ASTM B105-05(2012)
(Specification)Standard Specification for Hard-Drawn Copper Alloy Wires for Electric Conductors
Standard Specification for Hard-Drawn Copper Alloy Wires for Electric Conductors
ABSTRACT
This specification covers hard-drawn round copper alloy wires for electric conductors. The wires shall be made in any one of ten distinct alloys designated 8.5, 13, 15, 20, 30, 40, 55, 74, 80, and 85 in accordance with their increasing electrical conductivities. Specimens shall undergo tests to which they shall meet the required values for chemical composition, electrical resistivity, and mechanical and physical properties. The mechanical properties to be examined are elongation and tensile strength, while the physical properties in consideration are wire diameter, area, and density. The completed wire, to which no joints are to be made, shall be free from all imperfections not consistent with the best commercial practice.
SCOPE
1.1 This specification covers hard-drawn round copper alloy wires for electric conductors.
1.2 The copper alloy wires shall be made in any one of ten distinct alloys designated 8.5 to 85 in accordance with their increasing conductivities or designated by assigned UNS numbers (see Explanatory Note 1) as follows:
Copper Alloy UNS
No.Copper Alloy UNS
No. Alloy 8.5C65100Alloy 40 Alloy 13C51000Alloy 55C16500 Alloy 15Alloy 74C19600 Alloy 20Alloy 80C16200 Alloy 30C50700Alloy 85C16200
1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
1.3.1 Exception—The SI values of density and resistivity are to be regarded as standard.
General Information
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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NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.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:B105 −05 (Reapproved 2012)
Standard Specification for
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Hard-Drawn Copper Alloy Wires for Electric Conductors
This standard is issued under the fixed designation B105; 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.
This standard has been approved for use by agencies of the U.S. Department of Defense.
1. Scope E527Practice for Numbering Metals and Alloys in the
Unified Numbering System (UNS)
1.1 Thisspecificationcovershard-drawnroundcopperalloy
2.3 Other Document:
wires for electric conductors.
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NBS Handbook 100—Copper Wire Tables
1.2 The copper alloy wires shall be made in any one of ten
distinct alloys designated 8.5 to 85 in accordance with their
3. Ordering Information
increasing conductivities or designated by assigned UNS
3.1 Orders for material under this specification should
numbers (see Explanatory Note 1) as follows:
include the following information:
Copper Alloy Copper Alloy
3.1.1 Quantity of each size and grade,
UNS UNS
3.1.2 Wire size: diameter in inches or millimetres (see 9.1
No. No.
and Table 1),
Alloy 8.5 C65100 Alloy 40
3.1.3 Alloy (see 1.2 and Table 1),
Alloy 13 C51000 Alloy 55 C16500
3.1.4 Special composition limits, if required (see 5.2),
Alloy 15 Alloy 74 C19600
Alloy 20 Alloy 80 C16200
3.1.5 Package size (see 14.1),
Alloy 30 C50700 Alloy 85 C16200
3.1.6 Special package marking, if required, and
1.3 The values stated in inch-pound units are to be regarded
3.1.7 Place of inspection (see 13.1).
as standard. The values given in parentheses are mathematical
4. Materials and Manufacture
conversions to SI units that are provided for information only
and are not considered standard.
4.1 The material used shall be copper alloys of such nature
1.3.1 Exception—The SI values of density and resistivity
andcompositionastosecurebypropertreatmenttheproperties
are to be regarded as standard.
prescribed in this specification for the finished wire.
5. Chemical Composition
2. Referenced Documents
5.1 The chemical composition of copper alloy wires shall
2.1 The following documents of the issue in effect on the
conform to the requirements of Table 2. The values prescribed
dateofmaterialpurchaseformapartofthisspecificationtothe
in Table 2 cover limits of composition of the different alloys
extent referenced herein.
2 which may be supplied (see Note 2).
2.2 ASTM Standards:
5.2 The maximum percentage of the various alloying ele-
B193Test Method for Resistivity of Electrical Conductor
Materials ments to be found in any one of the alloys is prescribed in
Table2.Ifthepurchaserelectstocheckthecompositionofany
B258 Specification for Nominal Diameters and Cross-
SectionalAreasofAWGSizesofSolidRoundWiresUsed material supplied to conform to the performance requirements
ofanyoneofthealloys,thecompositionlimitsshouldbemade
as Electrical Conductors
the subject of a definite agreement between the manufacturer
and the purchaser in the placing of individual orders.
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This specification is under the jurisdiction of the ASTM Committee B05 on
6. Chemical Analysis
Copper and CopperAlloys and is the direct responsibility of Subcommittee B05.02
on Rod, Bar, Wire, Shapes and Forgings.
6.1 An analysis may be made on each lot of 5000 lb (2300
Current edition approved April 1, 2012. Published August 2012. Originally
kg) or fraction thereof. Millings or clippings shall be made
approved in 1936. Last previous edition approved in 2005 as B105 – 05. DOI:
from at least ten separate coils. Equal quantities shall be taken
10.1520/B0105-05R12.
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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
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Standards volume information, refer to the standard’s Document Summary page on Available from NationalTechnical Information Service (NTIS), 5301 Shawnee
the ASTM website. Rd., Alexandria, VA 22312, http://www.ntis.gov.
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B105−05 (2012)
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A
TABLE 1 Tensile Requirements
NOTE 1—Conversion factors are presented for ready adaptation to computer readout and electronic data transmission. The factors are written as a number greater than one and less than ten with
six or less decimal places. This number is followed by the letter E (for exponent), a plus or minus symbol, and two digits which indicate the power of 10 by which the number must be multiplied
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to obtain the correct value. For example: 2.54E+01= 2.54 × 10 = 25.4.
Tensile Strength, min
Elongation,
Diameter Area min, % All
...
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