ASTM D2462-90(2001)

NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
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Designation:D2462–90(Reapproved 2001)
Standard Test Method for
Moisture in Wool by Distillation With Toluene
This standard is issued under the fixed designation D 2462; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (e) indicates an editorial change since the last revision or reapproval.
1. Scope D 2525 Practice for Sampling Wool for Moisture
D 2654 Test Methods for Moisture in Textiles
1.1 Thistestmethodcoversthedeterminationoftheamount
D 3333 Practice for Sampling Man-Made Staple Fibers,
ofmoisturepresentingreasewool,scouredwool,cardedwool,
Sliver, or Tow for Testing
garnetted wool, wool top and intermediate wool products, and
E 123 Specification for Apparatus for Determination of
rovings, by distillation with toluene.
Water by Distillation
1.2 Equations are given for calculating the amount of water
present as moisture content (as-received basis) and moisture
3. Terminology
regain (dry fiber) basis. The term that corresponds to the basis
3.1 Definitions:
used in the calculation and report must always be stated.
3.1.1 greasewool,n.—wooltakenfromthelivingsheepand
1.3 This test method is not applicable to material known to
which has not been commercially scoured.
contain any steam-distillable, water-soluble matter. If it is
3.1.2 moisture content, n.—the amount of moisture in a
suspected that such matter is present, the method should be
material determined under prescribed conditions and expressed
used with caution.
as a percentage of the mass of the moist material, that is, the
1.4 Xylene or other solvents should not be substituted for
original mass comprising the oven-dried substance plus any
toluene as no other solvents have been evaluated for use in this
moisture present.
standard.
3.1.2.1 Discussion—The term “mass” is the correct desig-
NOTE 1—The determination of moisture in wool by oven-drying is
nation for the property commonly designated as “weight.” A
covered in Test Method D 1576 and for textile materials in general in Test
slight amount of residual moisture may not be removed from a
Methods D 2654. A method for sampling wool for the determination of
specimen subjected to oven drying because of the relative
moisture in wool is covered in Practice D 2525.
humidity of the ambient air. The amount of moisture retained
1.5 This standard does not purport to address all of the
by a specimen may be estimated from published data. There
safety concerns, if any, associated with its use. It is the
may also be a slight additional loss in mass caused by the
responsibility of the user of this standard to establish appro-
evaporation of volatile material other than water, the amount
priate safety and health practices and determine the applica-
depending on the characteristics of any added oils or emul-
bility of regulatory limitations prior to use. For specific safety
sions.
hazard statements, see Section 8.
3.1.3 moisture-free, adj.—the condition of a material that
has been exposed in an atmosphere of desiccated air until there
2. Referenced Documents
is no further significant change in its mass (see Discussion
2.1 ASTM Standards:
under 3.1.2)
D 123 Terminology Relating to Textiles
3.1.3.1 Discussion—Heatingthematerialandthedesiccated
D 1060 Practice for Core Sampling of Raw Wool in Pack-
air to temperatures as high as 110°C increases the rate of
ages for Determination of Percentage of Clean Wool Fiber
moisture loss but does not change the final equilibrium mass of
Present
the moisture-free material.
D 1576 TestMethodforMoistureinWoolbyOven-Drying
3.1.4 moisture regain, n.—the amount of moisture in a
D 1776 Practice for Conditioning Textiles for Testing
material determined under prescribed conditions and expressed
D 2258 Practice for Sampling Yarn for Testing
as a percentage of the mass of the moisture-free material (see
D 2495 Test Method for Moisture in Cotton by Oven-
moisture content).
Drying
3.1.4.1 Discussion—In this test method, the material is
considered to be oven-dried after drying as described in
Section 10.
ThistestmethodisunderthejurisdictionofASTMCommitteeD13onTextiles,
and is the direct responsibility of Subcommittee D13.13 on Wool and Wool Felt.
Current edition approved Aug. 31, 1990. Published October 1990. Originally
published as D 2462–66. Last previous edition D 2462 – 77 (1983). Annual Book of ASTM Standards, Vol 07.02.
