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ASTM B173-10(2015)

(Specification)

Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors

Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors

ABSTRACT
This specification covers bare rope-lay-stranded conductors having concentric-stranded members made from round copper wires, either uncoated or coated with tin, lead, or lead-alloy for use as electrical conductors. Coated wires shall include only those wires with finished diameters and densities substantially equal to the respective diameters and densities of uncoated wires. The rope-lay-stranded copper conductors under this specification are classified either as Class G or Class H. Requirements for joint construction (by soldering, brazing, or welding), lay length, and strand construction are detailed. Tests for the electrical properties of wires composing conductors made from soft or annealed copper wire, bare or coated, shall be made before stranding, while tests for the physical properties (such as elongation) may be made upon the wires before stranding or upon wires removed from the completed stranded conductors, but need not be made upon both. Elongation tests to determine compliance shall not be made on the conductor as a unit. If a tinning, lead-coating, or lead-alloy-coating test is required, it shall be made on the wires prior to stranding. The method of calculating mass, cross-sections and electrical resistance, and the prescribed density of copper to be taken for calculations are given.
SCOPE
1.1 This specification covers bare rope-lay-stranded conductors having concentric-stranded members made from round copper wires, either uncoated or coated with tin, lead, or lead-alloy for use as electrical conductors (Explanatory Note 1 and Note 2).  
1.2 Coated wires shall include only those wires with finished diameters and densities substantially equal to the respective diameters and densities of uncoated wires.  
1.3 The values stated in inch-pound or SI units are to be regarded separately as standard. Each system shall be used independently of the other. Combining values from the two systems may result in nonconformance with the specification. For conductor sizes designated by AWG or kcmil, the requirements in SI units have been numerically converted from corresponding values, stated or derived, in inch-pound units. For conductor sizes designated by SI units only, the requirements are stated or derived in SI units.  
1.3.1 For density, resistivity, and temperature, the values stated in SI units are to be regarded as standard.

General Information

Status
Historical
Publication Date
31-Mar-2015
ICS
29.240.20 - Power transmission and distribution lines
Technical Committee
B01 - Electrical Conductors
Drafting Committee
B01.04 - Conductors of Copper and Copper Alloys
Current Stage
Ref Project

Relations

Replaces
ASTM B173-10 - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors
Effective Date
01-Apr-2015
Replaced By
ASTM B173-17 - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors
Effective Date
01-Apr-2017
Referred By
ASTM B172-17 - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Bunch-Stranded Members, for Electrical Conductors
Effective Date
01-Apr-2015
Referred By
ASTM F2321-23 - Standard Specification for Flexible and Rigid Insulated Temporary By-Pass Jumpers
Effective Date
01-Apr-2015
Referred By
ASTM F2249-23 - Standard Specification for In-Service Test Methods for Temporary Grounding Jumper Assemblies Used on De-Energized Electric Power Lines and Equipment
Effective Date
01-Apr-2015
Referred By
ASTM B226-11(2021) - Standard Specification for Cored, Annular, Concentric-Lay-Stranded Copper Conductors
Effective Date
01-Apr-2015
Referred By
ASTM B8-11(2017) - Standard Specification for Concentric-Lay-Stranded Copper Conductors, Hard, Medium-Hard, or Soft
Effective Date
01-Apr-2015
Referred By
ASTM F855-23 - Standard Specifications for Temporary Protective Grounds to Be Used on De-energized Electric Power Lines and Equipment
Effective Date
01-Apr-2015

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ASTM B173-10(2015) - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical ConductorsASTM B173-10(2015) - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors
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REDLINE ASTM B173-10(2015) - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical ConductorsREDLINE ASTM B173-10(2015) - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors
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REDLINE ASTM B173-10(2015) - Standard Specification for Rope-Lay-Stranded Copper Conductors Having Concentric-Stranded Members, for Electrical Conductors
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Standards Content (Sample)


NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
Designation:B173 −10 (Reapproved 2015)
Standard Specification for
Rope-Lay-Stranded Copper Conductors Having Concentric-
Stranded Members, for Electrical Conductors
This standard is issued under the fixed designation B173; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the U.S. Department of Defense.
1. Scope Wire for Electrical Purposes
B172 Specification for Rope-Lay-Stranded Copper Conduc-
1.1 This specification covers bare rope-lay-stranded con-
torsHavingBunch-StrandedMembers,forElectricalCon-
ductors having concentric-stranded members made from round
ductors
copper wires, either uncoated or coated with tin, lead, or
B189 Specification for Lead-Coated and Lead-Alloy-Coated
lead-alloy for use as electrical conductors (Explanatory Note 1
Soft Copper Wire for Electrical Purposes
and Note 2).
B193 Test Method for Resistivity of Electrical Conductor
1.2 Coated wires shall include only those wires with fin-
Materials
ished diameters and densities substantially equal to the respec-
B263 Test Method for Determination of Cross-Sectional
tive diameters and densities of uncoated wires.
