that all specimens receive radiant
shall include the following information:
exposures that are as similar as possible. Irradiance uniformity
11.1.1 The name and type of sealant;
can be determined in accordance with Practice G151, Section
11.1.2 The batch of sealant from which the specimens were
A1.
produced, if possible;
9.1.3 Operate the artificial weathering device according to
11.1.3 The type of support material if different than the
the specifications in 6.5 for 4 weeks.
standard of anodized aluminum;
NOTE 4—If the irradiance level of the xenon arc apparatus is set at 0.35
11.1.4 The primer used, if applicable;
rather than 0.51 W/m .nm) at 340 nm, operate it for 5.8 weeks instead of
11.1.5 Weathering information to conform to the Report
4 weeks. (SeeAnnexA1.2.1 in C1442 for determination of exposure time
at other irradiance levels.
section of Practice G151 plus the following:
11.1.5.1 Type, manufacturer and model of artificial weath-
9.2 At the end of the 4 weeks in the artificial weathering
ering apparatus used,
machine, test the sealant to 6 movement cycles as described in
11.1.5.2 Irradiance level and actual time (number of hours)
Test Method C719, sections 9.4 and 9.5 (room temperature
in weathering apparatus.
movement), at the prescribed movement amplitude.
11.1.6 The amplitude of extension/compression used for the
9.2.1 Extend the specimen to the prescribed maximum
movement cycles;
extension and block open with appropriate spacers. Examine
11.1.7 Whetherornotflawsoccurred,and,iftheaffirmative,
the sealants for any flaws. Flaws include any cracks, breaks,
the cycle at which they occurred, types of flaws (adhesion or
adhesive or cohesive loss. Measure and record the depth of any
cohesion or other types), and depth of any flaws; and
...

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SCOPE
1.1 Purpose—The purpose of this guide2 is to define good commercial practice for conducting a limited survey for readily observable moisture affected materials and conditions conducive to elevated moisture in a commercial building related to commercial real estate transaction or commercial real estate management by conducting: a walk-through survey, document reviews, and interviews as outlined within this guide. This guide is intended to provide a practical means for the limited identification of moisture affected materials and physical deficiencies conducive to elevated moisture caused by water infiltration through the building envelope or substructure or generated within the subject building as a result of processes or mechanical systems, excluding de minimis conditions. This guide is to allow a user to assess general moisture concerns, as well as the potential need for further assessment or other actions that may be appropriate that are beyond the scope of this guide. For purposes of this guide, the initialism “LMA” or “Limited Moisture Assessment” is used interchangeably with this guide’s full title.  
1.2 Purpose Limitations—While a LMA may be used to survey for readily identifiable moisture affected materials and physical deficiencies conducive to elevated moisture, the LMA is not designed to serve as comprehensive survey for the presence of moisture affected materials and physical deficiencies conducive to elevated moisture in all or most areas in a commercial building. It is not intended to reduce or eliminate the risks that elevated moisture may pose to the subject building or its occupants.  
1.3 Considerations Beyond This Scope—The use of this guide is limited to the scope set forth in this section. Section 12 of this guide identifies, for informational purposes, certain physical conditions (not an all-inclusive list) that may exist at a subject property and certain activities or procedures (not an all-inclu...

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ASTM D7338-14(2023)(Guide)
Standard Guide for Assessment Of Fungal Growth in Buildings

