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ASTM A1070-16(2022)

(Specification)

Standard Specification for Cast and Sintered Alnico Permanent Magnets

Standard Specification for Cast and Sintered Alnico Permanent Magnets

ABSTRACT
This specification covers technically important, commercially available, magnetically hard, cast and sintered permanent magnets known commonly as Alnico. Alnico magnets have approximate magnetic properties of residual magnetic induction from 0.52 T (5200 G) to 1.35 T (13500 G) and coercivity from 38 kA/m (475 Oe) to 175 kA/m (2200 Oe). Their specific magnetic hysteresis behavior (demagnetization curves) can be characterized using Test Method A977/A977M.
SCOPE
1.1 This specification covers technically important, commercially available, magnetically hard, cast and sintered permanent magnets known commonly as Alnico.  
1.2 Alnico magnets have approximate magnetic properties of residual magnetic induction, Br, from 0.52 T (5200 G) to 1.35 T (13500 G) and coercivity, HcB, from 38 kA/m (475 Oe) to 175 kA/m (2200 Oe). Their specific magnetic hysteresis behavior (demagnetization curves) can be characterized using Test Method A977/A977M.  
1.3 The values stated in SI units are to be regarded as standard. The values given in parentheses are mathematical conversions to customary (cgs-emu and inch-pound) units which are provided for information only and are not considered 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.

General Information

Status
Published
Publication Date
30-Jun-2022
ICS
29.100.10 - Magnetic components
Technical Committee
A06 - Magnetic Properties
Drafting Committee
A06.02 - Material Specifications
Current Stage
Ref Project

Relations

Refers
ASTM A340-23a - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-Dec-2023
Refers
ASTM A977/A977M-07(2020) - Standard Test Method for Magnetic Properties of High-Coercivity Permanent Magnet Materials Using Hysteresigraphs
Effective Date
01-Jun-2020
Refers
ASTM A340-19b - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
15-Oct-2019
Refers
ASTM A340-19a - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
15-Jun-2019
Refers
ASTM A340-19 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
15-Feb-2019
Refers
ASTM A340-18 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-Jun-2018
Refers
ASTM A340-17a - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
15-Oct-2017
Refers
ASTM A340-17 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-Jul-2017
Refers
ASTM A340-16 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-May-2016
Refers
ASTM A340-16e1 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-May-2016
Refers
ASTM A340-15 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-Oct-2015
Refers
ASTM A340-14 - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-Oct-2014
Refers
ASTM A977/A977M-07(2013) - Standard Test Method for Magnetic Properties of High-Coercivity Permanent Magnet Materials Using Hysteresigraphs
Effective Date
01-May-2013
Refers
ASTM A340-03a(2011) - Standard Terminology of Symbols and Definitions Relating to Magnetic Testing
Effective Date
01-May-2011
Refers
ASTM A977/A977M-07 - Standard Test Method for Magnetic Properties of High-Coercivity Permanent Magnet Materials Using Hysteresigraphs
Effective Date
01-Nov-2007

