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ASTM D1060-10(2018)

(Practice)

Standard Practice for Core Sampling of Raw Wool in Packages for Determination of Percentage of Clean Wool Fiber Present

Standard Practice for Core Sampling of Raw Wool in Packages for Determination of Percentage of Clean Wool Fiber Present

SIGNIFICANCE AND USE
5.1 Core sampling is widely accepted, when applicable, for obtaining a laboratory sample representative of the clean wool fiber present in a lot of packaged raw wool.  
5.2 If the wool is so loosely packed that a core cannot be cut, or if it is so highly compressed that the sampling tool cannot readily penetrate into the package to the required depth and in the required direction, core sampling is not applicable. The density of wool in most types of commercial packages is suitable for sampling by this method.  
5.3 The procedure described in this practice is adapted to the application of statistical methods for estimating the size of sample required to achieve a required level of sample precision at minimum cost.
Note 1: The basic sampling equipment, operating procedure, and statistical approach used in this practice have been adapted for sampling lots of wool for the determination of other properties that are not affected by boring, such as average fiber diameter, and for sampling lots of other bulk fibers in packages.
FIG. 1 Small Diameter Wool Sampling Tool (United States Customs Service)  
(Metric equivalents may be calculated by multiplying inches by 25.4 to obtain equivalent dimensions in millimetres.)
SCOPE
1.1 This practice for sampling covers a procedure for obtaining samples from lots of grease, pulled, or scoured wool or related animal fibers in bales or bags for the determination of the clean wool fiber present by a procedure similar to that described in Test Method D584.  
1.2 This practice provides a description of suitable core sampling equipment, the sampling procedure, and the method for determining the number of packages to be bored and the number of cores to be taken from each sampled package.  
1.3 Reliable estimates are given for the standard deviation of the percentage clean wool fiber present between packages and within packages for lots of many types of raw wool.  
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.

General Information

Status
Published
Publication Date
30-Jun-2018
ICS
59.060.10 - Natural fibres
Technical Committee
D13 - Textiles
Drafting Committee
D13.13 - Wool and Felt
Current Stage
Ref Project

Relations

Replaces
ASTM D1060-10 - Standard Practice for Core Sampling of Raw Wool in Packages for Determination of Percentage of Clean Wool Fiber Present
Effective Date
01-Jul-2018
Refers
ASTM D584-10(2018) - Standard Test Method for Wool Content of Raw Wool—Laboratory Scale
Effective Date
01-Jul-2018
Refers
ASTM D123-17 - Standard Terminology Relating to Textiles
Effective Date
01-Mar-2017
Refers
ASTM D123-15b - Standard Terminology Relating to Textiles
Effective Date
15-Sep-2015
Refers
ASTM D123-15a - Standard Terminology Relating to Textiles
Effective Date
01-Sep-2015
Refers
ASTM D123-15 - Standard Terminology Relating to Textiles
Effective Date
01-Apr-2015
Refers
ASTM D123-13ae1 - Standard Terminology Relating to Textiles
Effective Date
15-Jun-2013
Refers
ASTM D123-13a - Standard Terminology Relating to Textiles
Effective Date
15-Jun-2013
Refers
ASTM D123-13 - Standard Terminology Relating to Textiles
Effective Date
15-May-2013
Refers
ASTM D123-12e1 - Standard Terminology Relating to Textiles
Effective Date
01-Feb-2012
Refers
ASTM D123-12 - Standard Terminology Relating to Textiles
Effective Date
01-Feb-2012
Refers
ASTM E122-09e1 - Standard Practice for Calculating Sample Size to Estimate, With Specified Precision, the Average for a Characteristic of a Lot or Process
Effective Date
01-Aug-2011
Refers
ASTM E105-10 - Standard Practice for Probability Sampling Of Materials
Effective Date
01-Oct-2010
Refers
ASTM D4845-10e1 - Standard Terminology Relating to Wool
Effective Date
01-Jun-2010
Refers
ASTM D4845-10e2 - Standard Terminology Relating to Wool
Effective Date
01-Jun-2010

