ASTM A683-16(2023)

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: A683 − 16 (Reapproved 2023)
Standard Specification for
Nonoriented Electrical Steel, Semiprocessed Types
This standard is issued under the fixed designation A683; 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.
1. Scope Wattmeter-Ammeter-Voltmeter Method and 25-cm Ep-
stein Test Frame
1.1 This specification covers the detailed requirements to
A664 Practice for Identification of Standard Electrical Steel
which flat-rolled, nonoriented semiprocessed electrical steel
Grades in ASTM Specifications
shall conform.
A700 Guide for Packaging, Marking, and Loading Methods
1.2 This steel is produced to specified maximum core-loss
for Steel Products for Shipment
values and is intended primarily for commercial power fre-
A719/A719M Test Method for Lamination Factor of Mag-
quency (50 Hz and 60 Hz) applications in magnetic devices.
netic Materials
Desirable core-loss and permeability characteristics are devel-
A720/A720M Test Method for Ductility of Nonoriented
oped through heat treatment by the user.
Electrical Steel
1.3 These nonoriented, semiprocessed electrical steels are A971 Test Method for Measuring Edge Taper and Crown of
Flat-Rolled Electrical Steel Coils
low carbon, silicon-iron or silicon-aluminum-iron alloys con-
taining up to about 2.5 % silicon and less than 1 % aluminum. A976 Classification of Insulating Coatings for Electrical
Steels by Composition, Relative Insulating Ability and
1.4 The values stated in SI units are to be regarded as
Application
standard. The values given in parentheses are mathematical
conversions to customary (cgs-emu and inch-pound) units
3. Terminology
which are provided for information only and are not considered
3.1 The terms and symbols used in this specification are
standard.
defined in Terminology A340.
1.5 This international standard was developed in accor-
dance with internationally recognized principles on standard-
4. Classification
ization established in the Decision on Principles for the
4.1 The nonoriented electrical steel types described by this
Development of International Standards, Guides and Recom-
specification are shown in Table 1.
mendations issued by the World Trade Organization Technical
Barriers to Trade (TBT) Committee.
5. Ordering Information
5.1 Orders for material under this specification shall include
2. Referenced Documents
as much of the following information as necessary to describe
2.1 ASTM Standards:
the desired material adequately:
A34/A34M Practice for Sampling and Procurement Testing
5.1.1 ASTM specification number.
of Magnetic Materials
5.1.2 Core-loss type number.
A340 Terminology of Symbols and Definitions Relating to
5.1.3 Surface coating type.
Magnetic Testing
5.1.4 Thickness, width, and length (if in cut lengths instead
A343/A343M Test Method for Alternating-Current Mag-
of coils).
netic Properties of Materials at Power Frequencies Using
5.1.5 Total weight of ordered item.
5.1.6 Limitations in coil size or lift weights.
5.1.7 End Use—The user shall disclose as much pertinent
This specification is under the jurisdiction of ASTM Committee A06 on information as possible about the intended application to
Magnetic Properties and is the direct responsibility of Subcommittee A06.02 on
enable the producer to provide material characteristics most
Material Specifications.
suitable for specific fabricating practices.
Current edition approved Dec. 1, 2023. Published December 2023. Originally
5.1.8 Special requirements or exceptions to the provisions
approved in 1974. Last previous edition approved in 2016 as A683 – 16. DOI:
10.1520/A0683-16R23.
of this specification.
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
6. Materials and Manufacture
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. 6.1 Typical Melting and Casting:
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
A683 − 16 (2023)
A B
TABLE 1 Core-Loss Types and Maximum Core Losses at a
required core-loss limits that govern the grade. Typical relative
C
Magnetic Flux Density of 1.5 T (15 kG) and 60 Hz of Quality
D peak permeability (μ ) values are given in Appendix X1.
p
Evaluation Annealed Epstein Specimens
0.47 mm (0.0185 in.) Thickness 0.64 mm (0.025 in.) Thickness
7.3 Specific Exciting Power—The knowledge of the ap-
Maximum Core Loss Maximum Core Loss
Core-Loss Core-Loss proximate value of rms exciting power required for the
Type Type
W/kg (W/lb) W/kg (W/lb)
excitation of a particular type of electrical steel is frequently
47S155 3.42 (1.55) 64S200 4.41 (2.00)
useful to the user. Typical values of specific exciting power are
47S165 3.64 (1.65) 64S210 4.63 (2.10)
given in Appendix X1.
47S175 3.86 (1.75) 64S220 4.85 (2.20)
47S190 4.19 (1.90) 64S230 5.07 (2.30)
8. Surface Insulation Characteristics
A
See Practice A664.
B
The test density shall be the correct ASTM assumed density (in accordance with
8.1 Unless otherwise specified, semiprocessed electrical
14.2) for the chemistry used by the producer to meet the property requirements of
steels are supplied with a thin, tightly adherent surface oxide
this specification.
C
Maximum core losses at a magnetic flux density of 1.5 T (15 kG) and 50 Hz are
(coating Type C-0 in Classification A976) which has sufficient
0.79 times maximum core losses at 60 Hz.
insulating ability for most small cores. The insulating ability of
D
One half of strips cut parallel to the steel rolling direction and one half of strips
coating Type C-0 can be enhanced during the user’s heat
cut perpendicular to the steel rolling direction.
treatment by using a slightly oxidizing atmosphere.