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ASTM A1070-16(2022) - Standard Specification for Cast and Sintered Alnico Permanent MagnetsASTM A1070-16(2022) - Standard Specification for Cast and Sintered Alnico Permanent Magnets
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ASTM A1070-16(2022) - Standard Specification for Cast and Sintered Alnico Permanent Magnets
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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:A1070 −16 (Reapproved 2022)
Standard Specification for
Cast and Sintered Alnico Permanent Magnets
This standard is issued under the fixed designation A1070; 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 2.2 Other Standards:
MMPA Standard No. 0100-00 Standard Specifications for
1.1 This specification covers technically important, com-
Permanent Magnet Materials
mercially available, magnetically hard, cast and sintered per-
IEC 60404-8-1 Magnetic Materials Part 8: Specifications for
manent magnets known commonly as Alnico.
Individual Materials Section 1 – Standard Specifications
1.2 Alnico magnets have approximate magnetic properties
for Magnetically Hard Materials
of residual magnetic induction, B , from 0.52 T (5200 G) to
r
1.35 T (13500 G) and coercivity, H , from 38 kA/m (475 Oe)
cB 3. Terminology
to 175 kA/m (2200 Oe). Their specific magnetic hysteresis
3.1 The terms and symbols used in this specification are
behavior (demagnetization curves) can be characterized using
defined in Terminology A340, except as noted in 3.2.
Test Method A977/A977M.
3.2 Terms that are not defined in Terminology A340 but are
1.3 The values stated in SI units are to be regarded as
in common usage and used herein are as follows.
standard. The values given in parentheses are mathematical
3.2.1 Recoil permeability, µ , is the permeability corre-
(rec)
conversions to customary (cgs-emu and inch-pound) units
sponding to the slope of the recoil line. For reference see
whichareprovidedforinformationonlyandarenotconsidered
incremental, relative, and reversible permeabilities as defined
standard.
in Terminology A340. In practical use, this is the slope of the
1.4 This standard does not purport to address all of the
normal hysteresis loop in the second quadrant and in proximity
safety concerns, if any, associated with its use. It is the
to the B-axis. The value of recoil permeability is dimension-
responsibility of the user of this standard to establish appro-
less. Note that in producers’ product literature recoil perme-
priate safety, health, and environmental practices and deter-
ability is sometimes represented by the symbol µ , which is
r
mine the applicability of regulatory limitations prior to use.
defined by Terminology A340 as relative permeability.
1.5 This international standard was developed in accor-
3.2.2 Magnetic characteristics change with temperature.
dance with internationally recognized principles on standard-
Two key metrics of permanent magnet performance are re-
ization established in the Decision on Principles for the
sidual induction, B , and intrinsic coercive field strength, H .
r cJ
Development of International Standards, Guides and Recom-
The change in characteristic over a defined and limited
mendations issued by the World Trade Organization Technical
temperature range can be reversible, that is, non-destructive.
Barriers to Trade (TBT) Committee.
Thischangeisrepresentedbyvaluescalledreversibletempera-
ture coefficients. The symbol for reversible temperature coef-
2. Referenced Documents
ficient of induction is α(B ) and for (intrinsic) coercivity is
2 r
2.1 ASTM Standards:
α(H ). They are expressed in percent change per degree
cJ
A340 Terminology of Symbols and Definitions Relating to
Celsius, %/°C, or the numerically equivalent percent per
Magnetic Testing
Kelvin, %/K. The changes in magnetic characteristics are
A977/A977M Test Method for Magnetic Properties of High-
non-linear so it is necessary to specify the temperature range
Coercivity Permanent Magnet Materials Using Hyster-
over which the coefficient applies.
esigraphs
3.2.3 The maximum recommended working temperature,
T , of a permanent magnet is a semi-arbitrary value sometimes
w
This specification is under the jurisdiction of ASTM Committee A06 on
Magnetic Properties and is the direct responsibility of Subcommittee A06.02 on
Material Specifications.
Current edition approved July 1, 2022. Published July 2022. Originally approved MMPA Standard No. 0100-00 is now available from the Permanent Magnet
in 2016. Last previous edition approved in 2016 as A1070 – 16. DOI: 10.1520/ Division of the SMAA (www.smma.org). It was previously available from The
A1070-16R22. International MagneticsAssociation (IMA). The IMAhad been the successor to the
For referenced ASTM standards, visit the ASTM website, www.astm.org, or MMPA and both organizations no longer exist.
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM Available from International Electrotechnical Commission (IEC), 3, rue de
Standards volume information, refer to the standard’s Document Summary page on Varembé, 1st Floor, P.O. Box 131, CH-1211, Geneva 20, Switzerland, http://
the ASTM website. www.iec.ch.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
A1070−16 (2022)
assigned by magnet manufacturers to their products. T is not 5.1.4 Quantity required.
w
normative. See Appendix X3 for a more complete discussion. 5.1.5 The required magnetization state of the provided
material (unmagnetized, fully magnetized, magnetized and
4. Classification
thermally stabilized, magnetized and then partially
demagnetized—see Appendix X3 for an explanation of terms).
4.1 The classification ofAlnico permanent magnets is given
This information should appear on the part drawing whenever
in Table 1, and Appendix X1, Table X1.1, with cross-reference
possible.
to MMPA Standard No. 0100-00 and IEC 60404-8-1.
5.1.6 Certification of magnetic property evaluation.
5. Ordering Information 5.1.7 Marking and packaging requirements.
5.1.8 Exceptions to this specification or special require-
5.1 Orders for parts conforming to this specification shall
mentssuchasplating,coating,orfunctionaltestingasmutually
include the following information:
agreed upon by the producer and user.
5.1.1 Reference to this specification and year of issue/
revision.
6. Chemical Composition
5.1.2 Reference to an applicable part drawing.
5.1.3 Magnetic property requirements if they are more 6.1 The general chemical composition ofAlnico magnets is
stringent than the minimum values listed in the tables. aluminum, nickel, and cobalt with selected transition metals
A
TABLE 1 Alnico Magnets: Minimum Magnetic Property Requirements
NOTE 1—“.” indicates that there is no known published data.
C
Chemical Composition Maximum Energy Residual Induction Coercive Field Intrinsic Coercive
Product B Strength Field Strength
r
ASTM
(BH) H H
B max cB cJ
Designation
Al Ni Co Cu Ti kJ/m (MGOe) mT (G) kA/m (Oe) kA/m (Oe)
CAST ISOTROPIC ALNICO
AL-CI-9/47 . . . . . 9.0 (1.1) 550 (5500) 44.0 (553) 47.0 (591)
AL-CI-10/38 12 25 . 3 . 9.7 (1.2) 665 (6650) 36.3 (456) 37.8 (475)
AL-CI-12/55 . . . . . 11.6 (1.5) 630 (6300) 52.0 (653) 55.0 (691)
AL-CI-12/44 10 19 13 3 . 12.2 (1.5) 713 (7125) 42.3 (532) 43.8 (551)