SIGNIFICANCE AND USE
5.1 This guide presents options for a systematic assessment of fungal growth in buildings.  
5.2 This guide allows for site-specific flexibility and professional judgment in the choice of assessment procedures. It may not be necessary to perform in its entirety the basic assessment presented below to resolve a particular problem, for example, where fungal growth is localized and the source and extent of moisture is readily observable.  
5.3 Conversely, no matter how comprehensive the survey, all fungal growth may not be identified or located in a fungal assessment.  
5.4 Material removal or destructive investigation may be needed to access suspect surfaces.  
5.5 Using the procedures described in this guide, the investigator may have obtained the data necessary to suggest specific recommendations, for example, how to remediate the observed fungal growth, or how to prevent further fungal growth, but those recommendations are beyond the scope of this guide.  
5.6 Precautions may be needed to protect the assessor and building occupants where access may disturb fungal growth.  
5.7 It is the user’s responsibility to protect information that may be considered confidential, or private, or both, in accordance with project contract, corporate protocol, or local, state, and federal regulations, or a combination thereof.  
5.8 It may be necessary to enlist other disciplines or trade expertise to assist in some steps of the assessment, but recommendations of when to enlist and whom to enlist are beyond the scope of this guide.
SCOPE
1.1 This guide provides a compendium of information and a menu of options for assessment of fungal growth in buildings, but does not recommend a specific course of action. Due to the wide variety of fungal problems affecting buildings and their occupants, and the wide variety of buildings, it is not possible to describe a set of uniform steps that will always be performed during an assessment (that is, a standard practice); therefore the user of this guide must decide which steps are appropriate for a given situation or building.  
1.2 This guide is specific to fungal growth, which is only one potential problem in a building environment. It may be part of, but is not intended to take the place of, a comprehensive indoor air quality investigation.  
1.3 This guide describes minimum steps and procedures for collecting background information on a building in question, procedures for evaluating the potential for moisture infiltration or collection, procedures for inspection for suspect fungal growth, and procedures beyond the scope of a basic survey that may be useful for specific problems.  
1.4 Assessments for fungal growth may be useful wherever fungal growth is suspected, excess moisture has been present or when there are concerns regarding potential fungal growth.  
1.5 Periodic fungal assessment in buildings may be a component of preventative maintenance programs.  
1.6 This guide is applicable to buildings including residential (for example, single or multi-family), institutional (for example, schools, hospitals), government, public assembly, commercial (for example, office, retail), and industrial facilities.  
1.7 Recommendations for developing a sampling strategy or methods for the collection and analysis of fungal samples are beyond the scope of this guide. For recommendations for developing a sampling strategy, see Ref (1)2, Chapter 10.  
1.8 Recommendations for remediation of fungal growth are beyond the scope of this guide.  
1.9 This guide is not intended to supersede any government regulations governing the assessment of fungal growth in buildings.  
1.10 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...

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ASTM
ASTM E2921-22(Practice)
Standard Practice for Minimum Criteria for Comparing Whole Building Life Cycle Assessments for Use with Building Codes, Standards, and Rating Systems

SIGNIFICANCE AND USE
5.1 This practice provides criteria that building design teams shall use to compare the environmental impacts associated with a reference building design and a final building design, including additions to existing buildings where applicable.  
5.2 This practice deals specifically with material selection for initial construction, including associated maintenance and replacement cycles over an assumed service life, taking operating energy use into account if required or explicitly allowed under the applicable code, standard, or rating system.
SCOPE
1.1 This practice provides criteria to be applied irrespective of the assessment (LCA) tool that is used when LCA is undertaken at the whole building level to compare a final whole building design to a reference building design.  
1.2 The purpose of this practice is to support the use of whole building Life Cycle Assessment (LCA) in building codes, standards, and building rating systems by ensuring that comparative assessments of final whole building designs relative to reference building designs take account of the relevant building features, life cycle stages, and related activities in similar fashion for both the reference and final building designs of the same building.  
1.3 The criteria do not deal with building occupant behavior, possible future changes in building function, building rehabilitation or retrofit, or other matters that cannot be foreseen or reasonably estimated at the design or permitting stage, or both where this practice applies.  
1.4 Only environmental impacts and aspects of sustainability are addressed in this practice. The social and economic impacts and aspects of sustainability are not addressed in this practice.  
1.5 This practice does not deal with basic LCA methodology, calculation methods or related matters that are covered in cited international standards.  
1.6 This practice does not supersede or modify existing ISO standards for the application of LCA at the product level, nor does it address any of the following related applications:  
1.6.1 Aggregation of building products Environmental Product Declarations (EPD) at the whole building level;  
1.6.2 Rules for applying EPDs in a building code, standard, or rating system; and  
1.6.3 Comparability of building product EPDs.
Note 1: ISO 14025 and ISO 21930 provide guidance on use and comparability of building products EPDs.  
1.7 This practice does not specify the impact categories or sustainability aspects to be addressed in building codes, standards, or building rating systems and users of this practice conform to the impact category requirements specified in the applicable code, standard, or rating system.  
1.8 The text of this standard contains notes that provide explanatory material. These notes shall not be considered as requirements of the standard.  
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, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.10 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 E541-22(Specification)
Standard Specification for Agencies Engaged in System Analysis and Compliance Assurance for Manufactured Building

