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ASTM D3957-09(2020)

(Practice)

Standard Practices for Establishing Stress Grades for Structural Members Used in Log Buildings

Standard Practices for Establishing Stress Grades for Structural Members Used in Log Buildings

ABSTRACT
These practices cover the visual stress-grading principles applicable to structural wood members of nonrectangular shape, as typically used in log buildings. The grading provisions presented herein are not intended to establish grades for purchase, but rather to show how stress-grading principles are applied to members used in log buildings.
SCOPE
1.1 These practices cover the visual stress-grading principles applicable to structural wood members of nonrectangular shape, as typically used in log buildings. These practices are meant to supplement the ASTM standards listed in Section 2, which cover stress-grading of sawn lumber and round timbers. Pieces covered by these practices may also be used in building types other than log buildings.  
1.2 The grading provisions used as illustrations herein are not intended to establish grades for purchase, but rather to show how stress-grading principles are applied to members used in log buildings. Detailed grading rules for commercial stress grades which serve as purchase specifications are established and published by agencies that formulate and maintain such rules and operate inspection facilities covering the various species.  
1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
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
31-Mar-2020
ICS
91.080.20 - Timber structures
Technical Committee
D07 - Wood
Drafting Committee
D07.04 - Pole and Pile Products
Current Stage
Ref Project

Relations

Refers
ASTM D2555-17a(2024) - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Feb-2024
Refers
ASTM D2555-17a(2024)e1 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Feb-2024
Refers
ASTM D2899-12(2017) - Standard Practice for Establishing Allowable Stresses for Round Timber Piles
Effective Date
01-Oct-2017
Refers
ASTM D2555-17a - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Aug-2017
Refers
ASTM D2555-17 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
15-Apr-2017
Refers
ASTM D2555-16 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Aug-2016
Refers
ASTM D2555-15 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Sep-2015
Refers
ASTM D25-12 - Standard Specification for Round Timber Piles
Effective Date
01-May-2012
Refers
ASTM D2899-12 - Standard Practice for Establishing Allowable Stresses for Round Timber Piles
Effective Date
01-Apr-2012
Refers
ASTM D3200-74(2012) - Standard Specification and Test Method for Establishing Recommended Design Stresses for Round Timber Construction Poles
Effective Date
01-Apr-2012
Refers
ASTM D2899-11 - Standard Practice for Establishing Allowable Stresses for Round Timber Piles
Effective Date
15-Nov-2011
Refers
ASTM D2555-06(2011) - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Oct-2011
Refers
ASTM D245-06(2011) - Standard Practice for Establishing Structural Grades and Related Allowable Properties for Visually Graded Lumber
Effective Date
01-Oct-2011
Refers
ASTM D245-06 - Standard Practice for Establishing Structural Grades and Related Allowable Properties for Visually Graded Lumber
Effective Date
01-Mar-2006
Refers
ASTM D2555-06 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Mar-2006