AL-CI-17/86 . . . . . 17.0 (2.1) 580 (5800) 80.0 (1005) 86.0 (1081)
CAST ANISOTROPIC ALNICO
AL-CA-28/61 8 16 24 3 1 27.9 (3.5) 998 (9975) 59.0 (741) 60.5 (760)
AL-CA-36/148 . . . . . 36.0 (4.5) 700 (7000) 140.0 (1759) 148.0 (1860)
AL-CA-37/49 . . . . . 37.0 (4.6) 1180 (11 800) 48.0 (603) 49.0 (616)
AL-CA-38/112 . . . . . 38.0 (4.8) 800 (8000) 110.0 (1382) 112.0 (1407)
AL-CA-36/164 8 14 38 3 8 35.8 (4.5) 684 (6840) 143.6 (1805) 164.1 (2062)
AL-CA-38/141 7 15 35 4 5 38.0 (4.8) 779 (7790) 124.7 (1568) 140.6 (1767)
AL-CA-39/49 8 14 24 3 . 39.4 (5.0) 1216 (12 160) 48.4 (608) 48.8 (613)
AL-CA-44/53 . . . . . 44.0 (5.5) 1200 (12 000) 52.0 (653) 53.0 (666)
AL-CA-47/51 8 14 24 3 . 46.6 (5.9) 1264 (12 635) 50.7 (637) 51.0 (641)
AL-CA-58/53 . . . . . 58.0 (7.3) 1300 (13 000) 52.0 (653) 53.0 (666)
AL-CA-54/56 8 14 24 3 . 53.7 (6.8) 1283 (12 825) 55.9 (703) 56.3 (708)
AL-CA-60/112 . . . . . 60.0 (7.5) 900 (9000) 110.0 (1382) 112.0 (1407)
AL-CA-65/115 7 15 35 4 5 64.5 (8.1) 1007 (10 070) 113.4 (1425) 114.5 (1439)
AL-CA-72/120 . . . . . 72.0 (9.0) 1050 (10 500) 118.0 (1483) 120.0 (1508)
SINTERED ISOTROPIC ALNICO
AL-SI-9/47 . . . . . 9.0 (1.1) 550 (5500) 44.0 (553) 47.0 (591)
AL-SI-12/55 . . . . . 11.6 (1.5) 630 (6300) 52.0 (653) 55.0 (691)
AL-SI-11/43 10 19 13 3 . 10.7 (1.4) 675 (6745) 41.6 (523) 43.1 (542)
AL-SI-17/86 . . . . . 17.0 (2.1) 580 (5800) 80.0 (1005) 86.0 (1081)
SINTERED ANISOTROPIC ALNICO
AL-SA-21/62 8 15 24 3 1 20.8 (2.6) 893 (8930) 59.7 (751) 62.0 (779)
AL-SA-26/58 . . . . . 26.0 (3.3) 900 (9000) 56.0 (704) 58.0 (729)
AL-SA-28/48 8 14 24 3 . 27.9 (3.5) 1036 (10 355) 46.9 (589) 47.6 (599)
AL-SA-31/111 . . . . . 31.0 (3.9) 760 (7600) 107.0 (1345) 111.0 (1395)
AL-SA-29/128 7 15 35 4 5 28.6 (3.6) 703 (7030) 113.4 (1425) 127.8 (1606)
AL-SA-33/150 . . . . . 33.0 (4.1) 650 (6500) 135.0 (1696) 150.0 (1885)
AL-SA-34/48 . . . . . 34.0 (4.3) 1120 (11 200) 47.0 (591) 48.0 (603)
AL-SA-32/153 7 14 38 3 8 32.2 (4.1) 637 (6365) 136.1 (1710) 152.7 (1919)
A
Magnetic properties are minimum for +20 ± 2 °C (+68 ± 4 °F) and for a fully magnetized specimen.
B
ASTM Designations are of the form MM-TT-XX/YY where:
MM = material (AL = Alnico),
TT = type of processing and orientation (CI = cast isotropic (non-oriented), CA = cast anisotropic (oriented), SI = sintered isotropic (non-oriented),
SA = sintered anisotropic (oriented)),
XX = energy product in k/J/m rounded to the nearest integer, and
YY = intrinsic coercivity in kA/m rounded to the nearest integer.
C
Composition are representative and approximate and are non-mandatory information. The numbers presented here are weight percent.
A1070−16 (2022)
and minor constituents and the balance of the composition 8.4.5 Other test methods may be utilized as agreed to
being iron.Approximate chemical compositions for each grade betweenproduceranduser.Suchtestsmayincludeopencircuit
are listed in Table 1 and are typical but not mandatory. magnetization Helmholtz test (refer to Appendix X3), field
strength measurements in a defined magnetic circuit or mag-
7. Physical and Mechanical Properties
netic flux density measurements adjacent to the magnet sur-
7.1 Typical thermal and physical properties are listed in face.
Appendix X2, Table X2.1.
8.4.6 Due to the ease with which the magnetic field of
Alnico magnets can be affected, the producer and user should
7.2 Physical density values are given for information pur-
agree on methods to prevent unintended changes from occur-
poses only and are not mandatory.
ring. These preventive measures may include the use of
7.3 Alnico magnets are used for their magnetic characteris-
keepers across the magnet poles, spacing within packaging to
tics. The end-use application should not rely on them for
prevent like poles from affecting each other, or other agreed-to
structural purposes due to low tensile and flexural strength.
methods.
These materials are brittle and can chip or break easily.
Magnetic properties may also be affected by physical stress.
9. Workmanship, Finish, and Appearance
8. Magnetic Property Requirements
9.1 Dimensions and tolerances shall be as specified on the
magnet drawing and must be agreed upon between the pro-
8.1 Magnetic properties are listed in Table 1.
ducer and user.
8.2 The values of essential magnetic properties listed in the
table are specified minimum values at +20 6 2 °C (+68 6
9.2 Porosity and voids are common in Alnico magnets and
4 °F), determined after magnetizing to saturation in closed shall not in themselves constitute reason for rejection unless
magnetic circuit.
agreed upon between producer and user. Allowable defects
shall be defined and documented in writing as part of the
8.3 The specified values of magnetic properties are valid
ordering or contracting process.
only for magnet test specimens with a uniform cross-section
along the axis of magnetization. Properties for anisotropic
9.3 Magnets shall be free of loose chips and surface residue
(magneticallyoriented)magnetsaremeasuredalongtheaxisof
which may interfere with assembly or proper device function.
preferred orientation.
9.4 Chips shall be acceptable if no more than 10 % of any
8.4 Because of the nature of permanent magnet production,
surface identified as a magnetic pole surface is removed unless
magnetic testing of each lot is strongly recommended, espe-
otherwise agreed to by producer and user.
ciallyforapplicationswherethemagnetperformanceisclosely
9.5 Cracks visible to the naked eye shall not be permitted
specified. Such magnetic property evaluations shall be con-
unless otherwise agreed to by producer and user.
ductedinthemannerdescribedbelow.Wherethemagnetshape
is not suitable for magnetic testing, a specimen shall be cut
10. Sampling
from the magnet using appropriate slicing and grinding
techniques,payingattentiontoanymagneticorientationwithin
10.1 Unless otherwise agreed to between producer and user,
the magnet.
a lot shall consist of parts of the same form and dimensions,
8.4.1 The magnetic properties shall be determined in accor-
produced from a single furnace melt (cast Alnico) or mixed
dance with Test Method A977/A977M, or by using a suitable,
powder batch or sintering run (sintered Alnico), and from an
mutually agreed upon magnetometric method.
unchanged process, without discontinuity in production, and
8.4.2 When magnets are being purchased in the fully
submitted for inspection at one time.
magnetized condition, the testing shall determine the magnetic
properties from the as-received magnetization state, followed 10.2 The producer and user shall agree upon a representa-
tive number of specimens for testing. Typically, a suitable
by magnetization to saturation and testing of the magnetic
properties from the fully magnetized condition. number of parts, as mutually agreed upon between producer
and user, shall be randomly selected from each lot. It is
8.4.3 When magnets are being purchased in the unmagne-
tized condition or in an unknown state of magnetization, the advisable to test a minimum of two parts from each lot, and
more if there is reason to suspect that the magnetic properties
test laboratory shall magnetize the test specimen(s) to satura-
tion in the same orientation as the received specimens’ are not uniform throughout the lot.
indicated direction of magnetiz
...

