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ASTM D2915-17(2022)

(Practice)

Standard Practice for Sampling and Data-Analysis for Structural Wood and Wood-Based Products

Standard Practice for Sampling and Data-Analysis for Structural Wood and Wood-Based Products

ABSTRACT
This practice covers sampling and analysis procedures for the investigation and evaluation of allowable properties of specified populations of stress-graded structural lumber. This practice generally assumes that the population is sufficiently large so that, for sampling purposes, it may be considered infinite. The population shall be clearly defined where it may be necessary to specify the following: (1) grade name and description, (2) geographical area over which sampling will take place, (3) species or species group, (4) time span for sampling (5) lumber size, and (6) moisture content. Two statistical techniques are described under this practice, namely: parametric and nonparametric analysis. The sampling methods include: (1) random sampling, (2) sampling with unequal probabilities, and (3) sequential sampling. Selection and method of determining sample size are detailed. The results of the tests performed shall be presented as (1) a set of summarizing statistics, and (2) an appendix of unadjusted individual test specimen results. The procedures and requirements for analysis of results are detailed and includes the following: (1) adjustment factors used to reduce the test statistics to the level of allowable properties, (2) formula for calculating apparent modulus of elasticity, sample mean, sample standard deviation, and confidence interval for the mean (3) sample nonparametric percent point estimate, (4) nonparametric lower tolerance limit, (5) parametric point estimate, (6) lower parametric tolerance limit, and (7) histogram and empirical cumulative distribution function. This practice does not specify the action to be taken after the results have been analyzed.
SCOPE
1.1 This practice covers sampling and analysis procedures for the investigation of specified populations of wood and wood-based structural products referred to in this standard as products. Appropriate product standards should be referenced for presentation requirements for data. Depending on the interest of the user, the population from which samples are taken may range from the products produced at a specific manufacturing site to all the products produced in a particular grade from a particular geographic area, during some specified interval of time. This practice generally assumes that the population is sufficiently large so that, for sampling purposes, it may be considered infinite. Where this assumption is inadequate, that is, the population is assumed finite, many of the provisions of this practice may be employed but the sampling and analysis procedure must be designed to reflect a finite population. The statistical techniques embodied in this practice provide procedures to summarize data so that logical judgments can be made. This practice does not specify the action to be taken after the results have been analyzed. The action to be taken depends on the particular requirements of the user of the product.  
1.2 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.  
1.3 This practice does not purport to address the adjustment factors needed to adjust test data to standardized mechanical and environmental conditions (that is, temperature, moisture, test span, or load duration). Additionally, it provides a basis for statistical estimates that will typically require further adjustment to determine design values for use with an accepted design methodology (that is, allowable stress, limit states, or load and resistance factor design). It shall be the responsibility of the user to seek out the appropriate adjustments in specific product standards.  
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 prac...

General Information

Status
Published
Publication Date
31-Jan-2022
ICS
79.040 - Wood, sawlogs and sawn timber
Technical Committee
D07 - Wood
Drafting Committee
D07.02 - Lumber and Engineered Wood Products
Current Stage
Ref Project

Relations

Refers
ASTM D2555-17a(2024)e1 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Feb-2024
Refers
ASTM D2555-17a(2024) - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Feb-2024
Refers
ASTM D3737-18(2023)e1 - Standard Practice for Establishing Allowable Properties for Structural Glued Laminated Timber (Glulam)
Effective Date
01-Oct-2023
Refers
ASTM D1990-19 - Standard Practice for Establishing Allowable Properties for Visually-Graded Dimension Lumber from In-Grade Tests of Full-Size Specimens
Effective Date
01-Oct-2019
Refers
ASTM D5055-19 - Standard Specification for Establishing and Monitoring Structural Capacities of Prefabricated Wood I-Joists
Effective Date
01-Mar-2019
Refers
ASTM D6570-18 - Standard Practice for Assigning Allowable Properties for Mechanically Graded Lumber
Effective Date
01-Sep-2018
Refers
ASTM D5456-18 - Standard Specification for Evaluation of Structural Composite Lumber Products
Effective Date
01-Apr-2018
Refers
ASTM D3737-18e1 - Standard Practice for Establishing Allowable Properties for Structural Glued Laminated Timber (Glulam)
Effective Date
01-Apr-2018
Refers
ASTM D3737-18 - Standard Practice for Establishing Allowable Properties for Structural Glued Laminated Timber (Glulam)
Effective Date
01-Apr-2018
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 D5456-17e1 - Standard Specification for Evaluation of Structural Composite Lumber Products
Effective Date
01-Mar-2017
Refers
ASTM D5456-17 - Standard Specification for Evaluation of Structural Composite Lumber Products
Effective Date
01-Mar-2017
Refers
ASTM D2555-16 - Standard Practice for Establishing Clear Wood Strength Values
Effective Date
01-Aug-2016
Refers
ASTM D5055-16 - Standard Specification for Establishing and Monitoring Structural Capacities of Prefabricated Wood I-Joists
Effective Date
01-Jun-2016