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ASTM D3957-09(2020) - Standard Practices for Establishing Stress Grades for Structural Members Used in Log BuildingsASTM D3957-09(2020) - Standard Practices for Establishing Stress Grades for Structural Members Used in Log Buildings
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ASTM D3957-09(2020) - Standard Practices for Establishing Stress Grades for Structural Members Used in Log Buildings
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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: D3957 − 09 (Reapproved 2020)
Standard Practices for
Establishing Stress Grades for Structural Members Used in
Log Buildings
This standard is issued under the fixed designation D3957; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
INTRODUCTION
These practices are based on the assumption that structural members in log buildings can be
stress-gradedbymethodsthatderivefromacceptedstandardsforconventionalsolidsawnlumberand
round timbers. It is assumed that the material to be graded bears enough similarity to either sawn
lumber or round timber, both in dimensional properties and in use, to warrant application of
stress-grading standards written for sawn-lumber or round-timber, or both. These practices, such as
Practices D245 and D2899, cannot be applied directly because the structural members used in log
buildingsaregenerallyneitherperfectlyrectangularnorperfectlyroundinsection.Thesepracticesuse
certain conventions regarding cross-sectional dimensions that make it possible to extend established
stress-grading methodologies to cover the members used in log buildings.
Where log member characteristics deviate from sawn lumber or round timber standards, there may
be uncertainty as to the exact effect of the deviation on strength properties. To compensate for this
uncertainty, some design stress values are herein derived with practices that are, by engineering
judgment, conservative. The philosophy guiding this approach is that while the absence of
experimental data may make a measure of conservatism unavoidable, the reliability of design stress
valuesmustnotbeachievedthroughwoodqualityorsizerequirementsthatareanunnecessaryburden
on the wood resource.
In general, the sawing, cutting, and shaving required to bring a piece to its final shape must be
completed before it can be visually graded using the principles in these practices. Small cuts may be
allowedaftergradingifitcanbeshownthateither(1)thecutsdonotaffectthegrade,or(2)thegrade
takes the additional cuts into consideration.
Both sawn lumber standards and round timber standards are herein referenced, because these two
stress-grading methodologies can be assumed to apply to two different types of structural members
used in log buildings: wall-logs and round timber beams. Since wall-logs must be provided with a
meansofjoiningtogether(forexample,tongue-and-groovejoints),theyresemblesawnlumberandare
treated as such in the standard. Rafters, purlins, and beams, on the other hand, are sometimes left as
roundlogs,exceptforasmallamountofsawingtoprovideaflatnailingsurface.Thesepracticesthus
deal with stress-grading of wall-logs and round-timber beams separately.
1. Scope Pieces covered by these practices may also be used in building
types other than log buildings.
1.1 These practices cover the visual stress-grading prin-
ciples applicable to structural wood members of nonrectangu- 1.2 The grading provisions used as illustrations herein are
larshape,astypicallyusedinlogbuildings.Thesepracticesare
not intended to establish grades for purchase, but rather to
meant to supplement the ASTM standards listed in Section 2, show how stress-grading principles are applied to members
which cover stress-grading of sawn lumber and round timbers.
used in log buildings. Detailed grading rules for commercial
stress grades which serve as purchase specifications are estab-
lished and published by agencies that formulate and maintain
suchrulesandoperateinspectionfacilitiescoveringthevarious
These practices are under the jurisdiction ofASTM Committee D07 on Wood
species.
andarethedirectresponsibilityofSubcommitteeD07.04onPoleandPileProducts.
Current edition approved April 1, 2020. Published April 2020. Originally
1.3 Thevaluesstatedininch-poundunitsaretoberegarded
approved in 1980. Last previous edition approved in 2015 as D3957–09 (2015).
DOI: 10.1520/D3957-09R20. as standard. The values given in parentheses are mathematical
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
D3957 − 09 (2020)
conversions to SI units that are provided for information only 3. Significance and Use
and are not considered standard.
3.1 It is useful to grade logs to improve the consistency in
1.4 This standard does not purport to address all of the
performance. Using the visual stress-grading principles appli-
safety concerns, if any, associated with its use. It is the
cabletorectangularandroundshapestructuralwoodmembers,
responsibility of the user of this standard to establish appro-
these practices illustrate the development of stress grading
priate safety, health, and environmental practices and deter-
methodologies for wall-logs and round timber beams, as
mine the applicability of regulatory limitations prior to use.
typically used in log buildings.The clear wood strength values
1.5 This international standard was developed in accor-
are used as the basis for deriving the design stress values in
dance with internationally recognized principles on standard-
these applications.
ization established in the Decision on Principles for the
4. Stress-Grading of Wall-Logs
Development of International Standards, Guides and Recom-
mendations issued by the World Trade Organization Technical
4.1 General:
Barriers to Trade (TBT) Committee.
4.1.1 This section is intended to apply to wood members,
referred to as wall-logs, which are normally stacked horizon-
2. Referenced Documents
tally or laid-up vertically to form a load-bearing, solid-wood
2.1 ASTM Standards: wall, in any building. These structural members can vary
D25Specification for Round Timber Piles greatly in dimension and section profile, and therefore previ-
D245Practice for Establishing Structural Grades and Re- ously developed standards for solid sawn lumber are not
lated Allowable Properties for Visually Graded Lumber readily applied to them (Fig. 1).
D2555PracticeforEstablishingClearWoodStrengthValues 4.1.2 Wall-logs,asreferredtointhesepractices,canalsobe
D2899Practice for Establishing Allowable Stresses for used as beams, joists, and so forth, and do not have to be used
Round Timber Piles
as wall components.
D3200Specification and Test Method for Establishing Rec- 4.1.3 Unless they qualify as round-timber beams under
ommended Design Stresses for Round Timber Construc-
Section 5 of these practices, wall-logs must be considered as
tion Poles sawn lumber and therefore must respect the provisions of
stress-grading described in Practice D245. The manner in
whichPracticeD245isappliedtowall-logsisdescribedin4.2.
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.
NF—Narrow Face
WF—Wide Face
FIG. 1 Typical Wall-Log Sections Showing Wide and Narrow Faces as Determined by Inscribed Rectangle
D3957 − 09 (2020)