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ABSTRACT
This specification covers technically important, commercially available, magnetically hard sintered and fully dense neodymium iron boron (Nd2Fe14B, NdFeB, or “Neo”) permanent magnets. These materials are available in a wide range of compositions with a commensurately large range of magnetic properties. Neodymium iron boron magnets have approximate magnetic properties of residual magnetic induction from 1.08 T (10 800 G) up to 1.5 T (15 000 G) and intrinsic coercive field strength of 875 kA/m (11 000 Oe) to above 2785 kA/m (35 000 Oe). Special grades and isotropic (un-aligned) magnets can have properties outside these ranges.
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1.1 This specification covers technically important, commercially available, magnetically hard sintered and fully dense neodymium iron boron (Nd2Fe14B, NdFeB, or “Neo”) permanent magnets. These materials are available in a wide range of compositions with a commensurately large range of magnetic properties. The numbers in the Nd2Fe14B name indicate the approximate atomic ratio of the key elements.  
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Standard Test Method for Magnetic Properties of Magnetic Amplifier Cores

SIGNIFICANCE AND USE
5.1 The method of excitation simulates, to a practical degree, the operation of a magnetic core in a self-saturating magnetic amplifier. The properties measured are related to the quality of performance of the cores in magnetic amplifiers and are useful for the specification of materials for such cores.
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1.5 At specified values of half-wave sinusoidal-current excitation, this test method provides procedures for determining the residual induction, Br.  
1.6 At increased specified values of half-wave sinusoidal-current excitation, this test method provides procedures for determining the dc reverse biasing magnetic field strength, H1, required to reset the induction in the core material past Br to a value where the total induction change, ΔB1, becomes approximately one third of the induction change, 2 Bp. It also provides procedures for determining the additional dc reset magnetic field strength, ΔH, which, combined with H1, is the value required to reset the induction in the core material past Br to a value where the total induction change, ΔB2, becomes approximately two thirds of the induction change 2 Bp.  
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Standard Test Method for Direct-Current Magnetic Properties of Materials Using the Point by Point (Ballistic) Method and Ring Specimens