Area of Stranded Conductors
1.3 The values stated in inch-pound or SI units are to be B354 Terminology Relating to Uninsulated Metallic Electri-
cal Conductors
regarded separately as standard. Each system shall be used
independently of the other. Combining values from the two 2.3 American National Standard:
systems may result in nonconformance with the specification. ANSI C42.35 Definitions of Electrical Terms
For conductor sizes designated byAWG or kcmil, the require-
3. Classification
ments in SI units have been numerically converted from
corresponding values, stated or derived, in inch-pound units.
3.1 For the purpose of this specification rope-lay-stranded
For conductor sizes designated by SI units only, the require-
conductors having concentric-stranded members are classified
ments are stated or derived in SI units.
as follows:
1.3.1 For density, resistivity, and temperature, the values
3.1.1 Class G—Conductors consisting of 7 to 61 rope-lay-
stated in SI units are to be regarded as standard.
stranded members, each of which consists of 7 to 19
concentric-stranded wires, with total conductor sizes ranging
2 2
2. Referenced Documents
from No. 14AWG (2.08 mm ) to 5 000 000 cmil (2534 mm ).
(Typical use is for rubber-sheathed conductor, apparatus
2.1 The following documents of the issue in effect at the
conductor, portable conductor, and similar applications.)
time of reference form a part of this specification to the extent
3.1.2 Class H—Conductors consisting of 19 to 91 rope-lay-
referenced herein:
stranded members, each of which consists of 7 to 19
2.2 ASTM Standards:
concentric-stranded wires, with total conductor sizes ranging
B3 Specification for Soft or Annealed Copper Wire
2 2
from No. 9 AWG (6.63 mm ) to 5 000 000 cmil (2534 mm ).
B8 Specification for Concentric-Lay-Stranded Copper
Class K construction produces a conductor with greater flex-
Conductors, Hard, Medium-Hard, or Soft
ibility than class G. (Typical use is for rubber-sheathed cord
B33 Specification for Tin-Coated Soft or Annealed Copper
and applications where flexibility is required such as on
take-up reels over sheaves and extra-flexible apparatus con-
ductor.)
This specification is under the jurisdiction of ASTM Committee B01 on
Electrical Conductors and is the direct responsibility of Subcommittee B01.04 on
4. Ordering Information
Conductors of Copper and Copper Alloys.
Current edition approved April 1, 2015. Published April 2015. Originally
4.1 Orders for material under this specification shall include
approvedin1942toreplaceportionsofB158 – 41 T.Lastpreviouseditionapproved
the following information:
in 2010 as B173 – 10. DOI: 10.1520/B0173-10R15.
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Standards volume information, refer to the standard’s Document Summary page on Available fromAmerican National Standards Institute (ANSI), 25 W. 43rd St.,
the ASTM website. 4th Floor, New York, NY 10036, http://www.ansi.org.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
B173−10 (2015)
4.1.1 Quantity of each size and class; 8.2 Tests for the physical properties of soft or annealed
4.1.2 Conductor size: circular-mil area orAWG (Section 7); copper wire, bare or coated, may be made upon the wires
4.1.3 Class (Section 3 and Tables 1 and 2); before stranding or upon wires removed from the completed
4.1.4 Whether coated or uncoated; if coated, designate type stranded conductors, but need not be made upon both. Care
shall be taken to avoid mechanical injury and stretching when
of coating (see 11.1);
4.1.5 Details of special-purpose lays, if required (see 6.2 removing wires from the conductor for the purpose of testing.
and 6.3) and (Explanatory Note 3);
8.3 The physical properties of wire when tested before
4.1.6 Package size (see 14.1);
stranding shall conform to the applicable requirements of 11.1.
4.1.7 Special package marking, if required (Section 15);
8.4 The physical properties of wires removed from the
4.1.8 Lagging, if required (see 14.2); and
completed stranded conductor shall be permitted to vary from
4.1.9 Place of inspection (Section 13).
the applicable requirements of 11.1 by the following amounts:
(Explanatory Note 4):
5. Joints
8.4.1 AverageofResultsObtainedonAllWiresTested—The
5.1 Necessary joints in wires or in groups of wires shall be
percent minimum elongation may be reduced by the value of
made in accordance with accepted commercial practice, taking
5 % from the values required for unstranded wires as specified
into account the size of the wire or group of wires as related to
by Specifications B3, B33,or B189, as applicable. For
the size of the entire conductor.
example, where the unstranded wire specification requires
minimum elongation of 30 %, wire of that material removed
5.2 Concentric-stranded members forming the completed
from Specification B173 stranded conductor shall meet a
conductor may be joined as a unit by soldering, brazing, or
minimum elongation value of 25 %, a value 5 % reduction.
welding.
8.4.2 Results Obtained on Individual Wires—The percent
5.3 Joints shall be so constructed and so disposed through-
minimum elongation may be reduced by the value of 15 %
out the conductor that the diameter or configuration of the
from the values required for unstranded wires as specified by
completed conductor is not substantially affected, and so that
Specifications B3, B33,or B189, as applicable. For example,
the flexibility of the completed conductor is not adversely
where the unstranded wire specification requires minimum
affected.
elongation of 30 % wire of that material removed from
Specification B173 stranded conductor shall meet a minimum
6. Lay (Explanatory Note 3)
elongation value of 15 %. If the reduction results in minimum
6.1 Conductors of the same size and description furnished
elongation of less than 5 %, a minimum of 5 % shall apply.
on one order shall have the same lay.