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ASTM D2915-17(2022) - Standard Practice for Sampling and Data-Analysis for Structural Wood and Wood-Based ProductsASTM D2915-17(2022) - Standard Practice for Sampling and Data-Analysis for Structural Wood and Wood-Based Products
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ASTM D2915-17(2022) - Standard Practice for Sampling and Data-Analysis for Structural Wood and Wood-Based Products
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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: D2915 − 17 (Reapproved 2022)
Standard Practice for
Sampling and Data-Analysis for Structural Wood and Wood-
Based Products
This standard is issued under the fixed designation D2915; 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
Sampling and data analysis should be integrated in the design and evaluation of wood and
wood-basedstructuralproducts.Thispracticeisusefulinassessingtheappropriatenessoftheassigned
properties and for checking the effectiveness of grading procedures. Statistical methodologies are
providedtoserveasabasisfortheempiricalestablishmentandevaluationofmeanandnearminimum
property estimates.These population estimates are then used by product standards to assign structural
design values for use with an established design methodology (that is, allowable stress design, load
and resistance factor design, limit states design, etc.). Near-minimum property estimates are typically
used by the product standards to define the performance for a variety of structural properties where
strength is a primary consideration (that is, extreme fiber stress in bending, axial tension, axial
compression, shear, and elasticity for buckling concerns). Population mean estimates are often used
to assess serviceability design criteria where strength is not the primary design concern (that is,
elasticity estimates used for deformation calculations, permissible compression stress at a
deformation, etc.).
Forsituationswhereamanufacturedproductissampledrepeatedlyorlotsizesaresmall,alternative
test methods as described in Ref (1) may be more applicable.
1. Scope inadequate, that is, the population is assumed finite, many of
the provisions of this practice may be employed but the
1.1 This practice covers sampling and analysis procedures
sampling and analysis procedure must be designed to reflect a
for the investigation of specified populations of wood and
finite population. The statistical techniques embodied in this
wood-based structural products referred to in this standard as
practice provide procedures to summarize data so that logical
products. Appropriate product standards should be referenced
judgments can be made. This practice does not specify the
for presentation requirements for data. Depending on the
action to be taken after the results have been analyzed. The
interest of the user, the population from which samples are
actiontobetakendependsontheparticularrequirementsofthe
taken may range from the products produced at a specific
user of the product.
manufacturing site to all the products produced in a particular
grade from a particular geographic area, during some specified
1.2 Thevaluesstatedininch-poundunitsaretoberegarded
interval of time. This practice generally assumes that the
as standard. The values given in parentheses are mathematical
population is sufficiently large so that, for sampling purposes,
conversions to SI units that are provided for information only
it may be considered infinite. Where this assumption is
and are not considered standard.
1.3 This practice does not purport to address the adjustment
This practice is under the jurisdiction ofASTM Committee D07 on Wood and
factors needed to adjust test data to standardized mechanical
is the direct responsibility of Subcommittee D07.02 on Lumber and Engineered
and environmental conditions (that is, temperature, moisture,
Wood Products.
Current edition approved Feb. 1, 2022. Published March 2022. Originally
testspan,orloadduration).Additionally,itprovidesabasisfor
approved in 1970 as D2915–70 T. Last previous edition approved in 2017 as
statistical estimates that will typically require further adjust-
D2915–17. DOI: 10.1520/D2915-17R22.
2 ment to determine design values for use with an accepted
Theboldfacenumbersinparenthesesrefertothelistofreferencesattheendof
this practice. design methodology (that is, allowable stress, limit states, or
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
D2915 − 17 (2022)
load and resistance factor design). It shall be the responsibility structures includes factors such as durability, overall stability,
of the user to seek out the appropriate adjustments in specific fire resistance, deflection, cracking, and excessive vibration.
product standards.
3.2.4 strength, n—levelofstressexpressedintermsofforce
1.4 This standard does not purport to address all of the per area being evaluated for design.