SIGNIFICANCE AND USE
3.1 Test methods using suitable ring-type specimens4 are the preferred methods of determining the basic magnetic properties of a material caused by the absence of demagnetizing effects and are well suited for specification acceptance, service evaluation, and research and development.  
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FIG. 1 Basic Circuit Using Ring-Type Cores  
Note 1:  
A1—Multirange ammeter, main-magnetizing current circuit
A2—Multirange ammeter, hysteresis-current circuit
N1—Magnetizing (primary) winding
N2—Flux-sensing (secondary) winding
F—Electronic integrator
  R1—Main current control rheostat
R2—Hysteresis current control rheostat
S1—Reversing switch
S2—Shunting switch for hysteresis current control rheostat  
1.7 Warning—Mercury has been designated by EPA and many state agencies as a hazardous material that can cause central nervous system, kidney, and liver damage. Mercury, or its vapor, may be hazardous to health and corrosive to materials. Caution should be taken when handling mercury and mercury-containing products. See the applicable product Material Safety Data Sheet (MSDS) for details and EPA’s website (http://www.epa.gov/mercury/faq.htm ) for additional information. Users should be aware that selling mercury or mercury-containing products, or both, in your state may be prohibited by state law.  
1.8 The values stated in either customary (cgs-emu and inch-pound) units or SI units are to be regarded separately as standard. Within this test method, the SI units are shown in brackets except for the sections concerning calculations where there are separate sections fo...