8.5 In the event that the requirements prescribed in 8.4.2 are
6.2 The length of lay of the outer layer of the rope-lay
met, but those prescribed in 8.4.1 are not met, a retest shall be
stranded conductor shall be not less than 8 nor more than 16
permittedwhereinallwiresofaconductorof100wiresorless,
times the outside diameter of the completed conductor. The
or 100 wires selected at random throughout a conductor of
length of lay of the other layers shall be at the option of the
more than 100 wires shall be tested for the purpose of final
manufacturer unless specifically agreed upon. The direction of
determination for conformance to 8.4.
lay of the outer layer shall be left-hand, unless the direction of
8.6 Elongation tests to determine compliance shall not be
lay is specified otherwise by the purchaser.The direction of lay
made on the conductor as a unit.
oftheotherlayersshallbereversedinsuccessivelayers,unless
otherwise agreed upon between the manufacturer and the
8.7 If a tinning, lead-coating, or lead-alloy-coating test is
purchaser.
required, it shall be made on the wires prior to stranding.
6.3 The length of lay of the individual wires composing the
9. Density
stranded members shall be not less than 8 nor more than 16
times the outside diameter of that layer. Unless otherwise
9.1 For the purpose of calculating mass, cross sections, etc.,
specified, the direction of lay of the outer layer of wires shall the density of copper shall be taken as 8.89 g/cm (0.32117
be at the option of the manufacturer. The direction of lay shall
lb/in. ) at 20°C (Explanatory Note 5).
be reversed in successive layers, unless otherwise agreed upon
between the manufacturer and the purchaser.
10. Mass and Resistance
10.1 The mass and electrical resistance of a unit length of
7. Construction
stranded conductor are a function of the length of lay. The
7.1 The area of cross section and the number and diameter
approximate mass and electrical resistance may be determined
of wires for a variety of strand constructions in general use are using the standard increments shown in Explanatory Note 6.
shown in Tables 1 and 2.
When greater accuracy is desired, the increment based on the
specific lay of the conductor may be calculated (Explanatory
8. Physical and Electrical Tests
Note 7).
8.1 Tests for the electrical properties of wires composing 10.2 The maximum electrical resistance of a unit of
conductors made from soft or annealed copper wire, bare or stranded conductor shall not exceed 2 % over the nominal DC
coated, shall be made before stranding. resistance shown in Table 1 and Table 2. When the DC
B173−10 (2015)
A
TABLE 1 Constructional and DC Resistance Requirements of Rope-Lay Stranded Copper Conductors Having Concentric-Stranded Members—Class G
B
Completed Conductor Uncoated Copper Tinned Copper
Area of Cross
Diameter Nominal DC
Nominal Nominal Maximum DC Nominal DC Maximum DC
Number
Section
of Resistance
Size Diameter Mass Resistance @20C Resistance @20C Resistance @20C
Number of
Wires @20C
AWG
of Wires
lb/
Wires in Each
ohm/ ohm/ ohm/ ohm/
cmil mm in. mm in. mm 1000 kg/km ohm/km ohm/km ohm/km ohm/km
Member
1000 ft 1000 ft 1000 ft 1000 ft
ft
5 000 000 2534 . . . 1159 0.0657 1.67 19 2.957 75.1 16 052 23 888 0.00220 0.00721 0.00224 0.00735 0.00229 0.00750 0.00234 0.00765
4 500 000 2280 . . . 1159 0.0623 1.58 19 2.804 71.2 14 433 21 479 0.00244 0.00801 0.00249 0.00817 0.00254 0.00833 0.00259 0.00850
4 000 000 2027 . . . 1159 0.0587 1.49 19 2.642 67.1 12 814 19 069 0.00275 0.00902 0.00281 0.00920 0.00286 0.00938 0.00292 0.00957
3 500 000 1773 . . . 1159 0.0550 1.40 19 2.475 62.9 11 249 16 741 0.00314 0.0103 0.00320 0.0105 0.00327 0.0107 0.00334 0.0109
3 000 000 1520 . . . 1159 0.0509 1.29 19 2.291 58.2 9635 14 338 0.00366 0.0120 0.00373 0.0122 0.00381 0.0125 0.00389 0.0128