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ASTM D1060-10(2018) - Standard Practice for Core Sampling of Raw Wool in Packages for Determination of Percentage of Clean Wool Fiber PresentASTM D1060-10(2018) - Standard Practice for Core Sampling of Raw Wool in Packages for Determination of Percentage of Clean Wool Fiber Present
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ASTM D1060-10(2018) - Standard Practice for Core Sampling of Raw Wool in Packages for Determination of Percentage of Clean Wool Fiber Present
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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: D1060 − 10 (Reapproved 2018)
Standard Practice for
Core Sampling of Raw Wool in Packages for Determination
of Percentage of Clean Wool Fiber Present
This standard is issued under the fixed designation D1060; 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.
1. Scope D584Test Method for Wool Content of Raw Wool—
Laboratory Scale
1.1 This practice for sampling covers a procedure for
E105Practice for Probability Sampling of Materials
obtaining samples from lots of grease, pulled, or scoured wool
E122PracticeforCalculatingSampleSizetoEstimate,With
or related animal fibers in bales or bags for the determination
Specified Precision, the Average for a Characteristic of a
of the clean wool fiber present by a procedure similar to that
Lot or Process
described in Test Method D584.
D4845Terminology Relating to Wool
1.2 This practice provides a description of suitable core
sampling equipment, the sampling procedure, and the method
3. Terminology
for determining the number of packages to be bored and the
3.1 For all terminology relating to D13.13, Wool and Wool
number of cores to be taken from each sampled package.
Felt, refer to Terminology D4845.
1.3 Reliable estimates are given for the standard deviation
3.1.1 The following terms are relevant to this standard:
of the percentage clean wool fiber present between packages
clean wool fiber present, core and raw wool.
and within packages for lots of many types of raw wool.
3.2 For definitions of other textile terms used in this
1.4 The values stated in inch-pound units are to be regarded
practice, refer to Terminology D123.
as standard. The values given in parentheses are mathematical
4. Summary of Practices
conversions to SI units that are provided for information only
and are not considered standard.
4.1 The lot is core sampled in accordance with one of a
1.5 This standard does not purport to address all of the series of equivalent schedules based on estimates of variability
of the percentage clean wool fiber present and on the required
safety concerns, if any, associated with its use. It is the
responsibility of the user of this standard to establish appro- level of precision. A set of packages of wool is taken as a lot
priate safety, health, and environmental practices and deter- sample. From each package in the lot sample, a fixed number
mine the applicability of regulatory limitations prior to use. of cores of wool is drawn to be used as a laboratory sample.
1.6 This international standard was developed in accor- Guidance in the selection of the most economical of the
dance with internationally recognized principles on standard- equivalent schedules is provided.
ization established in the Decision on Principles for the
5. Significance and Use
Development of International Standards, Guides and Recom-
mendations issued by the World Trade Organization Technical
5.1 Core sampling is widely accepted, when applicable, for
Barriers to Trade (TBT) Committee.
obtaining a laboratory sample representative of the clean wool
fiber present in a lot of packaged raw wool.
2. Referenced Documents
5.2 If the wool is so loosely packed that a core cannot be
2.1 ASTM Standards:
cut, or if it is so highly compressed that the sampling tool
D123Terminology Relating to Textiles
cannot readily penetrate into the package to the required depth
and in the required direction, core sampling is not applicable.
The density of wool in most types of commercial packages is
ThispracticeisunderthejuristictionofASTMCommitteeD13onTextilesand
suitable for sampling by this method.
is the direct responsibility of Subcommittee D13.13 on Wool and Felt.
CurrenteditionapprovedJuly1,2018.PublishedJuly2018.Originallyapproved
5.3 The procedure described in this practice is adapted to
in 1949. Last previous edition approved in 2010 as D1060–10. DOI: 10.1520/
the application of statistical methods for estimating the size of
D1060-10R18.
samplerequiredtoachievearequiredlevelofsampleprecision
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
at minimum cost.
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. NOTE 1—The basic sampling equipment, operating procedure, and
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
D1060 − 10 (2018)
(Metric equivalents may be calculated by multiplying inches by 25.4 to obtain equivalent dimensions in millimetres.)
FIG. 1 Small Diameter Wool Sampling Tool (United States Customs Service)
statistical approach used in this practice have been adapted for sampling
in samples obtained with a rotating 2-in. (50 mm) diameter
lots of wool for the determination of other properties that are not affected
tube with a toothed cutting edge has been demonstrated.
by boring, such as average fiber diameter, and for sampling lots of other
bulk fibers in packages.
6.2 Sample Container—A container with closure of such
material and so constructed that a sample stored therein will
6. Apparatus
not show a material change in its moisture content during the
6.1 Sampling Tool —A tube equipped with a cutting edge,
interval between sampling and weighing the sample for test.
together with a drill, hammer, press, or similar device, and
accessories. The tube must be capable of penetrating the
7. Sampling Procedure
required distance (see 7.2) into a package of wool and cutting
7.1 Time of Sampling—Take the sample at or about the time
a core therefrom, which core must be retained substantially
the lot is weighed.
unchanged within the tube during its withdrawal from a
package.
7.2 Depth of Penetration—Penetrateabaleofwoolwiththe
6.1.1 Fig. 1 illustrates the design of a recommended type of
sampling tube to a depth such that substantially all parts of the
rotatable small-diameter wool sampling tube.
package can be reached. Maintain the same depth of penetra-
6.1.2 Sampling tubes in common use range from approxi-
tion for each core taken from a given lot.
mately ⁄2 to 2 in. (13 to 50 mm) in diameter, and from 10 to
7.3 Location of Borings:
40 in. (250 to 1000 mm) in length.
7.3.1 Consider a package as composed of eight sections
6.1.3 Some types of sampling tubes are equipped with
approximatelyequalinvolume,definedbytoporbottom,front
receptacles at the rear of the tube.
1 or back, left or right.
6.1.4 Drillsof ⁄2hp(375w)rotatingat200to550rpm(3.3
7.3.2 Alternate the location of boring in such a fashion that
to 10 rps), have been found to be satisfactory.
the total composite sample will consist of approximately the
6.1.5 A toothed cutting edge on a rotating tube of small
same number of cores from each section of the packages.
diameter, instead of the smooth edge illustrated in Fig. 1,is
acceptable provided that for any specific design it has been
7.3.3 If the packages have been compressed in a baling