2 4
Annual Book of ASTM Standards, Vol 07.01. Annual Book of ASTM Standards, Vol 14.02.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
D2462
3.1.5 oven-dried, adj.—the condition of a material that has contentofthesampleorspecimenfromtheresultsobservedon
been heated under prescribed conditions of temperature and the stabilized specimen.
humidity until there is no further significant change in its mass 4.2 The specimen is immersed in water-saturated toluene
(see 3.1.2). which is then heated, the distilled water vapor and solvent
3.1.5.1 Discussion—An oven-dried material will retain a vapor are condensed and collected in a graduated trap, wherein
small amount of moisutre which is dependent on the tempera- the water separates and settles to the bottom. After cooling in
tureandrelativehumidityoftheatmosphereincontactwiththe a water bath to achieve a specified temperature, the volume of
materialduringthedrying process.An oven-dried materialwill water collected in the trap is read from the graduated trap and
only be moisture-free when the air supplied to the drying oven converted to its equivalent weight.
has been previously desiccated. 4.3 Results are calculated as percent moisture content or
3.1.6 pulled wool, n.—wool taken from the pelt of a percent moisture regain using the appropriate equation.
slaughtered sheep and which has not been commercially
5. Significance and Use
scoured. (syn. slipe wool, skin wool).
3.1.7 raw wool, n.—wool or hair of the sheep in the grease,
5.1 Test Method D 2462 for testing for moisture in wool is
pulled, or scoured state. (See also scoured wool.)
considered satisfactory for acceptance testing of commercial
3.1.8 recycled wool, n.—as defined in the Wool Products
shipments since current estimates of between-laboratory pre-
Labeling Act as amended in 1980, “the resulting fiber when
cision are acceptable.
wool has been woven or felted into a wool product which,
5.1.1 In case of a dispute arising from differences in
without ever having been utilized in any way by the ultimate
reported test results when using Test Method D 2462 for
consumer, subsequently has been made into a fibrous state, or
acceptance testing of commercial shipments, the purchaser and
the resulting fiber when wool or reprocessed wool has been
the supplier should conduct comparative testing to determine if
spun, woven, knitted, or felted into a wool product which, after
there is a statistical bias between their laboratories. Competent
having been used in any way by the ultimate consumer,
statistical assistance is recommended for the investigation of
subsequently has been made into a fibrous state.”
the bias.As a minimum, the two parties should take a group of
3.1.8.1 Discussion—In the amended Act of 1980, the term
test specimens that are as homogenous as possible and that are
“recycled wool” replaced the terms “reprocessed wool” and
from a lot of the type material in question. The test specimens
“reused wool.”
should be assigned in equal numbers to each laboratory for
3.1.9 scoured wool, n.—wool from which the bulk of
testing.Theaverageresultsfromthetwolaboratoriesshouldbe
impurities has been removed by an aqueous or solvent washing
compared using Student’s t-Test for unpaired data and an
process.
acceptance probability level chosen by the two parties before
3.1.9.1 Discussion—Although it is no longer in its original
the test is begun. If a bias is found, either its cause must be
raw state, scoured wool is generally accepted as raw wool.
found and corrected or the purchaser and the supplier must
3.1.10 virgin wool, n.—as defined in the Wool Products
agree to interpret future test results in light of the known bias.
Labeling Act, “the terms 8virgin’ or 8new’ as descriptive of a
5.2 This test method is the preferred method for all suitable
wool product, or any fiber or part thereof, shall not be used
samples of wool where it is important to obtain a result free
when the product or part so described is not composed wholly
from the possible biases, introduced by the conditions dis-
ofneworvirginfiberwhichhasneverbeenreclaimedfromany
cussed in 5.3 and 5.4.
spun, woven, knitted, felted, braided, bonded, or otherwise
5.3 Thistestmethodisfreefromtheinterferencescausedby
manufactured or used product.”
differentconditionsofambientatmospheresuchasmightaffect
3.1.11 wool, n.—the fibrous covering of sheep, Ovis spe-
theresultsofoven-drying.Aslightamountofresidualmoisture
cies.
may be retained in a specimen subjected to oven-drying
3.1.11.1 Discussion—For the purposes of this method, the
because of the relative humidity of the ambient air; however,
word wool is used in the generic sense, and includes both wool
the amount of moisture retained may be estimated from
as defined in the Wool Products Labeling Act of 1939 as well
published data.
as recycled wool as defined in the amended Act of 1980.