2 500 000 1267 . . . 703 0.0596 1.51 19 2.086 53.0 8012 11 924 0.00440 0.0144 0.00449 0.0147 0.00457 0.0150 0.00466 0.0153
2 000 000 1013 . . . 703 0.0533 1.35 19 1.866 47.4 6408 9536 0.00550 0.0180 0.00561 0.0184 0.00572 0.0188 0.00583 0.0192
1 900 000 963 . . . 703 0.0520 1.32 19 1.820 46.2 6099 9077 0.00579 0.0190 0.00591 0.0194 0.00602 0.0197 0.00614 0.0201
1 800 000 912 . . . 703 0.0506 1.29 19 1.771 45.0 5775 8594 0.00611 0.0200 0.00623 0.0204 0.00635 0.0208 0.00648 0.0212
1 750 000 887 . . . 703 0.0499 1.27 19 1.747 44.4 5617 8358 0.00628 0.0206 0.00641 0.0210 0.00653 0.0214 0.00666 0.0218
1 700 000 861 . . . 703 0.0492 1.25 19 1.722 43.7 5460 8125 0.00647 0.0212 0.00660 0.0216 0.00672 0.0221 0.00685 0.0225
1 600 000 811 . . . 703 0.0477 1.21 19 1.670 42.4 5132 7638 0.00687 0.0225 0.00701 0.0230 0.00715 0.0234 0.00729 0.0239
1 500 000 760 . . . 427 0.0593 1.51 7 1.601 40.7 4772 7102 0.00726 0.0238 0.00741 0.0243 0.00755 0.0248 0.00770 0.0253
1 400 000 709 . . . 427 0.0573 1.46 7 1.547 39.3 4456 6631 0.00778 0.0255 0.00794 0.0260 0.00809 0.0265 0.00825 0.0270
1 300 000 659 . . . 427 0.0552 1.40 7 1.490 37.8 4135 6154 0.00838 0.0275 0.00855 0.0281 0.00871 0.0286 0.00888 0.0292
1 250 000 633 . . . 427 0.0541 1.37 7 1.461 37.1 3972 5911 0.00871 0.0286 0.00888 0.0292 0.00906 0.0297 0.00924 0.0303
1 200 000 608 . . . 427 0.0530 1.35 7 1.431 36.3 3812 5673 0.00907 0.0298 0.00925 0.0304 0.00944 0.0310 0.00963 0.0316
1 100 000 557 . . . 427 0.0508 1.29 7 1.372 34.8 3502 5212 0.00990 0.0325 0.0101 0.0332 0.0103 0.0338 0.0105 0.0345
1 000 000 507 . . . 427 0.0484 1.23 7 1.307 33.2 3179 4731 0.01090 0.0357 0.0111 0.0364 0.0113 0.0372 0.0115 0.0379
900 000 456 . . . 427 0.0459 1.17 7 1.239 31.5 2859 4255 0.0121 0.0397 0.0123 0.0405 0.0126 0.0413 0.0129 0.0421
800 000 405 . . . 427 0.0433 1.10 7 1.169 29.7 2544 3787 0.0136 0.0447 0.0139 0.0456 0.0142 0.0464 0.0145 0.0473
750 000 380 . . . 427 0.0419 1.06 7 1.131 28.7 2383 3546 0.0145 0.0476 0.0148 0.0486 0.0151 0.0495 0.0154 0.0505
700 000 355 . . . 427 0.0405 1.03 7 1.094 27.8 2226 3313 0.0156 0.0510 0.0159 0.0520 0.0162 0.0531 0.0165 0.0542
650 000 329 . . . 427 0.0390 0.99 7 1.053 26.7 2064 3072 0.0168 0.0550 0.0171 0.0561 0.0174 0.0572 0.0177 0.0583
600 000 304 . . . 427 0.0375 0.95 7 1.013 25.7 1908 2840 0.0181 0.0595 0.0185 0.0607 0.0189 0.0619 0.0193 0.0631
550 000 279 . . . 427 0.0359 0.91 7 0.969 24.6 1749 2603 0.0198 0.0650 0.0202 0.0663 0.0206 0.0676 0.0210 0.0690
500 000 253 . . . 259 0.0439 1.12 7 0.922 23.4 1579 2350 0.0217 0.0711 0.0221 0.0725 0.0225 0.0740 0.0230 0.0755
450 000 228 . . . 259 0.0417 1.06 7 0.876 22.3 1425 2120 0.0241 0.0790 0.0246 0.0806 0.0251 0.0822 0.0255 0.0838
400 000 203 . . . 259 0.0393 1.00 7 0.825 21.0 1265 1883 0.0271 0.0889 0.0276 0.0907 0.0282 0.0924 0.0288 0.0942
350 000 177 . . . 259 0.0368 0.93 7 0.773 19.6 1109 1651 0.0310 0.102 0.0316 0.104 0.0322 0.106 0.0328 0.108
300 000 152 . . . 259 0.0340 0.86 7 0.714 18.1 947 1409 0.0361 0.119 0.0368 0.121 0.0376 0.123 0.0384 0.125
250 000 127 . . . 259 0.0311 0.79 7 0.653 16.6 792 1179 0.0434 0.142 0.0443 0.145 0.0451 0.148 0.0460 0.151
211 600 107 0000 133 0.0399 1.01 7 0.599 15.2 667 992 0.0510 0.167 0.0520 0.170 0.0530 0.174 0.0541 0.177
167 800 85.0 000 133 0.0355 0.90 7 0.533 13.5 528 785 0.0643 0.211 0.0656 0.215 0.0668 0.219 0.0681 0.223
133 100 67.4 00 133 0.0316 0.80 7 0.474 12.0 418 622 0.0810 0.266 0.0826 0.271 0.0843 0.276 0.0860 0.282
105 600 53.5 0 133 0
...


This document is not an ASTM standard and is intended only to provide the user of an ASTM standard an indication of what changes have been made to the previous version. Because
it may not be technically possible to adequately depict all changes accurately, ASTM recommends that users consult prior editions as appropriate. In all cases only the current version
of the standard as published by ASTM is to be considered the official document.