safety concerns, if any, associated with its use. It is the
3.2.5 structural design values, n—unit stresses and stiffness
responsibility of the user of this standard to establish appro-
values utilized in design.
priate safety, health, and environmental practices and deter-
3.2.5.1 Discussion—Structural design values are test results
mine the applicability of regulatory limitations prior to use.
adjusted for duration of load, factor of safety, and expected
1.5 This international standard was developed in accor-
service conditions.
dance with internationally recognized principles on standard-
3.2.6 tolerance limit (TL), n—tolerance limit with 95%
ization established in the Decision on Principles for the
content and 75% confidence.
Development of International Standards, Guides and Recom-
mendations issued by the World Trade Organization Technical
4. Statistical Methodology
Barriers to Trade (TBT) Committee.
4.1 Two general analysis procedures are described under
2. Referenced Documents
this practice: parametric and nonparametric. A nonparametric
approach requires fewer assumptions and is generally more
2.1 ASTM Standards:
conservative than a parametric procedure. The parametric
D9Terminology Relating to Wood and Wood-Based Prod-
approach assumes a known distribution of the underlying
ucts
population, an assumption which, if incorrect, may lead to
D245Practice for Establishing Structural Grades and Re-
inaccurate results. Some examples of parametric distributions
lated Allowable Properties for Visually Graded Lumber
are normal, lognormal and Weibull. Therefore, if a parametric
D1990Practice for Establishing Allowable Properties for
approachisused,appropriatestatisticaltestsshallbeemployed
Visually-Graded Dimension Lumber from In-Grade Tests
to substantiate this choice along with measures of test ad-
of Full-Size Specimens
equacy (2). For parametric approaches in this practice, the
D2555PracticeforEstablishingClearWoodStrengthValues
examples provided are based on assuming normality.
D3737Practice for Establishing Allowable Properties for
Structural Glued Laminated Timber (Glulam)
NOTE 1—The assumption of “normality” in the examples is not a given
D5055Specification for Establishing and Monitoring Struc- and should be verified before using in real cases. A nonparametric
approach requires fewer assumptions and is generally more conservative
tural Capacities of Prefabricated Wood I-Joists
than a parametric procedure.
D5456Specification for Evaluation of Structural Composite
4.2 Population:
Lumber Products
4.2.1 It is imperative that the population to be evaluated be
D6570Practice forAssigningAllowable Properties for Me-
chanically Graded Lumber clearly defined, as inferences made pertain only to that popu-
lation.Inordertodefinethepopulation,itmaybenecessaryto
E29Practice for Using Significant Digits in Test Data to
Determine Conformance with Specifications specify (1) grade name and description, (2) geographical area
over which sampling will take place (nation, state, manufac-
E105Guide for Probability Sampling of Materials
turingsite,etc.),(3)speciesorspeciesgroup,(4)timespanfor
3. Terminology
sampling (a day’s production, a month, a year, etc.), (5)
material dimensions, and ( 6) moisture content.
3.1 Definitions—For definitions of terms related to wood,
4.2.2 The sampling program should consider the population
refer to Terminology D9.
from which the test specimens originated, including types of
3.2 Definitions of Terms Specific to This Standard:
processing methods or marketing practices with respect to any
3.2.1 established design methodology, n—methodology
influence they may have on the representative nature of the
used to determine if a structure will perform adequately using
sample. Test specimens may be collected from stock at
structural design values.
manufacturingsites,centersofdistribution,atpointsofenduse
3.2.1.1 Discussion—Established design methods currently
ordirectlyfromcurrentproduction.Samplingprogramsshould
usedincludeallowablestressdesign,loadandresistancefactor
consider potential effects of the sample source, timing, and
design, limit states design.
location on the variability of specimen properties.
3.2.2 products, n—wood and wood-based structural prod-
4.3 Sampling Procedure:
ucts.
4.3.1 Random Sampling—The sampling unit is commonly
3.2.3 serviceability, n—condition other than the building
the individual test specimen. When this is not the case, see
strength under which a building is still considered useful.
4.3.3. The sampling shall assure random selection of sampling
3.2.3.1 Discussion—Serviceability limit state design of
units from the population described in 4.2 with all members of
the population sharing equal probability of selection. The
principles of Practice E105 shall be maintained. When sam-
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
pling current production, refer to Practice E105 for a recom-