shownthatabiasisnotintroducedthereby.Theabsenceofbias
press, enter a package through a compression surface and in a
direction normal to that surface.
The sole source of supply of the apparatus known to the committee at this time
7.4 Whenever there is danger that loose sand or other
is Yocom-McColl Testing Laboratories, Inc., 540 Elk Place, Denver, CO 80216. If
material may drop out of the tube during or after boring, so
you are aware of alternative suppliers, please provide this information to ASTM
position the package that the direction of boring will be
Headquarters.Your comments will receive careful consideration at a meeting of the
responsible technical committee, which you may attend. horizontal.
D1060 − 10 (2018)
7.5 Just before entering a sampling tube into a package of
1.960 = valueofStudent’stforinfinitedegreesoffreedom,two-sided
limits, and a 95% probability level.
wool, cut the covering in such a way that none of the covering
materialfibersbecomemixedwiththecoreorwiththewoolin
8.2.1 Reliable Estimates of Variances Available—When re-
2 2
the package.
liable estimates of σ and σ are available, determine the
b w
required number of packages based on a specific number of
7.6 Immediately upon withdrawal of the tube after boring,
cores per package using Eq 2 or Table 1:
extrude the core directly into the sample container or the
2 2 2
intermediate receptacle (6.1.3) without loss of material or
n 5 N s 1ks / 0.2603 kN1ks (2)
~ ! @ #
w b b
unnecessary exposure to atmospheric conditions that may
where:
result in a change in the moisture content of the core.
n = number of packages to be selected from the lot for
coring (rounded upward to a whole number),
8. Size of Sample
N =
8.1 Variance of Sample Mean—If a sample consists of k
k = number of cores to be taken from each selected
cores from each of n packages from a lot of N packages of raw
package (Note 5),
wool, and the n× k cores are composited into a single sample
s = reliable estimate of the standard deviation for
w
onwhich mtestsforpercentcleanwoolfiberpresentaremade,
percent clean wool fiber present of cores within
thenthevarianceofthemeanoftheobservationsisgivenusing
packages of a lot of similar packaged raw wool
Eq 1 (Notes 2 and 3):
(Note 6),
2 2 2
σ N 2 n σ σ s = reliable estimate of the standard deviation for
b
b w t
σ 5 3 1 1 (1)
x
percent clean wool fiber present between packages
n N n 3k m
withinalotofsimilarpackagedrawwool(Note6),
σ
t and
5σ 1
s
m
0.2603 = value defined in Note 4.
NOTE 5—Any convenient value of k may be used, but the value of k
where:
calculated using Eq 3 and rounding to the nearest whole number will give
σ = variance of the mean of the m observations,
the most economical sample:
x
σ = variance for percent clean wool fiber present between
b
2 2
k 5 ~s 3B/s 3C!2 (3)
packages within the lot, w b
σ = average variance for percent clean wool fiber present
w
where:
of cores within packages of the lot,
B = average cost of selecting and positioning a package for coring,
σ = variance of observations on a homogeneous sample,
t and
σ = variance for percent clean wool fiber present for the C = averagecostoftakingandhandlingacore,andtheothertermsare
s
defined in the legend for Eq 2.
sample, as defined by Eq 1,
NOTE 6—Estimates of the variances are best based on data obtained in
n = number of packages selected at random from the lot
investigations using analysis of variance techniques for lots of similar
from which cores are taken,
packaged raw wool. The estimates listed in TableA1.1 were so obtained.
N = number of packages in the lot,
Estimatesmayalsobebasedonrecordsintheuser’slaboratoryiftheplan
k = number of cores taken from each of the n packages, 5
for sampling and testing described in STP 114 has been followed. For
and
testing that does not involve a dispute between the purchaser and the
m = number of observations made on the composite supplier, variances may be estimated as specified in Practice E122.
sample.
8.2.2 No Reliable Estimates of Variances Available—When
2 2
NOTE 2—Uniform mass of packages and of cores are assumed. If the
noreliableestimatesofσ andσ areavailable,determinethe
b w
departure from uniformity is such that a material error would be
required number of packages based on a specific number of
introduced by this assumption, proportional compositing must be adhered
cores per package using Eq 2 or Table 1 and s = s =5.0
to. w b
NOTE3—Thefactor(N-n)/Nisthecorrectionforsamplingfromafinite percentage points.These estimates of variability are somewhat
population. A corresponding correction is generally not necessary for
larger than the variability usually found in practice and will
cores and tests.
usually require a larger number of cores than when reliable
8.2 Number of Cores—Unless otherwise agreed upon, as estimates of variability are available.
when specified in an applicable material specification, take a
2 9. Sampling Schedules
number of cores such that σ will be 0.2603.
s
9.1 For convenience, Table 1 gives the values of n calcu-
NOTE 4—0.2603 is the value calculated from (1.0/1.960)
lated by Eq 2 for selected pairs of values of s and s and for
w b
where: selected lot sizes, N, and numbers of cores per package, k, for
1.0 = allowable variation of the percent clean wool fiber present of
an allowable variation of 61.0% clean wool fiber present at a
the composite sample, and
probability level of 95%.
10. Keywords
10.1 sampling; wool content
For background information, see the paper by Louis Tanner and W. Edwards
Deming,“SomeProblemsintheSamplingofBulkMaterials,” Proceedings,ASTM,
Vol 49, 1949, p. 1181 and ASTM Practice E105. Symposium on Bulk Sampling, ASTM STP 114, ASTM, 1952.
D1060 − 10 (2018)
A
TABLE 1 Values of n for an Allowable Variation of ±1.0 % Clean Wool Fiber Present (0.86 % Wool Base) at a Probability Level of 95 % ,
for Selected Values of s , s , and k
w b
Number of Number of Packages in Lot, N
Cores per
s s 25 50 75 100 150 200 300 500 750 1000
w b
Sampled
Package, k Number of Packages to Be Sampled, n
1.0 1.0 1 788 8888888
1.0 1.5 1 10 11 12 12121213131313
1.0 2.0 1 121517 17181819191919
1.0 2.5 1 151922 23242526272728
1.0 3.0 1 172327 29323335363738
1.0 3.5 1 182732 35394344474849
1.0 4.0 1 193036 41475055596162
1.0 4.5 1 203240 46545965717476
1.0 5.0 1 213544 51616876848992
1.5 1.0 1 11 1212 13131313131313
1.5 1.5 1 131516 16171717171818
1.5 2.0 1 151920 21222323242424
1.5 2.5 1 172325 27293031323232
1.5 3.0 1 192630 33363739414242
1.5 3.5 1 202935 38434649515354
1.5 4.0 1 213239 44505459636567
1.5 4.5 1 213443 49576369757981
1.5 5.0 1 223646 54647180889396
2.0 1.0 1 171819 19191919202020
2 10 11 11 12121212121212
2.0 1.5 1 182122 23232424242424
2 131415 16161616171717
2.0 2.0 1 202426 27282930303131
2 151820 20212222232323
2.0 2.5 1 212730 32343637383939
2 172225 26282930313131
2.0 3.0 1 213035 38414345474849
2 182529 32353738404141
2.0 3.5 1 223339 43485154585960
2 192934 38424548515253
2.0 4.0 1 233543 48555964697273
2 203239 43505358626466
2.0 4.5 1 233746 53626874818587
2 213442 49576268747880
2.0 5.0 1 243949 576876859499 102
2 223646 53647179889295
2.5 1.0 1 252627 27282828282828
2 141516 16161616161616
2.5 1.5 1 252830 31313232333333
2 161819 20202021212121
2.5 2.0 1 253133 35363738393939
2 17212324 252627272727
2.5 2.5 1 253337 39424345464747
2 192528 3032 3
...