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ASTM
ASTM A1013-00(2020)(Test Method)
Standard Test Method for High-Frequency (10 kHz-1 MHz) Core Loss of Soft Magnetic Core Components at Controlled Temperatures Using the Voltmeter-Ammeter-Wattmeter Method

SIGNIFICANCE AND USE
4.1 This test method is designed for testing of either toroidal or mated soft magnetic core components over a range of temperatures, frequencies, and flux densities.  
4.2 The reproducibility and repeatability of this test method are such that it is suitable for design, specification acceptance, service evaluation, and research and development.
SCOPE
1.1 This test method covers the equipment, procedures, and measurement of core loss of either toroidal or mated soft magnetic core components, such as soft ferrite cores, iron powder cores, and so forth, over ranges of controlled ambient temperatures typically from −20 to +120°C, frequencies from 10 kHz to 1 MHz, under sinusoidal flux conditions.  
1.2 The values and equations stated in customary (cgs-emu and inch-pound) or SI units are to be regarded separately as standard. Within this test method, SI units are shown in brackets except for the sections concerning calculations where there are separate sections for the respective unit systems. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in nonconformance with 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 A901-19(Specification)
Standard Specification for Amorphous Magnetic Core Alloys, Semi-Processed Types

ABSTRACT
This specification covers the requirements to which flat-cast, amorphous, semi-processed, iron-base magnetic core alloys must conform. These alloys shall be produced by a rapid-quenching, direct-casting process, resulting in metals with noncrystalline structure. The alloys shall be made to meet specified maximum core-loss values and shall be intended primarily for commercial power frequency applications. Desirable core-loss and permeability characteristics shall be developed by further heat treatment in a magnetic field. Amorphous magnetic core alloys are normally composed of iron with small amounts of alloying elements such as boron and silicon. There are no specific chemical requirements in this specification. Material produced to this specification shall conform to the required physical and mechanical properties such as density, ductility, thermal expansion, thermal conductivity, volume resistivity, lamination factor, surface, edge, and pinholes. The alloy shall also conform to the magnetic property requirements such as DC induction, DC coercive field strength, DC residual induction, core loss, and specific exciting power.
SCOPE
1.1 This specification covers the general requirements to which flat-cast, amorphous, semi-processed, iron-base magnetic core alloys must conform.  
1.2 These alloys are produced by a rapid-quenching, direct-casting process, resulting in metals with noncrystalline (amorphous) structure. The metallic alloys are made to meet specified maximum core-loss values and are intended primarily for commercial power frequency (50- and 60-Hz) applications in magnetic devices. Desirable core-loss and permeability characteristics are developed by further heat treatment in a magnetic field by the user. The heat treatment typically consists of heating the material to a temperature of 320 to 420°C in a dry, inert atmosphere for 5 to 10 min, although soak times of up to 2 h may be used for large transformer cores. A magnetic field may be required during annealing as designated by the producer. Exact optimum annealing conditions depend on the processing of the material and the size and shape of the device.  
1.3 Some of these alloys are sensitive to mechanical stress. Care must be exercised in minimizing any stresses on the material in its final application, otherwise, its magnetic properties will be significantly impaired.  
1.4 This specification is developed to aid in the purchase of transformer grade amorphous strip. It provides the chemical, physical, and magnetic parameters and procedures for quality control tests.  
1.5 The values stated in SI units are to be regarded as standard. The values given in parentheses are numerical conversions to customary (cgs and inch-pound) units which are provided for information only and are not considered standard.  
1.6 This standard does not purport to address the safety concerns 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.  
1.7 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 A1102-19(Specification)
Standard Specification for Sintered Samarium Cobalt (SmCo) Permanent Magnets