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
mended sampling procedure (see Appendix X3 of this practice
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. foranexampleofthisprocedure).Ifsamplesareselectedfrom
D2915 − 17 (2022)
TABLE 1 Values of the t Statistics Used in Calculating
inventory, random number tables may be used to determine
A
Confidence Intervals
which pieces will be taken for the sample.
df
4.3.2 Sampling with Unequal Probabilities—Under some CI=75% CI=95% CI=99%
n −1
circumstances, it may be advisable to sample with unequal but
1 2.414 12.706 63.657
known probabilities.Where this is done, the general principles
2 1.604 4.303 9.925
3 1.423 3.182 5.841
ofPracticeE105shallbemaintained,andthesamplingmethod
4 1.344 2.776 4.604
shall be completely reported.
5 1.301 2.571 4.032
4.3.3 Sequential Sampling—When trying to characterize
6 1.273 2.447 3.707
how a certain population may perform in a structure, it may be
7 1.254 2.365 3.499
deemed more appropriate to choose a sampling unit, such as a
8 1.240 2.306 3.355
package,thatismorerepresentativeofhowtheproductwillbe 9 1.230 2.262 3.250
10 1.221 2.228 3.169
selectedforuse.Suchacompositesamplingunitmightconsist
of a sequential series of pieces chosen to permit estimation of
11 1.214 2.201 3.106
the properties of the unit as well as the pieces. Where this is 12 1.209 2.179 3.055
13 1.204 2.160 3.012
done,theprinciplesin4.3.1and4.3.2applytothesecomposite
14 1.200 2.145 2.977
sampling units and the sampling method shall be completely
15 1.197 2.131 2.947
reported.
16 1.194 2.120 2.921
4.4 Sample Size: 17 1.191 2.110 2.898
18 1.189 2.101 2.878
4.4.1 Selection of a sample size depends upon the property
19 1.187 2.093 2.861
or properties to be estimated, the actual variation in properties
20 1.185 2.086 2.845
occurring in the population, and the precision with which the
21 1.183 2.080 2.831
property is to be estimated. For any property, strength values,
22 1.182 2.074 2.891
or the modulus of elasticity, various percentiles of the popula-
23 1.180 2.069 2.807
24 1.179 2.064 2.797
tion may be estimated and for all properties, nonparametric or
25 1.178 2.060 2.787
parametric techniques are applicable. Commonly, the mean is
estimated for properties which will eventually be used by the
26 1.177 2.056 2.779
27 1.176 2.052 2.771
product standard to evaluate a serviceability design concern.
28 1.175 2.048 2.763
Near minimum property estimates are typically evaluated for
29 1.174 2.045 2.756
properties where strength is the primary objective.
30 1.173 2.042 2.750
4.4.2 Determine sample size sufficient for estimating the
40 1.167 2.021 2.704
mean by a two-stage method, with the use of the following
60 1.162 2.000 2.660
equation. This equation assumes the data is normally distrib- 120 1.156 1.980 2.617
` 1.150 1.960 2.576
uted and the mean is to be estimated to within 5% with
A
Adapted from Ref (3). For calculating other confidence levels, see Ref (3).
specified confidence:
2 2
ts t
n 5 5 CV (1)
S D
S D
¯ α
αX
estimate a new sample size from Eq 1, where the value of t is taken from
where:
Table 1. If the second sample size exceeds the first, the first sample was
insufficient; obtain and test the additional specimens.
n = sample size,
NOTE 3—More details of this two-stage method are given in Ref (3).
s = standard deviation of specimen values,
¯
X = specimen mean value,
4.4.3 Tolerance intervals and their associated tolerance
¯
CV = coefficient of variation, s/X,
limits can be one-sided or two-sided. In the examples of this
α = estimate of precision, (0.05), and
standard, it is assumed that the limits are one-sided lower
t = value of the t statistic from Table 1.
limits. To determine sample size based on a tolerance limit
¯
(TL), the desired content (C) and associated confidence level
Often, the values of s, X, and t or CV and t are not known
¯ must be selected (Note 4). The choice of a specified content
before the testing program begins. However, s and X,orCV,
and confidence is dependent upon the end-use of the material,
may be approximated by using the results of some other test
economic considerations, current design practices, code
program, or they may simply be guessed.
requirements, etc. For example, a content of 95% and a
NOTE 2—An example of initial sample size calculation is:
confidence level of 75% may be appropriate for a specific
Samplingagradeoflumbertodetermineitsmeanmodulusofelasticity
property of structural lumber. Different confidence levels may
(E).Assuminga95%confidencelevel,the tstatisticcanbeapproximated
be suitable for different products or specific end uses. Appro-
by 2.
s = 300000 psi (2067 MPa)
priatecontentandconfidencelevelsshallbeselectedbeforethe
¯
X = assigned E of the grade=1800000 psi (12402 MPa)
sampling plan is designed.
CV = (300000⁄1800000)=0.167
t =2 NOTE 4—The content is an estimate of the proportion
...