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5.4 This test method is free from the interference caused by nonaqueous volatile material. Such material, when present, is erroneously measured as moisture by oven-drying methods, the extent of the error depending u...
SCOPE
1.1 This test method covers the determination of the amount of moisture present in grease wool, scoured wool, carded wool, garnetted wool, wool top and intermediate wool products, and rovings, by distillation with toluene.  
1.2 Equations are given for calculating the amount of water present as moisture content (as-received basis) and moisture regain (dry fiber) basis. The term that corresponds to the basis used in the calculation and report must always be stated.  
1.3 This test method is not applicable to material known to contain any steam-distillable, water-soluble matter. If it is suspected that such matter is present, the method should be used with caution.  
1.4 Xylene or other solvents should not be substituted for toluene as no other solvents have been evaluated for use in this standard.  
Note 1: The determination of moisture in wool by oven-drying is covered in Test Method D1576 and for textile materials in general in Test Methods D2654. A method for sampling wool for the determination of moisture in wool is covered in Practice D2525.  
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.For specific safety hazard statements, see Section 8.  
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 D2130-22(Test Method)
Standard Test Method for Diameter of Wool and Other Animal Fibers by Microprojection

SIGNIFICANCE AND USE
5.1 This test method specifies a sampling and testing procedure for the measurement of average fiber diameter and variation in diameter of animal fibers as required in Test Method D2968.  
5.2 Test Method D2130 for testing wool and other animal fibers for average fiber diameter is considered satisfactory for acceptance testing of commercial shipments since current estimates of between-laboratory precision are acceptable and the method has been used extensively in the trade for acceptance testing. In cases of disagreement arising from differences in values reported by the purchaser and the seller when using this method for acceptance testing, the statistical bias, if any, between the laboratory of the purchaser and the laboratory of the seller should be determined with each comparison being based on the testing of specimens randomly drawn from one sample of material of the type being evaluated.
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1.1 This test method covers a procedure, using the microprojector, for the determination of the average fiber diameter and the fiber diameter variation on wool and other animal fibers, such as mohair, cashmere, alpaca, camel's hair, etc. (Note 1) in their various forms.  
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.
Note 1: This test method may also be applied to any fibers having a round cross section and accordingly may be used many times for melt-spun man-made fibers such as polyamides, polyesters, and glass; also it may be applied to a limited number of polyacrylics and regenerated cellulose type fibers. The values given in Appendix X1 for density and correction factors, however, apply only to wool and should not be used for other fibers. For suitable values for the density of other fibers, see Table 5 in Test Methods D629, Quantitative Analysis of Textiles.
Note 2: In subsequent sections of this test method, the term “wool” also signifies mohair or other fibers if the circumstances are applicable.
Note 3: For fineness specifications for wool, wool top, mohair, mohair top, alpaca, and cashmere, refer to Specifications D3991 and D3992, Specification D2252, Test Method D2816.  
1.3 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.  
1.4 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 D2524-22(Test Method)
Standard Test Method for Breaking Tenacity of Wool Fibers, Flat Bundle Method— 18 in. (3.2 mm) Gage Length