8.2 Applied Coatings:
8.2.1 Semiprocessed electrical steels may also be supplied
6.1.1 These semiprocessed electrical steels may be made by
with a thin applied coating (coating Types C-4–A and C-5–A in
basic-oxygen, electric furnace, or other steelmaking prac-
Classification A976) which has sufficient insulating ability for
tice(s).
most small cores. A major purpose for using coating Types
6.1.2 These electrical steels are characterized by low
C-4–A and C-5–A is to reduce surface-to-surface sticking
carbon, usually less than 0.030 %. The principal alloying
during the user’s heat treatment.
element is commonly silicon, but aluminum up to about 0.8 %
8.2.2 When essential, higher levels of insulating ability may
is sometimes used instead of, or in addition to, silicon,
be obtained by coating semiprocessed electrical steels with
depending on mill processing practice for the desired magnetic
thicker applied coatings (coating Types C-4 and C-5 in
grade. Individual producers will often have different silicon or
Classification A976). Usage of such coatings should be ap-
aluminum contents for a particular grade as a result of intrinsic
proached with great caution since the coatings may have an
mill processing procedures.
inhibiting effect on decarburization and thereby limit the
6.1.3 Sulfur content is typically less than 0.025 % and is
attainment of the lowest core losses in the user’s heat treat-
usually lowest in the numbered types representing lowest core
ment.
loss. Manganese is typically present in amounts between
0.10 % and 0.70 %. Phosphorus, copper, nickel, chromium,
9. Mechanical and Physical Properties
molybdenum, antimony, and tin are usually present only in
9.1 Lamination Factor—The lamination factor shall be
residual amounts except in the higher numbered core-loss types
determined using Test Method A719/A719M and shall be as
where phosphorus, tin, or antimony up to 0.15 % may be
high as practicable. It is normally greater for 0.64 mm
present.
(0.025 in.) thick steel than for 0.47 mm (0.0185 in.) thick steel
6.1.4 The producer is not required to report chemical
and when the surfaces are smooth and have no applied coating.
composition of each lot except where a clear need for such
information has been shown. In such cases, the analyses to be
9.2 Ductility—The material shall be as ductile as possible,
reported shall be negotiated between the producer and user. consistent with meeting magnetic requirements. When required
the ductility shall be determined by the bend test for ductility
6.2 Typical Processing—The processing sequence for semi-
described in Test Method A720/A720M. Ductility is a function
processed nonoriented electrical steel comprises hot rolling,
of microstructure and may differ between producers. The user’s
pickling, cold rolling, and annealing. An additional annealing
anneal may also affect ductility.
operation may precede or follow the pickling operation.
6.3 When changes in the manufacture of the material are
10. Dimensions and Permissible Variations
believed to exert possible significant effects upon the user’s
10.1 Thickness—Specified thickness should be one of the
fabricating practices and upon the magnetic performance to be
common thicknesses as follows:
obtained in the specified end use, the producer shall notify the
Thickness, mm (in.)
user before shipment is made so the user has an opportunity to
0.64 (0.025)
evaluate the effects.
0.47 (0.0185)
10.2 Thickness Variations—The average thickness of the
7. Magnetic Properties
material supplied shall be as close as possible to the ordered
7.1 Specific Core Loss—Each core-loss type of electrical
thickness. Measurements made with a contacting micrometer
steel is identified by maximum core-loss limits as shown in
at points no closer than 10 mm (0.375 in.) from the edge of a
Table 1.
sheet or coil of specified width shall not differ from the
7.2 Permeability—The permeability at all magnetic flux specified thickness by more than the values (which include
density values shall be as high as possible consistent with the taper) shown in Table 2.
A683 − 16 (2023)
A
TABLE 2 Thickness Tolerances TABLE 4 Length Tolerances
Thickness Tolerances, Over or Under, mm (in.) for
Length Tolerance
Specified Length
Specified Width, mm (in.)
Over Under
Specified 152 (6) Over 152 (6) Over 305 (12) Over 914 (36)
mm (in.) mm (in.) mm (in.)
Thickness, Wide and to 305 (12) to 914 (36) to 1219 (48)
To 760, incl (To 30, incl) 3.2 (0.125) 0 (0)
mm (in.) Under Wide, Incl Wide, Incl Wide, Incl
Over 760 to (Over 30 to 60, 6.4 (0.25) 0 (0)
1520, incl incl)
0.47 (0.0185) 0.038 (0.0015) 0.051 (0.002) 0.051 (0.002) 0.076 (0.003)
Over 1520 to (Over 60 to 96, 12.7 (0.50) 0 (0)
0.64 (0.025) 0.051 (0.002) 0.051 (0.002) 0.076 (0.003) 0.076 (0.003)
2340, incl incl)
A
Thickness is measured at any point across the width not less than 10 mm Over 2340 to (Over 96 to 120, 19.1 (0.75) 0 (0)
(0.375 in.) from a side edge.
3050, incl incl)
Over 3050 to (Over 120 to 144, 25.4 (1.00) 0 (0)
3660, incl incl)
10.3 Edge Taper—The rolling of flat-rolled strip inherently
produces an edge that is thinner than the rest of the strip. This
characteris
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