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ASTM D2555-17a(2024)e1(Practice)
Standard Practice for Establishing Clear Wood Strength Values

ABSTRACT
This practice presents the two standard methods for determining the strength values of clear wood of different species in the unseasoned condition, unadjusted for end use, applicable to the establishment of working stresses for different solid wood products such as lumber, laminated wood, plywood, and round timbers. Method A provides for the use of the results of surveys of wood density involving extensive sampling of forest trees, in combination with the data obtained from standard strength tests. The average strength properties are obtained from wood density survey data through linear regression equations establishing the relation of specific gravity to the several strength properties. Method B, on the other hand, provides for the establishment of tables of strength values based on standard tests of small clear specimens in the unseasoned condition for use when data from density surveys are not available. Separate tables are employed to present the data on woods grown in the United States and on woods grown in Canada. Guidelines for the interpretation of the data in terms of assigned values, information basic to the translation of the clear wood values into working stresses, presently available data with appropriate provisions for their application and use, and methods for estimating some useful mechanical properties by relating them to other properties are presented herein as well.
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4.2 Data obtained by testing specimens sampled in accordance with these methods also provide information on the influence on mechanical properties of such factors as density, locality of growth, position in cross section, height in the tree, and moisture content.  
4.3 Cruciform sampling is of principal value when information is desired on the influence on mechanical properties of height in the tree; of age or radial position in the tree; of rate of growth; the change from sapwood to heartwood; the relationships between mechanical properties and factors such as specific gravity; and making general comparisons between species for purposes of rating or selecting species for specific end-use products. Cruciform sampling does not provide unbiased estimates of mean values, percentile or other descriptive statistics, or a means of associating statistical confidence with estimates of descriptive statistics.  
4.4 Double sampling is used when it is desired to improve or update existing estimates of mechanical property values that are the basis for establishing allowable design stresses for stress-graded lumber, plywood, poles and piling, and other wood products. The method involves predicting one property by carefully observing a well-correlated auxiliary property that is presumably easier or cheaper to measure. A sample estimate of the auxiliary property is obtained with a high degree of precision by representatively sampling the population. A smaller independent sample or a subsample of the large sample is used to establish a relationship between the auxiliary property and the property for which an estimate is desired. As applied to sampling a f...
SCOPE
1.1 This practice offers two alternative physical sampling procedures: cruciform sampling and random sampling. The choice of procedure will depend upon the intended use for the test results, the resources available for sampling and testing, and the availability of existing data on the mechanical properties and specific gravity of the species of interest.  
1.2 A third procedure, double sampling, is included primarily by reference. This procedure applies the results of cruciform or random samples through correlation to improve or update property values.  
1.3 Units—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.