SIGNIFICANCE AND USE
5.1 Test Method D2524 for testing wool fibers for tenacity is considered satisfactory for acceptance testing when the participating laboratories, using a reference wool, have shown acceptable between-laboratory precision. It is recommended that any program of acceptance testing be preceded by an interlaboratory check in the laboratory of the purchaser and the laboratory of the seller on replicate specimens of samples of the material to be evaluated. In cases of dispute, the statistical bias, if any, between the laboratory of the purchaser and the seller should be determined with each comparison being based on testing randomized specimens from one sample of material of the type being evaluated.  
5.2 Values obtained from flat bundle tenacity show a good correlation with values obtained from single fiber tests and require much less time.  
5.3 The basic differences between the procedures described in Test Method D2524 and those described in Test Method D1294 lie in the manner of clamping the bundles and the shorter gage length employed. The special clamps used in this method allow quicker and easier bundle preparation; however, for Test Method D1294 no special clamps are required. Closer agreement with single fiber tenacity is also obtained with Test Method D2524 than when using the procedure in Test Method D1294.  
5.4 As the observed tenacity of fibers depends in part on the type of tensile testing machine used and the time required to break the specimen, results obtained with the different types of machines which may be used in this method will not necessarily agree. The machines specifically designed for bundle testing are CRL testers which operate at a loading rate of 1 kgf/s and therefore reach the breaking force at variable times in the order of 5 s. CRE and CRT type machines would be expected to produce somewhat different results not only because of the inherent difference in operation but because CRE and CRT type machines are to be operated at a rate to ac...
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1.1 This test method covers the determination of the breaking tenacity of wool fibers as a flat bundle with a 1/8 in. (3.2 mm) clamp separation.  
1.2 This test method is especially adapted to the fiber bundle clamps and strength testing instruments specified, but may be used on other tensile testing machines when equipped with appropriate adapters to accommodate the prescribed clamps.  
1.3 This test method is applicable to wool in any form which can be hand-combed into small bundles of parallelized fibers.  
Note 1: Other test methods for measuring breaking tenacity of fiber bundles include Test Methods D1294, D1445, and D540.  
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 D2968-22(Test Method)
Standard Test Method for Med and Kemp Fibers in Wool and Other Animal Fibers by Microprojection