Designation: B173 − 10 B173 − 10 (Reapproved 2015)
Standard Specification for
Rope-Lay-Stranded Copper Conductors Having Concentric-
Stranded Members, for Electrical Conductors
This standard is issued under the fixed designation B173; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the U.S. Department of Defense.
1. Scope
1.1 This specification covers bare rope-lay-stranded conductors having concentric-stranded members made from round copper
wires, either uncoated or coated with tin, lead, or lead-alloy for use as electrical conductors (Explanatory Note 1 and Note 2).
1.2 Coated wires shall include only those wires with finished diameters and densities substantially equal to the respective
diameters and densities of uncoated wires.
1.3 The values stated in inch-pound or SI units are to be regarded separately as standard. Each system shall be used
independently of the other. Combining values from the two systems may result in nonconformance with the specification. For
conductor sizes designated by AWG or kcmil, the requirements in SI units have been numerically converted from corresponding
values, stated or derived, in inch-pound units. For conductor sizes designated by SI units only, the requirements are stated or
derived in SI units.
1.3.1 For density, resistivity, and temperature, the values stated in SI units are to be regarded as standard.
2. Referenced Documents
2.1 The following documents of the issue in effect at the time of reference form a part of this specification to the extent
referenced herein:
2.2 ASTM Standards:
B3 Specification for Soft or Annealed Copper Wire
B8 Specification for Concentric-Lay-Stranded Copper Conductors, Hard, Medium-Hard, or Soft
B33 Specification for Tin-Coated Soft or Annealed Copper Wire for Electrical Purposes
B172 Specification for Rope-Lay-Stranded Copper Conductors Having Bunch-Stranded Members, for Electrical Conductors
B189 Specification for Lead-Coated and Lead-Alloy-Coated Soft Copper Wire for Electrical Purposes
B193 Test Method for Resistivity of Electrical Conductor Materials
B263 Test Method for Determination of Cross-Sectional Area of Stranded Conductors
B354 Terminology Relating to Uninsulated Metallic Electrical Conductors
2.3 American National Standard:
ANSI C42.35 Definitions of Electrical Terms
3. Classification
3.1 For the purpose of this specification rope-lay-stranded conductors having concentric-stranded members are classified as
follows:
3.1.1 Class G—Conductors consisting of 7 to 61 rope-lay-stranded members, each of which consists of 7 to 19 concentric-
2 2
stranded wires, with total conductor sizes ranging from No. 14 AWG (2.08 mm ) to 5 000 000 cmil (2534 mm ). (Typical use is
for rubber-sheathed conductor, apparatus conductor, portable conductor, and similar applications.)
This specification is under the jurisdiction of ASTM Committee B01 on Electrical Conductors and is the direct responsibility of Subcommittee B01.04 on Conductors
of Copper and Copper Alloys.
Current edition approved April 1, 2010April 1, 2015. Published May 2010April 2015. Originally approved in 1942 to replace portions of B158 – 41 T. Last previous edition
ε1
approved in 20072010 as B173 – 01aB173 – 10. (2007) . DOI: 10.1520/B0173-10.10.1520/B0173-10R15.
For referenced ASTM standards, visit the ASTM website, www.astm.org, or contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM Standards
volume information, refer to the standard’sstandard’s Document Summary page on the ASTM website.
Available from American National Standards Institute (ANSI), 25 W. 43rd St., 4th Floor, New York, NY 10036, http://www.ansi.org.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
B173 − 10 (2015)
3.1.2 Class H—Conductors consisting of 19 to 91 rope-lay-stranded members, each of which consists of 7 to 19
2 2
concentric-stranded wires, with total conductor sizes ranging from No. 9 AWG (6.63 mm ) to 5 000 000 cmil (2534 mm ). Class
K construction produces a conductor with greater flexibility than class G. (Typical use is for rubber-sheathed cord and applications
where flexibility is required such as on take-up reels over sheaves and extra-flexible apparatus conductor.)
4. Ordering Information
4.1 Orders for material under this specification shall include the following information:
4.1.1 Quantity of each size and class;
4.1.2 Conductor size: circular-mil area or AWG (Section 7);
4.1.3 Class (Section 3 and Tables 1 and 2);
4.1.4 Whether coated or uncoated; if coated, designate type of coating (see 11.1);
4.1.5 Details of special-purpose lays, if required (see 6.2 and 6.3) and (Explanatory Note 3);
4.1.6 Package size (see 14.1);
4.1.7 Special package marking, if required (Section 15);
4.1.8 Lagging, if required (see 14.2); and
4.1.9 Place of inspection (Section 13).
5. Joints
5.1 Necessary joints in wires or in groups of wires shall be made in accordance with accepted commericalcommercial practice,
taking into account the size of the wire or group of wires as related to the size of the entire conductor.
5.2 Concentric-stranded members forming the completed conductor may be joined as a unit by soldering, brazing, or welding.
5.3 Joints shall be so constructed and so disposed throughout the conductor that the diameter or configuration of the completed
conductor is not substantially affected, and so that the flexibility of the completed conductor is not adversely affected.