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ASTM
ASTM E69-22(Test Method)
Standard Test Method for Combustible Properties of Treated Wood by the Fire-Tube Apparatus

SIGNIFICANCE AND USE
4.1 The purpose of this test method is to provide a relative measurement of the combustibility of fire-retardant-treated wood specimens based on their percentage loss in weight under controlled fire exposure conditions (1).3 In addition, other possible data include rate of weight loss, time of flaming and afterglowing, increase in temperature, and maximum vertical flame progress.  
4.2 This test method is not sufficiently large scale to evaluate the suitability of a given treated product for building construction, but it is a convenient method to use for purposes of development or as a quality-control test during manufacture.  
4.3 This test method gives a procedure for sampling and preparation of test specimens from a lot of treated material in which complete penetration is a requirement. A procedure is also given for the sampling of charges at a treating plant for purposes of quality control of the treatment process.  
4.4 This test method has proven useful for evaluating comparative fire performance effectiveness of fire-retardant chemicals and treatment formulations for wood and wood products (2-5).  
4.5 In this test method, the specimens are subjected to one or more specific sets of laboratory test conditions. If different test conditions are substituted or the anticipated end-use conditions are changed, it is possible that this test method will not predict changes in the fire-test-response characteristics measured. Therefore, the results are valid only for the fire test exposure conditions described in this procedure.
SCOPE
1.1 This test method covers fire-tube test procedures for fire tests for combustible properties of wood treated to reduce flammability. This test method relates to properties of treated wood, as such, rather than to the performance of a fabrication used as an element of construction. Performance under this test method shall be as prescribed in requirements applicable to materials intended for specific uses.  
1.2 This test method is a fire-test-response standard.  
1.3 The SI values given in parentheses are provided for information purposes only.  
1.4 This standard is used to measure and describe the response of materials, products, or assemblies to heat and flame under controlled conditions, but does not by itself incorporate all factors required for fire hazard or fire risk assessment of the materials, products, or assemblies under actual fire conditions.  
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 Fire testing is inherently hazardous. Adequate safeguards for personnel and property shall be employed in conducting these tests.  
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 D198-22a(Test Method)
Standard Test Methods of Static Tests of Lumber in Structural Sizes

SIGNIFICANCE AND USE
6.1 The flexural properties established by this test method provide:  
6.1.1 Data for use in development of grading rules and specifications;  
6.1.2 Data for use in development of design values for structural members;  
6.1.3 Data on the influence of imperfections on mechanical properties of structural members;  
6.1.4 Data on strength properties of different species or grades in various structural sizes;  
6.1.5 Data for use in checking existing equations or hypotheses relating to the structural behavior;  
6.1.6 Data on the effects of chemical or environmental conditions on mechanical properties;  
6.1.7 Data on effects of fabrication variables such as depth, taper, notches, or type of end joint in laminations; and  
6.1.8 Data on relationships between mechanical and physical properties.  
6.2 Procedures are described here in sufficient detail to permit duplication in different laboratories so that comparisons of results from different sources will be valid. Where special circumstances require deviation from some details of these procedures, these deviations shall be carefully described in the report (see Section 11).
SCOPE
1.1 These test methods cover the evaluation of lumber and wood-based products in structural sizes by various testing procedures.  
1.2 The test methods appear in the following order:    
Sections    
Flexure  
4 – 11  
Compression (Short Specimen)  
13 – 20  
Compression (Long Specimen)  
21 – 28  
Tension  
29 – 36  
Torsion  
37 – 44  
Shear Modulus  
45 – 52  
1.3 Notations and symbols relating to the various testing procedures are given in Appendix X1.  
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 D2395-17(2022)(Test Method)
Standard Test Methods for Density and Specific Gravity (Relative Density) of Wood and Wood-Based Materials

SIGNIFICANCE AND USE
5.1 Density and specific gravity are cornerstone terms that help define many useful properties of wood and wood-based materials. These terms designate concepts that have distinct definitions though they relate to the same characteristic (mass in a unit volume). Generally, in the US and Canada, density of wood is measured in terms of specific gravity, or relative density. In the wood-based composites industry and internationally the term density is often preferred.  
5.2 The basic density and basic specific gravity of wood are used in the forestry industry for calculating the oven-dry weight of wood fiber contained in a known wood volume of various wood species. Thus, it serves as an indicator of the amount of wood pulp that could be produced, the workability of the material or its shipping weight. This information is referenced in various resources, including Wood Handbook.5 Note that specific gravity varies within a tree, between trees, and between species. Since the specific gravity of wood cell wall substance is practically constant for all species (approximately 1.53), it is apparent that individual specific gravity value is indicative of the amount of wood cell wall substance present. It affords a rapid and valuable test method for selection of wood for specific uses. In US and Canadian building codes, the oven-dry specific gravity is correlated to various strength characteristics of wood products (for example, compression perpendicular to grain, shear strength and fastener holding capacity).  
5.3 It is often desirable to know the density or specific gravity of a living tree, a structural member already in place, a log cross section, a segment of a research element, or the earlywood or latewood layer. Therefore, it is possible that specimens will be large or small, regular or irregular in shape, and at a variety of moisture contents. These test methods give procedures that include all of these variables and provides for calculation of density and specific gr...
SCOPE
1.1 These test methods cover the determination of the density and specific gravity (relative density) of wood and wood-based materials to generally desired degrees of accuracy and for specimens of different sizes, shapes, and moisture content conditions. The test method title is indicative of the procedures used or the specific area of use.    
Section  
Test Method A—Volume by Measurement  
8  
Test Method B—Volume by Water Immersion  
9  
Test Method C—Flotation Tube  
10  
Test Method D—Forstner Bit  
11  
Test Method E—Increment Core  
12  
Test Method F—Chips  
13  
Test Method G—Full-Size Members  
14  
1.2 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.  
1.3 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 D1666-22(Test Method)
Standard Test Methods for Conducting Machining Tests of Wood and Wood-Base Panel Materials