ABSTRACT
This specification applies to technically important, commercially available, magnetically hard sintered (fully dense) permanent magnets commonly known as samarium cobalt (SmCo). SmCo permanent magnets are available in two general composition families abbreviated “SmCo 1:5” and “SmCo 2:17.” These materials have approximate magnetic properties of residual magnetic induction from 0.78 T (7800 G) to 1.18 T (11 800 G) and intrinsic coercivity typically greater than 800 kA/m (10 000 Oe). Special grades and isotropic (un-aligned) magnets can have properties outside these ranges. Specific magnetic hysteresis behavior (demagnetization curve) can be characterized using Test Method A977/A977M.
SCOPE
1.1 This specification covers technically important, commercially available, magnetically hard sintered (fully dense) permanent magnets commonly known as samarium cobalt. These materials are available in two general composition families abbreviated “SmCo 1:5” and “SmCo 2:17.” The numbers indicate the approximate atomic ratio of samarium to the sum of other constituents. (Refer to Appendix X3 for additional composition information.)  
1.2 Samarium cobalt magnets have approximate magnetic properties of residual magnetic induction, Br, from 0.78 T (7800 G) to 1.18 T (11 800 G) and intrinsic coercivity, HcJ, typically greater than 800 kA/m (10 000 Oe). Special grades and isotropic (un-aligned) magnets can have properties outside these ranges (see Appendix X4). Specific magnetic hysteresis behavior (demagnetization curve) can be characterized using Test Method A977/A977M.  
1.3 The values stated in SI units are to be regarded as standard. The values given in parentheses are mathematical conversions to customary (cgs-emu and inch-pound) units which are provided for information only and are not considered 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
ASTM A1009-18(Specification)
Standard Specification for Soft Magnetic MnZn Ferrite Core Materials for Transformer and Inductor Applications

ABSTRACT
This specification deals with soft magnetic manganese zinc ferrite core materials for high frequency power transformer and filter inductor applications. Standard types of both power transformer and filter inductor material are defined. For power transformer use, there are five types defined by their maximum core loss density and minimum saturation flux density. For filter inductor materials, three types are defined based on their inductance permeability. Apart from magnetic property requirements, dimensional tolerances and workmanship requirements are defined in this specification.
SCOPE
1.1 This specification covers the requirements to which the specified grades of soft magnetic manganese zinc (MnZn) ferrite materials shall conform. Cores made from these materials are used primarily in transformers and inductors.  
1.2 Frequency—MnZn ferrite cores are primarily used for frequencies in the range of 10 kHz to 1 MHz. Many inductors have a DC component as well.  
1.3 Magnetic Flux Density—Applications consist of two main categories, high and low magnetic flux density.  
1.3.1 High Magnetic Flux Density—Transformers used for power conversion. Inductors or chokes used in high current applications.  
1.3.2 Low Magnetic Flux Density—Transformers, inductors, chokes used for signal conditioning.  
1.4 The values stated in SI units are to be regarded as standard. The values given in parentheses are mathematical conversions to customary (cgs-emu and inch-pound) units, which 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
ASTM A697/A697M-13(2018)(Test Method)
Standard Test Method for Alternating Current Magnetic Properties of Laminated Core Specimen Using Voltmeter-Ammeter-Wattmeter Methods

SIGNIFICANCE AND USE
5.1 This test method was developed for evaluating the ac magnetic properties of laminated cores made from flat-rolled magnetic materials.  
5.2 The reproducibility and repeatability of this test method are such that this test method is suitable for design, specification acceptance, service evaluation, and research and development.
SCOPE
1.1 This test method covers the determination of several ac magnetic properties of laminated cores made from flat-rolled magnetic materials.  
1.2 This test method covers test equipment and procedures for the determination of impedance permeability and exciting power from voltage and current measurements, and core loss from wattmeter measurements. These tests are made under conditions of sinusoidal flux.  
1.3 This test method covers tests for two general categories (1 and 2) of cores based on size and application.  
1.4 Tests are provided for power and control size cores (Category 1) operating at inductions of 10 to 15 kG [1.0 to 1.5 T] and at frequencies of 50, 60, and 400 Hz.  
1.5 Procedures and tests are provided for coupling and matching type transformer cores (Category 2) over the range of inductions from 100 G [0.01 T] or lower to 10 kG [1.0 T] and above at 50 to 60 Hz or above when covered by suitable procurement specifications.  
1.6 This test method also covers tests for core loss and ac impedance permeability under incremental test conditions (ac magnetization superimposed on dc magnetization) for the above core types and at inductions up to those that cause the ac exciting current to become excessively distorted or reach values that exceed the limits of the individual test equipment components.  
1.7 This test method shall be used in conjunction with Practice A34/A34M and Terminology A340. It depends upon these designated documents for detailed information which will not be repeated in this test method.  
1.8 The values and equations stated in customary (cgs-emu and inch-pound) or SI units are to be regarded separately as standard. Within this standard, SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in nonconformance with this standard.  
1.9 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.  
1.10 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 A1101-23(Specification)
Standard Specification for Sintered and Fully Dense Neodymium Iron Boron (NdFeB) Permanent Magnets