6. Lay (Explanatory Note 3)
6.1 Conductors of the same size and description furnished on one order shall have the same lay.
6.2 The length of lay of the outer layer of the rope-lay stranded conductor shall be not less than 8 nor more than 16 times the
outside diameter of the completed conductor. The length of lay of the other layers shall be at the option of the manufacturer unless
specifically agreed upon. The direction of lay of the outer layer shall be left-hand, unless the direction of lay is specified otherwise
by the purchaser. The direction of lay of the other layers shall be reversed in successive layers, unless otherwise agreed upon
between the manufacturer and the purchaser.
6.3 The length of lay of the individual wires composing the stranded members shall be not less than 8 nor more than 16 times
the outside diameter of that layer. Unless otherwise specified, the direction of lay of the outer layer of wires shall be at the option
of the manufacturer. The direction of lay shall be reversed in successive layers, unless otherwise agreed upon between the
manufacturer and the purchaser.
7. Construction
7.1 The area of cross section and the number and diameter of wires for a variety of strand constructions in general use are shown
in Tables 1 and 2.
8. Physical and Electrical Tests
8.1 Tests for the electrical properties of wires composing conductors made from soft or annealed copper wire, bare or coated,
shall be made before stranding.
8.2 Tests for the physical properties of soft or annealed copper wire, bare or coated, may be made upon the wires before
stranding or upon wires removed from the completed stranded conductors, but need not be made upon both. Care shall be taken
to avoid mechanical injury and stretching when removing wires from the conductor for the purpose of testing.
8.3 The physical properties of wire when tested before stranding shall conform to the applicable requirements of 11.1.
8.4 The physical properties of wires removed from the completed stranded conductor shall be permitted to vary from the
applicable requirements of 11.1 by the following amounts: (Explanatory Note 4):
8.4.1 Average of Results Obtained on All Wires Tested—The percent minimum elongation may be reduced by the value of 5 %
from the values required for unstranded wires as specified by Specifications B3, B33, or B189, as applicable. For example, where
the unstranded wire specification requires minimum elongation of 30 %, wire of that material removed from Specification B173
stranded conductor shall meet a minimum elongation value of 25 %, a value 5 % reduction.
8.4.2 Results Obtained on Individual Wires—The percent minimum elongation may be reduced by the value of 15 % from the
values required for unstranded wires as specified by Specifications B3, B33, or B189, as applicable. For example, where the
B173 − 10 (2015)
A
TABLE 1 Constructional and DC Resistance Requirements of Rope-Lay Stranded Copper Conductors Having Concentric-Stranded Members—Class G
B
Completed Conductor Uncoated Copper Tinned Copper
Area of Cross
Diameter Nominal DC
Nominal Nominal Maximum DC Nominal DC Maximum DC
Number
Section
of Resistance
Size Diameter Mass Resistance @20C Resistance @20C Resistance @20C
Number of
Wires @20C
AWG
of Wires
lb/
Wires in Each
ohm/ ohm/ ohm/ ohm/
cmil mm in. mm in. mm 1000 kg/km ohm/km ohm/km ohm/km ohm/km
Member
1000 ft 1000 ft 1000 ft 1000 ft
ft
5 000 000 2534 . . . 1159 0.0657 1.67 19 2.957 75.1 16 052 23 888 0.00220 0.00721 0.00224 0.00735 0.00229 0.00750 0.00234 0.00765
4 500 000 2280 . . . 1159 0.0623 1.58 19 2.804 71.2 14 433 21 479 0.00244 0.00801 0.00249 0.00817 0.00254 0.00833 0.00259 0.00850
4 000 000 2027 . . . 1159 0.0587 1.49 19 2.642 67.1 12 814 19 069 0.00275 0.00902 0.00281 0.00920 0.00286 0.00938 0.00292 0.00957
3 500 000 1773 . . . 1159 0.0550 1.40 19 2.475 62.9 11 249 16 741 0.00314 0.0103 0.00320 0.0105 0.00327 0.0107 0.00334 0.0109
3 000 000 1520 . . . 1159 0.0509 1.29 19 2.291 58.2 9635 14 338 0.00366 0.0120 0.00373 0.0122 0.00381 0.0125 0.00389 0.0128
2 500 000 1267 . . . 703 0.0596 1.51 19 2.086 53.0 8012 11 924 0.00440 0.0144 0.00449 0.0147 0.00457 0.0150 0.00466 0.0153
2 000 000 1013 . . . 703 0.0533 1.35 19 1.866 47.4 6408 9536 0.00550 0.0180 0.00561 0.0184 0.00572 0.0188 0.00583 0.0192