4.2 Use of Rectangular Section Inscribed in Actual Sec- cut are tangent to each other. Therefore, a cut ⁄2 in. wide will
tions: reduce the maximum allowable knot by ⁄2 in. (Fig. 3).
4.2.1 A wall-log is to be graded as the largest piece of 4.2.4.2 As an alternate to 4.2.4.1, reduce the maximum
rectangular lumber that can be embedded in the wall-log allowable knot displacement D to D−2d where d is the
without protrusion from any wall-log surface except that each displacement of the sawcut(s) when the knot does not encom-
corner may protrude up to ⁄2 in. (12.7 mm) in either or both pass the sawcut. For example, a 6 by 12 in. (152.4 by 304.8
directions (Fig. 2).All provisions of Practice D245 that would mm) with maximum knot displacement of 50%, and two
apply to a piece with the same cross-section as the inscribed grooves ⁄4by1in.(19.1by25.4mm)eachononenarrowface,
rectangle shall apply to the wall-log. agroovedisplacementof2%,theallowableknotdisplacement
4.2.2 Maximum knot sizes shall be determined by the wide for knots that do not encompass the grooves would by reduced
and narrow face dimensions of the inscribed rectangle, using to50−2(2)=46%.
knot tables in Practice D245. Boundaries between portions of
5. Stress-Grading of Sawn Round Timber Beams
thewall-logsurfaceconsideredwide-faceandportionsconsid-
ered narrow-face shall be found by extending the diagonals of
5.1 General:
the inscribed rectangle to the wall-log surface (Fig. 2). Just as
5.1.1 This section describes how the formulas of Practice
the wide and narrow faces of the inscribed rectangle belong to
D2899 are applied to round timbers that are shaved or sawn
a quadrant between diagonals, so shall the wide and narrow
along one side (Note 1). Since these members are normally
faces of the wall-log surface belong to the same quadrants. In
loaded on their flat surface, they are stressed primarily in
general,then,thesurfaceboundariesbetweenwideandnarrow
bendingandarehereinreferredtoassawnroundtimberbeams.
faces may not coincide with actual edges on the wall-log.
NOTE1—Unsawnroundtimbersusedinthesuperstructureofbuildings
4.2.3 Knotsizelimitations,asdeterminedbythedimensions
are covered by Specification and Test Methods D3200.
of the inscribed rectangle, shall apply to knot measurements
5.1.2 Specification D25 and Practice D2899 set forth one
taken at the surface of the wall-log. The slight difference
structuralgrade.ThesepracticessupplementSpecificationD25
between the knot size at the surface of the wall-log, and the
and Practice D2899 so that a series of grades can be con-
knot size at the inscribed rectangle is, for practical purposes,
structed. This is accomplished by means of the strength ratios
disregarded.
defined in 5.5.
4.2.4 If the wall-log design has saw-cuts that penetrate
deeplyintothepiece,thenanyinscribedrectanglethatremains 5.2 Allowable Sawing:
unpenetrated by sawing may be too small to use for determin- 5.2.1 The flat side of a sawn round timber beam shall not
ing knot limitations. To accommodate wall-logs of this type, penetrate more than 0.3 R into the piece, where R is the radius
cuts into the inscribed rectangle may be treated as follows. of the beam (Fig. 3). This limits the reduction of the cross-
4.2.4.1 If a face of an inscribed rectangle has a maximum sectional area, by sawing or shaving, to less than 10%.
allowable knot size of D inches when the face is unpenetrated 5.2.2 A form factor equal to 1.18 is the factor by which
by any cuts, then the maximum allowable knot size for knots design-bendingstressesofsquare-sawnpiecesaremultipliedin
that do not encompass the sawcut is reduced to D− d inches ordertoderivedesign-bendingstressesforbeamswithcircular
when the face is penetrated by a cut d inches wide. That is, a cross-sections. Since sawn round timber beams do not have a
sawcut ⁄2in.(12.7mm)widecouldeffectivelyincreasea2-in. circularcrosssection,theirformfactorissetequalto1.0rather
(50.8mm)knotto2 ⁄2in.(63.5mm),aswhentheknotandthe than 1.18. In order to apply the bending stress formula of
(a) Wall-Log Without Saw Kerf: Maximum (b) Same Wall-Log, With Saw Kerf: Maxi- (c) Alternative Method: Maximum allow-
allowable narrow face knot, D, deter- mum allowable narrow face able narrow face knot, D*, determined
mined for A × B inscribed rectangle. knot =D−d (top) and D (bottom). for A × B* inscribed rectangle.
FIG. 2 Determination of Inscribed Rectangle
D3957 − 09 (2020)
5.5.1.1 Knot Strength Ratios—Strength ratios for sawn
round timber beams shall be determined assuming that knots
effectively reduce the cross-sectional area by a pie-shaped
sector that radiates from the center of the beam to the
outermostboundariesoftheknot(Fig.3).Itisfurtherassumed
thatthesectorofarealosttoaknotliesoppositethesawnface,
since this will most reduce the beam’s section modulus.
(1) Given (1) the section modulus, S, of a beam sawn to
the limit of 5.2.1, and (2) the section modulus, Sʹ, obtained
when S is reduced to account for a knot, the bending strength
ratio associated with the knot is that number that when
multiplied by S gives Sʹ.
(2) By substituting the above strength ratios into the
Practice D2899 bending stress formula as explained in Appen-
dix X1 and by the application of the other adjustments to this
formula described in 5.2.2 and 5.5.3, design bending stress
values for specific knot sizes can be determined.
5.5.1.2 Slope of Grain Strength Ratios—The exact relation-
ship between slope of grain and bending strength has not been
determined for unsawn-round timbers. These strength ratios,
listed below, are thought to be conservative estimates of the
effect of slope of grain on sawn-round timber beams (Note 3):
Slope of Grain Bending Strength Ratio, %
1in4 27
1in6 40
1in8 53
1in10 61
1in12 69
1in14 74
FIG. 3 Strength Ratio for Sawn Round Timber Beam
1in15 76
NOTE 3—Round timbers that are sawn within the limitations stated in
Practice D2899 to sawn round timber beams, the form factor
5.2 will have hybrid strength characteristics that are between those of
included in that formula must be set equal to 1.0. sawnlumberandroundtimber.Itcanbeassumedthattheeffectofagiven
slope of grain on the bending strength of sawn round timber beams will
5.3 Knot Measurement—Knots on the sawn face of a sawn
not be as great as its effect on the bending strength of sawn lumber. This
round timber beam are measured by their smallest diameter.
assumption, which is based on engineering judgment, allows for the
application of the above strength ratios to sawn round timber beams.
Other knots are measured in accordance with Specification
D25.
5.5.2 In addition to factors for form and grade, the Practice
5.4 Slope of Grain Measurement—Slope of grain in sawn D2899 formula for design bending stress includes factors to
round timber beams is measured by the angle between the
account for load duration, tip weakness, and variability. These
direction of the fibers and the axis of the piece.As for lumber, factors are also applied to sawn round timber beams.
this angle is expressed as a slope.
5.5.3 Aformalfactorofsafetyof1.4shallbeincludedinthe
formulafordesignbendingstressesusedforsawnroundtimber
5.5 Design Bending Stress Values:
beams.
5.5.1 Bending strength ratios are determined by slope of
grain or knot size, whichever is most restrictive. The su
...