ABSTRACT
This specification covers technically important, commercially available, magnetically hard sintered and fully dense neodymium iron boron (Nd2Fe14B, NdFeB, or “Neo”) permanent magnets. These materials are available in a wide range of compositions with a commensurately large range of magnetic properties. Neodymium iron boron magnets have approximate magnetic properties of residual magnetic induction from 1.08 T (10 800 G) up to 1.5 T (15 000 G) and intrinsic coercive field strength of 875 kA/m (11 000 Oe) to above 2785 kA/m (35 000 Oe). Special grades and isotropic (un-aligned) magnets can have properties outside these ranges.
SCOPE
1.1 This specification covers technically important, commercially available, magnetically hard sintered and fully dense neodymium iron boron (Nd2Fe14B, NdFeB, or “Neo”) permanent magnets. These materials are available in a wide range of compositions with a commensurately large range of magnetic properties. The numbers in the Nd2Fe14B name indicate the approximate atomic ratio of the key elements.  
1.2 Anisotropic (aligned) sintered and fully dense neodymium iron boron magnets have approximate magnetic properties of residual magnetic induction, Br, from 1.08 T
(10 800 G) up to 1.5 T (15 000 G) and intrinsic coercive field strength, HcJ, of 875 kA/m (11 000 Oe) to above 2785 kA/m (35 000 Oe). Fully dense but not sintered magnets include hot-deformed magnets using a plastic deformation technique, such as upsetting or extrusion, at elevated temperatures for the crystallographic alignment, as opposed to magnetic field alignment in sintered magnets. Special grades and isotropic (un-aligned) magnets can have properties outside these ranges (see Appendix X4). Specific magnetic hysteresis behavior (demagnetization curve) can be characterized using Test Method A977/A977M.  
1.3 The values stated in SI units are to be regarded as standard. The values given in parentheses are mathematical conversions to customary (cgs-emu and inch-pound) units which are provided for information only and are not considered 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
ASTM A598/A598M-02(2022)(Test Method)
Standard Test Method for Magnetic Properties of Magnetic Amplifier Cores

SIGNIFICANCE AND USE
5.1 The method of excitation simulates, to a practical degree, the operation of a magnetic core in a self-saturating magnetic amplifier. The properties measured are related to the quality of performance of the cores in magnetic amplifiers and are useful for the specification of materials for such cores.
SCOPE
1.1 This test method covers the determination of the magnetic performance of fully processed cores for magnetic amplifier-type applications.  
1.2 Tests may be conducted at excitation frequencies of 60 Hz, 400 Hz, 1600 Hz, or higher frequencies.  
1.3 Permissible core sizes for this test method are limited only by the available power supplies and the range and sensitivity of the instrumentation.  
1.4 At specified values of full-wave sinusoidal-current excitation, Hmax, this test method provides procedures of determining the corresponding value of maximum induction, Bmax.  
1.5 At specified values of half-wave sinusoidal-current excitation, this test method provides procedures for determining the residual induction, Br.  
1.6 At increased specified values of half-wave sinusoidal-current excitation, this test method provides procedures for determining the dc reverse biasing magnetic field strength, H1, required to reset the induction in the core material past Br to a value where the total induction change, ΔB1, becomes approximately one third of the induction change, 2 Bp. It also provides procedures for determining the additional dc reset magnetic field strength, ΔH, which, combined with H1, is the value required to reset the induction in the core material past Br to a value where the total induction change, ΔB2, becomes approximately two thirds of the induction change 2 Bp.  
1.7 This test method specifies procedures for determining core gain from the corresponding biasing and induction changes, ΔH and ΔB.  
1.8 This test method covers test procedures and requirements for evaluation of finished cores which are to be used in magnetic-amplifier-type applications. It is not a test for basic-material magnetic properties.  
1.9 This test method shall be used in conjunction with Practice A34/A34M.  
1.10 Explanations of symbols and abbreviated definitions appear in the text of this test method. The official symbols and definitions are listed in Terminology A340.  
1.11 The values and equations stated in customary (cgs-emu and inch-pound) or SI units are to be regarded separately as standard. Within this test method, SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in nonconformance with this test method.  
1.12 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.  
1.13 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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