ABSTRACT
This specification covers agencies engaged in system analysis and compliance assurance for manufactured building. The administrative agency may utilize the services and facilities of building-evaluation agencies in carrying out its responsibilities for evaluating manufactured building systems. By providing criteria for evaluating these agencies, this standard's objective is to (1) utilize the voluntary standards system to provide a common base for the various regulatory approaches employed by the authorities having jurisdiction, and (2) make provision for varying degrees of optional technical support for the certification of manufactured building. The system analysis agency is responsible for determining whether a building system, including the design, materials, and fabrication process, is in conformance with applicable requirements. The documents of the system analysis function are: product description document, compliance assurance manual, and installation documents. The general procedures for system analysis are presented in details. The tasks of system analysis project manager, technical staff evaluating building systems, technical staff evaluating compliance assurance manuals, and project manager evaluating building systems are presented in details. The requirements and criteria for compliance assurance agencies are presented. The task of compliance assurance agency project manager, technical staff preparing compliance assurance manuals, compliance assurance supervisor of inspection, and compliance assurance inspector are presented in details.
SCOPE
1.1 This specification provides the criteria for the administrative agency that has regulatory authority as granted by the authority having jurisdiction AHJ to evaluate the capabilities and qualifications of building evaluation agencies, that performs system analysis or compliance assurance or both for certification of manufactured building on behalf of an authority having jurisdiction (AHJ) that meet the needs of regulatory programs. Administrative agencies and building evaluation agencies (third-party agencies) are the primary users of the standard.  
1.2 To establish an appropriate degree of intra- and inter-state credibility regarding building system evaluations made through governmental or private agencies, the authorities having jurisdiction should utilize an oversight and approval process for the building-evaluation agencies that provide the services of system analysis or compliance assurance on behalf of the AHJ that may include: approval by the AHJ for both oversight and or auditing of the regulatory body, or approval by the AHJ and oversight, and or auditing by an independent auditor for the regulatory body, or approval with the AHJ and oversight, and auditing by an independent accreditation agency.  
1.3 Building-evaluation agencies examined under this specification may include governmental or private agencies or both.  
1.4 Practice E651 may be used to support the evaluation of building-evaluation agencies. Other criteria such as independence, financial stability, and objectivity may need to be considered.  
Note 1: Practice E651 is intended as a companion standard to Specification E541 and includes questions that should be asked of system analysis and compliance assurance agencies in order for the administrative agency to evaluate their competency.  
1.5 These criteria set forth the minimum personnel requirements and the technical and organizational procedures required for building-evaluation agencies engaged in evaluating manufactured building.  
1.6 Criteria are included for building-evaluation agencies evaluating innovative as well as conventional building systems, against applicable requirements.  
1.7 Building-evaluation agencies involved in testing, quality assurance, and evaluating building components can be evaluated by using Specification E699.  
1.7.1 Specification E699 is used in conjunction with Specification E541 and P...

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ASTM E1678-21a(Test Method)
Standard Test Method for Measuring Smoke Toxicity for Use in Fire Hazard Analysis