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1.2 The values stated in inch-pound units are to be regarded as standard. The values in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
1.3 Safety Hazards—There are no known hazards with the use of this specification. It is necessary that the products manufactured to this specification not be brittle or difficult to install with proper tools.  
1.4 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 D7672-24(Specification)
Standard Specification for Evaluating Structural Capacities of Rim Board Products and Assemblies

ABSTRACT
This specification provides procedures for testing and establishing the structural capacities of proprietary rim board products and assemblies for use in light-frame wood construction using I-joist or structural composite lumber joist framing. This specification also establishes several procedures used to test rim board products and assemblies, to judge their acceptability, and to establish allowable design capacities.
SCOPE
1.1 This specification provides procedures for testing and establishing the structural capacities of proprietary rim board products and assemblies for use in light-frame wood construction using I-joist or structural composite lumber joist framing. This specification does not apply to commodity rim board products.  
1.2 This specification was developed in light of currently manufactured panel, structural composite lumber, and pre-fabricated I-joist rim board products as defined in 3.2. Materials that do not conform to the definitions of 3.2 are beyond the scope of this specification.  
1.3 Fire safety, sound transmission, building envelope performance, and cutting/notching attributes of rim board products and assemblies fall outside the scope of this specification.  
1.4 This specification primarily considers end use in dry service conditions, such as most protected framing members, where the equilibrium moisture content for solid-sawn lumber is less than 16 %.  
1.5 This specification provides methods to establish “allowable stress” design resistances for use with the National Design Specification for Wood Construction (NDS). Derivation of design resistances from the test data in accordance with “load and resistance factor design” or “limit states design” are beyond the scope of this specification.  
1.6 Quality control requirements are outside the scope of this Specification.  
1.7 The performance of a rim board product will be affected by the constituent wood species, geometry, adhesive, and production parameters. Therefore, rim board products produced by each individual manufacturer shall be evaluated to determine their product properties, regardless of the similarity in characteristics to products produced by other manufacturers.  
1.8 Where a manufacturer produces product in more than one facility, each production facility shall be evaluated independently. For additional production facilities, any revisions to the full qualification program in accordance with this specification shall be approved by an accredited, independent qualifying agency.  
1.9 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
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.  
1.11 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 D7469-23(Test Method)
Standard Test Methods for End Joints in Structural Wood Products