5.4 This test method is free from the interference caused by
3.1.12 wool, n. —as defined in the Wool Products Labeling
nonaqueous volatile material. Such material, when present, is
Act of 1939, “the fiber from the fleece of the sheep or lamb, or
erroneouslymeasuredasmoisturebyoven-dryingmethods,the
hair of theAngora goat or Cashmere goat (and may include the
extent of the error depending upon the amount and character-
so called specialty fibers from the hair of the camel, alpaca,
istics of any added oils or finishes.
llama, and vicuna) which has never been reclaimed from any
5.5 This test method is relatively cumbersome, time con-
woven or felted wool product.
suming, and costly compared to oven-drying, and is not
3.1.13 For definitions of other textile terms used in this test
recommended for routine process control, in-plant evaluations,
method, refer to Terminology D 123.
or for other purposes where a high degree of accuracy is not
necessary. The cost of operation can be reduced somewhat by
4. Summary of Test Method
4.1 Asample or specimen of wool or material made of wool
is weighed, then stabilized in the laboratory atmosphere in
Toner, R. K., Bowen, C. F., and Whitwell, J. C., “Equilibrium Moisture
which the specimen is prepared, and reweighed.Any resulting
Relations for Textile Fibers,” Textile Research Journal, Vol 17, January 1947, pp.
change in mass is used to calculate the original moisture 7–18.
D2462
redistilling the used toluene, which is then suitable for reuse a reflux condenser with a graduated water trap. Reflux for 1 h
without further treatment. or until water no longer accumulates in the trap. Assume the
5.6 Unlike an oven-drying method, any moisture gained or toluene in the flask to be water-saturated and store in glass-
lost by a specimen after its mass has been determined will stoppered bottles until used.
appear as a direct error in the final result. Since one of the
7.2 Potassium Dichromate Cleaning Solution—Prepare this
principal uses of the method is to determine the average
solution by mixing 35 cm (mL) of a saturated (at room
moisturepresentinlargelotsofwoolorwoolproductsexposed
temperature) potassium dichromate solution with 1000 cm
to variable atmospheric conditions, numerous laboratory
(mL) of concentrated sulfuric acid.
samples and test specimens are common.To avoid errors of the
type mentioned above, this procedure includes provisions for
8. Hazards
stabilizing the sample(s) in the laboratory atmosphere so that,
8.1 Toluene is flammable and slightly toxic. It should be
during the time necessary for selecting, weighing, and trans-
used in a well-ventilated area, for example, under a hood, to
ferring the specimens to flasks, gain or loss of moisture which
prevent accumulation of vapors.
cannot be accounted for will be minimized. A further advan-
tage of the stabilizing process is realized in cases where the
9. Sampling
interest is solely in the average moisture content of the sample,
and the actual moisture content within the sample is highly 9.1 Lot Sample—As a lot sample for acceptance testing,
variable. By stabilizing the sample before selecting the speci-
take at random the number of shipping containers directed in
mens, equal precision can be achieved with fewer specimens. applicable material specification or other agreement between
the purchaser and the supplier, such as an agreement to use
6. Apparatus
Practice D 2525 for bales of fiber and containers of top or
6.1 Flask, Erlenmeyer, wide-mouth, 1000 cm (mL) capac-
sliver or to use Practice D 2258 for beams or cases of yarn.
ity (takes a No. 11 stopper). Consider shipping containers to be the primary sampling unit.
6.2 Distilling Receiver, Dean & Stark,10cm (mL) capac-
3 NOTE 4—An adequate specification or other agreement between the
ity, graduated in 0.1 cm (mL).
purchaserandsupplierrequirestakingintoaccountthevariabilitybetween
shipping containers, between laboratory sampling units within a shipping
NOTE 2—The tolerance on the accuracy of the graduations specified in
container, and test specimens within a laboratory sampling unit to produce
Specification E 123 for this apparatus is 6 0.1 cm . If greater accuracy is
a sample plan with a meaningful producer’s risk, consumer’s risk,
required for a test result, the graduated trap(s) used should be calibrated.
acceptable quality level, and limiting quality level.
NOTE 3—Illustrations of acceptable forms of the glass apparatus
required by this method appear in Specification E 123.
9.2 Use extreme care to prevent gain or loss of moisture
6.3 Condenser, Liebig, sealed, with 500-mm jacket.
during the sampling operation and in the transfer of material to
6.4 Balance, capacity of at least 500 g with a sensitivity of
the sampling container. Weigh each portion of the sample and
0.05 g.
its container immediately after sampling. Subtract the tare
6.5 Heater, for distillation apparatus, electrical with vari-
mass of the container to obtain the net mass at time of
able heat control, and arranged so that the surface of the flask
sampling, M.
above the lowest solution level is not heated by direct
9.3 Laboratory Sample—As a laboratory sample for accep-
radiation.
tance testing, proceed as follows:
6.6 Water Bath, with thermostatic controls, maintained at a
9.3.1 For
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