SIGNIFICANCE AND USE
5.1 Test Method D2968 for the determination of med and kemp fibers by microprojection may be used for the acceptance testing of commercial shipments of wool and other animal fibers, but caution is advised since only a few types of animal fibers have been subjected to interlaboratory tests to ascertain the precision of tests for med and kemp fibers by this test method. Comparative tests as directed in 5.1.1 may be advisable.  
5.1.1 In case of a dispute arising from differences in reported test results when using Test Method D2968 for acceptance testing of commercial shipments, the purchaser and the supplier should conduct comparative tests to determine if there is a statistical bias between their laboratories. Competent statistical assistance is recommended for the investigation of bias. As a minimum, the two parties should take a group of test specimens which are as homogeneous as possible and which are from a lot of material of the type in question. The test specimens should then be randomly assigned in equal numbers to each laboratory for testing. The average results from the two laboratories should be compared using Student's t-test for unpaired data and an acceptable probability level chosen by the two parties before testing is begun. If a bias is found, either its cause must be found and corrected, or the purchaser and the supplier must agree to interpret future test results in view of the known bias.  
5.2 Knowledge of the incidence of med fibers and kemp fibers in wool and other animal fibers is of importance to manufacturers of woven or knitted fabrics because of the apparent dye resistance and light reflectance qualities of these fibers. This is not to imply that all kemp fibers will resist dye and all med fibers will accept dye normally. In practice, a proportion of kemp fibers will appear normal after dyeing and a proportion of med fibers will appear chalky white after dyeing. From the perspective of visual and aesthetic problems, medullated fibers hav...
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1.1 This test method covers the determination by microprojection of the percentage of medullated fibers (med and kemp fibers) in wool or other animal fibers such as mohair, cashmere, alpaca, or camel's hair in their various forms.  
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 D1294-22(Test Method)
Standard Test Method for Tensile Strength and Breaking Tenacity of Wool Fiber Bundles 1-in. (25.4 mm) Gage Length