SIGNIFICANCE AND USE
4.1 Machining tests are made to determine the working qualities and characteristics of different species of wood and of different wood-based panel materials under a variety of machine operations such as are encountered in commercial manufacturing practice. The tests provide a systematic basis for comparing the behavior of different products with respect to woodworking machine operations and of evaluating their potential suitability for certain uses where these properties are of prime importance.
SCOPE
1.1 These test methods cover procedures for planing, routing/shaping, turning, mortising, boring, and sanding, all of which are common wood-working operations used in the manufacture of wood products. These tests apply, in different degrees, to two general classes of materials:  
1.1.1 Wood in the form of lumber, and  
1.1.2 Wood-base panel materials such as plywood and wood-base fiber and particle panels.  
1.2 Because of the importance of planing, some of the variables that affect the results of this operation are explored with a view to determining optimum conditions. In most of the other tests, however, it is necessary to limit the work to one set of fairly typical commercial conditions in which all the different woods are treated alike.  
1.3 Several factors enter into any complete appraisal of the machining properties of a given wood or wood-base panel. Quality of finished surface is recommended as the basis for evaluation of machining properties. Rate of dulling of cutting tools and power consumed in cutting are also important considerations but are beyond the scope of these test methods.  
1.4 Although the methods presented include the results of progressive developments in the evaluation of machining properties, further improvements are anticipated. For example, by present procedures, quality of the finished surface is evaluated by visual inspection, but as new mechanical or physical techniques become available that will afford improved precision of evaluation, they should be employed.  
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 and health 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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ASTM
ASTM D3200-74(2022)(Specification)
Standard Specification and Test Method for Establishing Recommended Design Stresses for Round Timber Construction Poles

SCOPE
1.1 This specification covers the physical characteristics of round timber construction poles to be used either treated or untreated.  
1.2 This test method covers basic principles for establishing recommended design stress values for round timber construction poles that are applicable to the quality described.  
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.

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ASTM
ASTM D5124-96(2022)(Practice)
Standard Practice for Testing and Use of a Random Number Generator in Lumber and Wood Products Simulation

SIGNIFICANCE AND USE
4.1 Computer simulation is known to be a very powerful analytical tool for both practitioners and researchers in the area of wood products and their applications in structural engineering. Complex structural systems can be analyzed by computer with the computer generating the system components, given the probability distribution of each component. Frequently the components are single boards for which a compatible set of strength and stiffness properties are needed. However, the entire structural simulation process is dependent upon the adequacy of the standard uniform number generator required to generate random observations from prescribed probability distribution functions.  
4.2 The technological capabilities and wide availability of microcomputers has encouraged their increased use for simulation studies. Tests of random number generators in commonly available microcomputers have disclosed serious deficiencies (1).3 Adequacy may be a function of intended end-use. This practice is concerned with generation of sets of random numbers, as may be required for simulations of large populations of material properties for simulation of complex structures. For more demanding applications, the use of packaged and pretested random number generators is encouraged.
SCOPE
1.1 This practice gives a minimum testing procedure of computer generation routines for the standard uniform distribution. Random observations from the standard uniform distribution, RU, range from zero to one with every value between zero and one having an equal chance of occurrence.  
1.2 The tests described in this practice only support the basic use of random number generators, not their use in complex or extremely precise simulations.  
1.3 Simulation details for the normal, lognormal, 2-parameter Weibull and 3-parameter Weibull probability distributions are presented.  
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.See specific warning statement in 5.5.3.  
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.

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