1 900 000 963 . . . 703 0.0520 1.32 19 1.820 46.2 6099 9077 0.00579 0.0190 0.00591 0.0194 0.00602 0.0197 0.00614 0.0201
1 800 000 912 . . . 703 0.0506 1.29 19 1.771 45.0 5775 8594 0.00611 0.0200 0.00623 0.0204 0.00635 0.0208 0.00648 0.0212
1 750 000 887 . . . 703 0.0499 1.27 19 1.747 44.4 5617 8358 0.00628 0.0206 0.00641 0.0210 0.00653 0.0214 0.00666 0.0218
1 700 000 861 . . . 703 0.0492 1.25 19 1.722 43.7 5460 8125 0.00647 0.0212 0.00660 0.0216 0.00672 0.0221 0.00685 0.0225
1 600 000 811 . . . 703 0.0477 1.21 19 1.670 42.4 5132 7638 0.00687 0.0225 0.00701 0.0230 0.00715 0.0234 0.00729 0.0239
1 500 000 760 . . . 427 0.0593 1.51 7 1.601 40.7 4772 7102 0.00726 0.0238 0.00741 0.0243 0.00755 0.0248 0.00770 0.0253
1 400 000 709 . . . 427 0.0573 1.46 7 1.547 39.3 4456 6631 0.00778 0.0255 0.00794 0.0260 0.00809 0.0265 0.00825 0.0270
1 300 000 659 . . . 427 0.0552 1.40 7 1.490 37.8 4135 6154 0.00838 0.0275 0.00855 0.0281 0.00871 0.0286 0.00888 0.0292
1 250 000 633 . . . 427 0.0541 1.37 7 1.461 37.1 3972 5911 0.00871 0.0286 0.00888 0.0292 0.00906 0.0297 0.00924 0.0303
1 200 000 608 . . . 427 0.0530 1.35 7 1.431 36.3 3812 5673 0.00907 0.0298 0.00925 0.0304 0.00944 0.0310 0.00963 0.0316
1 100 000 557 . . . 427 0.0508 1.29 7 1.372 34.8 3502 5212 0.00990 0.0325 0.0101 0.0332 0.0103 0.0338 0.0105 0.0345
1 000 000 507 . . . 427 0.0484 1.23 7 1.307 33.2 3179 4731 0.01090 0.0357 0.0111 0.0364 0.0113 0.0372 0.0115 0.0379
900 000 456 . . . 427 0.0459 1.17 7 1.239 31.5 2859 4255 0.0121 0.0397 0.0123 0.0405 0.0126 0.0413 0.0129 0.0421
800 000 405 . . . 427 0.0433 1.10 7 1.169 29.7 2544 3787 0.0136 0.0447 0.0139 0.0456 0.0142 0.0464 0.0145 0.0473
750 000 380 . . . 427 0.0419 1.06 7 1.131 28.7 2383 3546 0.0145 0.0476 0.0148 0.0486 0.0151 0.0495 0.0154 0.0505
700 000 355 . . . 427 0.0405 1.03 7 1.094 27.8 2226 3313 0.0156 0.0510 0.0159 0.0520 0.0162 0.0531 0.0165 0.0542
650 000 329 . . . 427 0.0390 0.99 7 1.053 26.7 2064 3072 0.0168 0.0550 0.0171 0.0561 0.0174 0.0572 0.0177 0.0583
600 000 304 . . . 427 0.0375 0.95 7 1.013 25.7 1908 2840 0.0181 0.0595 0.0185 0.0607 0.0189 0.0619 0.0193 0.0631
550 000 279 . . . 427 0.0359 0.91 7 0.969 24.6 1749 2603 0.0198 0.0650 0.0202 0.0663 0.0206 0.0676 0.0210 0.0690
500 000 253 . . . 259 0.0439 1.12 7 0.922 23.4 1579 2350 0.0217 0.0711 0.0221 0.0725 0.0225 0.0740 0.0230 0.0755
450 000 228 . . . 259 0.0417 1.06 7 0.876 22.3 1425 2120 0.0241 0.0790 0.0246 0.0806 0.0251 0.0822 0.0255 0.0838
400 000 203 . . . 259 0.0393 1.00 7 0.825 21.0 1265 1883 0.0271 0.0889 0.0276 0.0907 0.0282 0.0924 0.0288 0.0942
350 000 177 . . . 259 0.0368 0.93 7 0.773 19.6 1109 1651 0.0310 0.102 0.0316 0.104 0.0322 0.106 0.0328 0.108
300 000 152 . . . 259 0.0340 0.86 7 0.714 18.1 947 1409 0.0361 0.119 0.0368 0.121 0.0376 0.123 0.0384 0.125
250 000 127 . . . 259 0.0311 0.79 7 0.653 16.6 792 1179 0.0434 0.142 0.0443 0.145 0.0451 0.148 0.0460 0.151
211 600 107 0000 133 0.0399 1.01 7 0.599 15.2 667 992 0.0510 0.167 0.0520 0.170 0.0530 0.174 0.0541 0.177
167 800 85.0 000 133 0.0355 0.90 7 0.533 13.5 528 785 0.0643 0.211 0.0656 0.215 0.0668 0.219 0.0681 0.223
133 100 67.4 00 133 0.0316 0.80 7 0.474 12.0 418 622 0.0810 0.266 0.0826 0.271 0.0843 0.276 0.0860 0.282
105 600 53.5 0 133 0.0282 0.72 7 0.423 10.7 333 495 0.102 0.335 0.104 0.342 0.106 0.348 0.108 0.355
83 690 42.4 1 133 0.0251 0.64 7 0.377 9.6 264 393 0.129 0.423 0.132 0.431 0.134 0.440 0.137 0.449
66 360 33.6 2 49 0.0368 0.93 7 0.331 8.4 207 308 0.161 0.528 0.164 0.539 0.167 0.549 0.170 0.560
52 620 26.7 3 49 0.0328 0.83 7 0.295 7.5 164 245 0.203 0.666 0.207 0.679 0.211 0.693 0.215 0.707
41 740 21.1 4 49 0.0292 0.74 7 0.263 6.7 130 194 0.256 0.840 0.261 0.857 0.266 0.873 0.271 0.890
33 090 16.8 5 49 0.0260 0.66 7 0.234 5.9 103 154 0.323 1.06 0.329 1.08 0.336 1.10 0.343 1.12
26 240 13.3 6 49 0.0231 0.59 7 0.208 5.3 81.5 121 0.407 1.34 0.415 1.37 0.423 1.39 0.431 1.42
20 820 10.5 7 49 0.0206 0.52 7 0.185 4.7 64.8 96.5 0.513 1.68 0.523 1.71 0.534 1.75 0.545 1.79
16 510 8.37 8 49 0.0184 0.47 7 0.166 4.2 51.7 77.0 0.647 2.12 0.660 2.16 0.687 2.25 0.701 2.30
13 090 6.63 9 49 0.0163 0.41 7 0.148 3.8 40.6 60.4 0.816 2.68 0.832 2.73 0.867 2.84 0.884 2.90
10 380 5.26 10 49 0.0146 0.37 7 0.131 3.3 32.6 48.5 1.03 3.38 1.05 3.45 1.09 3.59 1.11 3.66

B173 − 10 (2015)
TABLE 1 Continued
B
Completed Conductor Uncoated Copper Tin
...