SIGNIFICANCE AND USE
5.1 Test Method D1294 for the determination of tensile strength may be used for the acceptance testing of commercial shipments of wool, but caution is advised since technicians may fail to get good agreement between results. Comparative tests as directed in 5.1.1 may be advisable.  
5.1.1 If there are differences of practical significance between reported test results for two laboratories (or more), comparative test should be performed to determine if there is a statistical bias between them, using competent statistical assistance. As a minimum, use the samples for such a comparative test that are as homogenous as possible, drawn from the same lot of material as the samples that resulted in disparate results during initial testing and randomly assigned in equal numbers to each laboratory. The test results from the laboratories involved should be compared using a statistical test for unpaired data, a probability level chosen prior to the testing series. If bias is found, either its cause must be found and corrected, or future test results for that material must be adjusted in consideration of the known bias.  
5.2 This test method is useful in studying the relationship between fiber strength and product quality; results should be considered comparative rather than fundamental since the strength found will be lower than the sum of the strengths of the individual fibers present due to slight differences in tensioning.  
5.3 Elongation may be obtained also but the accuracy of elongation measurements is limited and their determination is, therefore, not included as a formal part of this test method.  
5.4 The basic differences between the procedures employed in this test method and those of Test Method D2524 are in the gage lengths employed and the methods of clamping. In Test Method D2524, specific clamps are required whereas in Test Method D1294, any conventional clamps may be used. Results for breaking load determined by Test Method D2524 average 30 % higher than ...
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1.1 This test method covers the determination of the breaking force (or load) and estimation of the tensile strength and tenacity of wool fiber bundles with a 1-in. (25.4 mm) gage length. A procedure for preparation of the fiber bundle is included.  
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. Because the instrument is calibrated in inch-pound units, inch-pound units are shown first, contrary to Committee D13 policy.  
Note 1: For other methods of measuring breaking tenacity of fiber bundles, refer to Test Methods D1445 and D2524.
Note 2: This test method can be used for other fibers that lend themselves to the same kind of preparation but the difference in density must be taken into account when calculating the tensile strength. It is not necessary to know or correct for the density of a fiber when calculating breaking tenacity.  
1.3 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.  
1.4 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 D8394-21(Test Method)
Standard Test Method for Automated Measurement of Maturity, Fineness, Ribbon Width, and Micronaire of Cotton Fibers