SIGNIFICANCE AND USE
4.1 These test methods are applicable to specimens with or without specific conditioning regimens. Tests are permitted to be performed on specimens that are not at moisture equilibrium, such as under production conditions in a plant, or on specimens that have been conditioned to specified moisture content or durability conditioning prior to testing.  
4.2 These test methods can be used as follows:  
4.2.1 To standardize the determination of strength properties for the material and joint being tested.  
4.2.2 To investigate the effect of parameters that may influence the structural capacity of the joint, such as joint profile, adhesive type, moisture content, temperature, and strength-reducing characteristics in the assembly.  
4.3 These test methods do not intend to address all possible exposure or performance expectations of end joints. The following are some performance characteristics not considered:  
4.3.1 Long-term strength and permanence of the wood adhesive.  
4.3.2 Time dependent mechanical properties of the joint.  
4.3.3 Elevated temperature performance of the joint.
SCOPE
1.1 This standard provides test methods for evaluating the structural capacity and integrity of end joints in structural wood products.  
1.2 Off-line test methods include: (1) Axial Tension, (2) Bending, and (3) Cyclic Delamination.  
1.3 In-line test methods include: (1) Tension Proofload and (2) Bending Proofload.  
1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered 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.  
1.6 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 D6555-23(Guide)
Standard Guide for Evaluating System Effects in Repetitive-Member Wood Assemblies