SIGNIFICANCE AND USE
5.1 This test method has been designed to provide data for the mathematical modeling of fire hazard as a means for the evaluation of materials and products and to assist in their research and development.  
5.1.1 Test Method E1678 is functionally equivalent to NFPA 269-2017.  
5.2 This test method is used to predict, and subsequently confirm, the lethal toxic potency of smoke produced upon the exposure of a material or product to specific fire test conditions. Confirmation determines whether certain major gaseous toxicants account for the observed toxic effects and lethal toxic potency. If a predicted lethal toxic potency value is not confirmed adequately, indicating a potential for unusual or unexplained toxicity, the lethal toxic potency will need to be investigated using other methodology, such as conducting an experimental determination of the LC50 using the apparatus described. (See X1.3.1 and X1.3.2.)  
5.3 This test method produces lethal toxic potency values that are appropriate for use in the modeling of both pre-flashover and post-flashover fires. Most fire deaths due to smoke inhalation in the U.S. occur in areas other than the room of fire origin and are caused by fires that have proceeded beyond the room of fire origin. It is assumed that these are flashover fires. Therefore, the principal emphasis is placed on evaluating toxic hazard under these conditions. In post-flashover fires, large concentrations of carbon monoxide results from reduced air supply to the fire plume and other room-scale factors. Bench-scale tests do not have the capacity to simulate these phenomena. The lethal toxic potency values determined in this test method are obtained from fuel/air ratios more representative of pre-flashover, rather than post-flashover conditions. In cases where a pre-flashover fire representation is desired in fire hazard modeling, these LC50 values are appropriate. Lethal toxic potency and carbon monoxide yield values determined in this test method requi...
SCOPE
1.1 This fire-test-response standard covers a means for determining the lethal toxic potency of smoke produced from a material or product ignited while exposed to a radiant heat flux of 50 kW/m2 for 15 min.  
1.2 This test method is limited to test specimens no larger than 76 mm by 127 mm (3 in. by 5 in.), with a thickness no greater than 51 mm (2 in.). Specimens are intended to be representative of finished materials or products, including composite and combination systems.  
1.3 Lethal toxic potency values associated with 30-min exposures are predicted using calculations that use combustion atmosphere analytical data for carbon monoxide, carbon dioxide, oxygen (vitiation) and, if present, hydrogen cyanide, hydrogen chloride, and hydrogen bromide. The predictive equations are therefore limited to those materials and products whose smoke toxicity can be attributed to these toxicants. An animal check determines the extent to which additional toxicants contribute to the lethal toxic potency of the smoke.  
1.4 The values stated in SI units are to be regarded as standard. The values given in parentheses after SI units are provided for information only and are not considered standard.  
1.5 This standard measures and describes the response of materials, products, or assemblies in response to heat under controlled conditions, but does not by itself incorporate all factors required for fire hazard of fire risk assessment of the materials, products, or assemblies under actual fire conditions.  
1.6 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 (particularly with regard to the care and use of experimental animals) prior to use. For specific hazards statements, see Section 7 and Note X1.1.  ...

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ASTM
ASTM E2947-21a(Guide)
Standard Guide for Building Enclosure Commissioning

SIGNIFICANCE AND USE
5.1 This guide provides recommendations for the enclosure commissioning process from its project planning through design, construction and occupancy and operation phases. This guide is intended for various building types. Although Practice E2813 defines two levels of enclosure commissioning, fundamental and enhanced, complex buildings and Owners seeking a higher level of assurance may require more intensified enclosure commissioning than the minimum requirements described in this guide and Practice E2813.13  
5.2 The process uses performance-oriented practices and procedures to verify that the project is achieving the expectations described in the OPR and defined by the contract documents throughout the delivery of the project.  
5.3 The BECx process is recommended to begin during the pre-design phase and continues through the occupancy and operations phase. The process includes specific tasks during each project phase.  
5.4 The commissioning process is outlined in ANSI/ASHRAE/IES Standard 202. It is recommended that the reader understand the process provided in that document. This standard guide and Practice E2813 provide a specific process related to the building enclosure commissioning.  
5.5 Note that the enclosure commissioning process should not infringe upon the authority or responsibility of the Owner, the project’s designers or contractors. The CxG and BECxG can identify areas of concern relative to the OPR, which are discussed with the Owner and other stakeholders; however it is the Owner who directs the project, Cx team, and BECx team. It is recommended that the BECxP be engaged in pre-design phase to define the scope of BECx so that the Owner’s agreements with the project team (including the contractor) clearly define the scope of contracted tasks that interface with BECx process.  
5.6 BECx does not replace a traditional design/construction process but is meant to enhance and be an integral part of that process by validating the design and verifyi...
SCOPE
1.1 Purpose—This guide provides procedures, methods and documentation techniques that may be used in the application of the building enclosure commissioning (BECx) process. This guide is complementary to Practice E2813 and is aligned with ANSI/ASHRAE/IES Standard 202 and ASHRAE Guideline 0.  
1.2 Extent—The process outlined in this standard guide applies to each building delivery phase from pre-design through occupancy and operation. The specific application of this guide may vary to suit the Owner, the project delivery method and the building project as described in the Owner’s Project Requirements (OPR), and as defined by the contract documents.  
1.3 Primary Focus—The primary focus of this process includes, but may not be limited to, new construction of building enclosures, existing building enclosures undergoing substantial renovation or alteration, and continuous commissioning of enclosure systems.  
1.4 Contractual and Regulatory Obligations—The methods described in this guide are not intended to supersede or otherwise replace the contractual obligations reserved specifically for the parties responsible for the design and construction of a building or structure, nor to alter the roles, responsibilities and duties that may otherwise be assigned to those parties by applicable regulatory or statutory law.  
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) C...

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