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This specification covers concentric-lay-stranded conductors made from round-alloy 6201-T81 hard:solution heat treated, cold worked, and then artificially aged wire and round zinc-coated, Zn-5Al-MM coated, aluminum-coated, or aluminum-clad steel core wire for use as overhead electric conductors. Cold-pressure welds, electric-butt welds, and electric-butt, cold-upset welds in the finished individual aluminum alloy wires composing the conductor may be made during the stranding process. The direction of lay of the outside layer of aluminum-alloy wires shall be right-hand. The direction of lay of the aluminum alloy and steel wires shall be reversed in successive layers. The rated strength of a conductor shall be taken as the sum of the strengths of the aluminum alloy and steel components. The mass and electrical resistance of a unit length of stranded conductor shall be calculated. The ares of cross section may be determined by calculations from diameter measurements of the component aluminum wires at any point when measured perpendicularly to their axes.
SCOPE
1.1 This specification covers concentric-lay-stranded conductors made from round aluminum-alloy 6201-T81 hard: solution heat treated, cold worked, and then artificially aged wire and round zinc-coated, Zn-5Al-MM coated, aluminum-coated, or aluminum-clad steel core wire for use as overhead electric conductors (Explanatory Note 1 and Note 2).  
Note 1: The alloy and temper designations conform to ANSI H35.1. Aluminum alloy 6201 corresponds to Unified Numbering System alloy A96201 in accordance with Practice E527.  
1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
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
ASTM B701/B701M-22e1(Specification)
Standard Specification for Concentric-Lay-Stranded Self-Damping Aluminum Conductors, Steel Reinforced (ACSR/SD)

ABSTRACT
This specification covers concentric-lay-stranded self-damping aluminum conductors, steel-reinforced, and its component wires for use as overhead electrical conductors. The tensile strength and elongation requirements of the round and trapezoidal wires shall be the same except for the shape and diameter tolerance. Joints shall not be made in the finished steel wires. The lay factor and direction are specified. The strength and electrical resistance of a complete conductor are calculated. Tests for mechanical and electrical properties of aluminum and steel core wires shall be made before stranding. Gap dimensions shall be measured during fabrication of the conductor.
SCOPE
1.1 This specification covers concentric-lay-stranded self-damping aluminum conductor, steel-reinforced (ACSR/SD), and its component wires for use as overhead electrical conductors (Explanatory Notes 1 and 2).  
1.2 The values stated in inch-pound or SI units are to be regarded separately as standard. Each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the specification. For conductor sizes designated by AWG or kcmil, the requirements in SI units have been numerically converted from corresponding values stated or derived in inch-pound units. For conductor sizes designated by SI units only, the requirements are stated or derived in SI units.  
1.2.1 For density, resistivity, and temperature, the values stated in SI units are to be regarded as standard.
Note 1: ACSR/SD is designed to control aeolian vibration by integral damping. The conductors consist of a central core of a round steel wire or wires surrounded by two layers of trapezoidal aluminum 1350-H19 wires or two layers of trapezoidal aluminum 1350-H19 wires and one layer of round aluminum 1350-H19 wires (Fig. 1). The trapezoidal-wire layers are separated from each other and from the steel core by two small annular gaps that provide the conductors self-damping characteristics. The round aluminum wires are in tight layer contact between themselves and the underlying trapezoidal wire layer. Different strandings of the same size of conductor are identified by type, which is the approximate ratio of steel area to aluminum area, expressed in percent (Table 1 and Table 2).  
FIG. 1 Illustrations of Typical ACSR/SD Strandings
Note 2: The aluminum and temper designations conform to ANSI Standard H 35.1. Aluminum 1350 corresponds to UNS A91350 in accordance with Practice E527.  
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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