ABSTRACT
This guide identifies the variables to consider when evaluating the performance of repetitive-member wood assemblies for parallel framing systems. This guide discusses general approaches to quantifying an assembly adjustment including limitations of methods and materials when evaluating repetitive-member assembly performance, and does not address the techniques for modeling or testing of such.
SCOPE
1.1 This guide identifies variables to consider when evaluating repetitive-member assembly performance for parallel framing systems.  
1.2 This guide defines terms commonly used to describe interaction mechanisms.  
1.3 This guide discusses general approaches to quantifying an assembly adjustment including limitations of methods and materials when evaluating repetitive-member assembly performance.  
1.4 This guide does not detail the techniques for modeling or testing repetitive-member assembly performance.  
1.5 The analysis and discussion presented in this guideline are based on the assumption that a means exists for distributing applied loads among adjacent, parallel supporting members of the system.  
1.6 Evaluation of creep effects is beyond the scope of this guide.  
1.7 This guide does not purport to suggest or establish appropriate safety levels for assemblies, but cautions users that designers often interpret that safety levels for assemblies and full structures should be higher than safety levels for individual structural members.  
Note 1: Methods other than traditional safety factor approaches, such as reliability methods, are increasingly used to estimate the probability of failure of structural elements. However, the extension of these methods to assemblies or to complete structures is still evolving. For example, complete structures will likely exhibit less variability than individual structural elements. Additionally, there is a potential for beneficial changes in failure modes (that is, more ductile failure modes in systems). These considerations are beyond the scope of this guide.  
1.8 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered 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 C1060-23(Practice)
Standard Practice for Thermographic Inspection of Insulation Installations in Envelope Cavities of Frame Buildings

SIGNIFICANCE AND USE
5.1 Although infrared imaging systems have the potential to determine many factors concerning the thermal performance of a wall, roof, floor, or ceiling, the emphasis in this practice is on determining whether insulation is missing or whether an insulation installation is malfunctioning. Anomalous thermal images from other apparent causes are not required to be recorded; however, if recorded as supplemental information, their interpretation is capable of requiring procedures and techniques not presented in this practice.
SCOPE
1.1 This practice is a guide to the proper use of infrared imaging systems for conducting qualitative thermal inspections of building walls, ceilings, roofs, and floors, framed in wood or metal, that contain insulation in the spaces between framing members. This procedure allows the detection of cavities where insulation is inadequate or missing and allows identification of areas with apparently adequate insulation.  
1.2 This practice offers reliable means for detecting suspected missing insulation. It also offers the possibility of detecting partial-thickness insulation, improperly installed insulation, or insulation damaged in service. Proof of missing insulation or a malfunctioning envelope requires independent validation. Validation techniques, such as visual inspection or in-situ R-value measurement, are beyond the scope of this practice.  
1.3 This practice is limited to frame construction even though thermography is used on all building types. (ISO 6781)  
1.4 Instrumentation and calibration required under a variety of environmental conditions are described. Instrumentation requirements and measurement procedures are considered for inspections from both inside and outside the structure. Each vantage point offers visual access to areas hidden from the other side.  
1.5 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.  
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 prior to use. Specific precautionary statements are given in Note 1 and Note 3.  
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 D7470-21(Practice)
Standard Practice for Evaluating Elevated Temperature Performance of End-Jointed Lumber Studs

SIGNIFICANCE AND USE
5.1 End-jointed lumber studs used in fire resistance-rated assemblies shall be able to support the superimposed design load for the specified time under an elevated temperature exposure, when a wall assembly is exposed to a standard fire specified in Test Methods E119. Light-weight wood assemblies utilize gypsum wallboard or other types of membrane protection to accomplish a requisite fire resistance rating for the assembly. However, wood studs and the end joints in the studs shall resist the developed elevated temperature environment for the duration of the rating. This practice provides a method for evaluating the elevated temperature performance of an assembly constructed with end-jointed studs having fire performance comparable to an assembly constructed with solid-sawn studs.
SCOPE
1.1 This practice is to be used to evaluate the elevated temperature performance of end-jointed lumber studs.  
1.2 A symmetric wall assembly containing end-jointed lumber studs is exposed to a standard fire exposure specified in Test Methods E119.  
1.3 End-jointed lumber studs are deemed qualified if the wall assembly resists a standard fire exposure specified in Test Methods E119 for a period of 60 min or more. Qualification of end-jointed lumber studs are restricted to the joint configuration and adhesive tested.  
1.4 This practice is used to evaluate the performance of end-jointed lumber studs to heat and flame under controlled conditions, but does not by itself incorporate all factors required for fire hazard or fire risk assessment under actual fire conditions.  
1.5 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are for information only.  
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 prior to use.  
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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