SIGNIFICANCE AND USE
5.1 Cotton fiber that is on average finer and more mature is more desirable than coarse or immature fiber, although distinction between these qualities cannot be made quickly and accurately using current test methods. Immature fibers break more easily during processing and have a tendency to form into neps (small entanglements) during processing in the spinning mill. These consequences adversely affect yarn and fabric quality and appearance. Yarn and fabric produced from immature fiber is typically also less lustrous and does not take up dye consistently so yarn and fabric appearance may be different after dyeing.  
5.2 Maturity has a high positive correlation with fiber length and strength but genetic differences and differences in fiber wall thickness caused by plant diseases, soil, and water conditions during the growing season interfere with this relationship.  
5.2.1 Fine fibers are required for fine count yarn manufacture and fiber fineness affects yarn count, evenness and strength. Both fineness and ribbon width are strong genetic traits evident between species and affected by growing conditions within species.  
5.2.2 Micronaire has traditionally been used as a measure of fiber fineness although the value actually measures fiber specific surface area or surface area per unit weight. As a result, micronaire varies concomitantly with both maturity and fineness (see Fig. 2). Maturity and fineness are related to micronaire via Lord’s equation.4
FIG. 2 Relationship Between Micronaire (X), Fineness (H), and Maturity (M)  
5.3 Cottonscope values have been judged against fineness, maturity and ribbon width values produced by examination of thousands of individual, magnified fiber cross-sections. Relationships with equivalent values by these and other older test methods are highly significant5,6 particularly if the number of cross-sections analyzed is high (>3000) and the cross-sections are carefully prepared and measured. Cottonscope measures approximately 20,...
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1.1 This test method covers the determination of linear density (gravimetric fineness hereafter stated as fineness), maturity, micronaire, and ribbon width of cotton fibers from a loose, chemically untreated sample taken before harvest, during ginning, during mill processing or unraveled from raw (undyed) yarn or fabric.  
1.2 This test method requires the use of an integrated instrument, for example, the Cottonscope (see Fig. 1), that measures the maturity, fineness, ribbon width, and micronaire of cotton fiber.2
FIG. 1 Cottonscope Instrument
Note 1: For another test method to determine the maturity of cotton fibers, refer to Test Method D1442.  
1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this 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 D6961/D6961M-09(2021)(Test Method)
Standard Test Method for Color Measurement of Flax Fiber

SIGNIFICANCE AND USE
5.1 Few standards exist to objectively judge flax quality. Color is an important factor in the quality of flax fiber. Natural variations in raw flax fiber, various processing steps, fiber blending, and a wide range of end uses contribute to the need for a standard method of objectively measuring the color of flax fiber. Spectrophotometic data provide an accurate, precise determination of the color of flax fiber. Colorimetric data are obtained through specimen measurement by combining specimen spectral data with data representing a CIE standard observer and a CIE standard illuminant, as described in Practice E308.  
5.2 If there are differences of practical significance between reported test results for two (or more) laboratories, comparative tests should be performed to determine if there is a statistical bias between them, using competent statistical assistance. As a minimum, use the samples for such a comparative test that are as homogeneous as possible, drawn from the same lot of material as the samples that resulted in disparate results during initial testing and randomly assigned in equal numbers to each laboratory. The results from the laboratories involved should be compared using a statistical test for unpaired data, a probability level chosen prior to the testing series. If a bias is found, either its cause must be found and corrected, or future test results for that fiber sample type must be adjusted in consideration of the known bias.
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1.1 This test method covers the instrumental color measurement of flax fiber.  
1.2 The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system are not necessarily exact equivalents; therefore, to ensure conformance with the standard, each system shall be used independently of the other, and values from the two systems shall not be combined.  
1.3 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.  
1.4 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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