ASTM A598/A598M Standard Test Method for Magnetic Properties of Magnetic Amplifier Cores
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- IEC 60404-5 Magnetic materials – Part 5: Permanent magnet (magnetically hard) materials – Methods of measurement of magnetic properties - Edition 3.0
- BSI PD CLC/TS 50131-11 Alarm systems — Intrusion and hold-up systems Part 11: Hold-up devices
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- BSI PD CLC/TS 50131-11 Alarm systems — Intrusion and hold-up systems Part 11: Hold-up devices
- IEC 60404-5 Magnetic materials – Part 5: Permanent magnet (magnetically hard) materials – Methods of measurement of magnetic properties - Edition 3.0
- ASTM A977/A977M Standard Test Method for Magnetic Properties of High-Coercivity Permanent Magnet Materials Using Hysteresigraphs
- IEC 60404-5 Magnetic materials – Part 5: Permanent magnet (magnetically hard) materials – Methods of measurement of magnetic properties - Edition 3.0
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- IEC 60404-5 Magnetic materials – Part 5: Permanent magnet (magnetically hard) materials – Methods of measurement of magnetic properties - Edition 3.0
- BSI PD CLC/TS 50131-11 Alarm systems — Intrusion and hold-up systems Part 11: Hold-up devices
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- IEC 60404-5 Magnetic materials – Part 5: Permanent magnet (magnetically hard) materials – Methods of measurement of magnetic properties - Edition 3.0
- ASTM A977/A977M Standard Test Method for Magnetic Properties of High-Coercivity Permanent Magnet Materials Using Hysteresigraphs
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- IEC 60404-5 Magnetic materials – Part 5: Permanent magnet (magnetically hard) materials – Methods of measurement of magnetic properties - Edition 3.0
- ASTM A977/A977M Standard Test Method for Magnetic Properties of High-Coercivity Permanent Magnet Materials Using Hysteresigraphs
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ASTM International
Standard Test Method for Magnetic Properties of Magnetic Amplifier Cores
N A598/A598M
Annotation
This test method covers the determination of the magnetic performance of fully processed cores for magnetic amplifier-type applications.
Tests may be conducted at excitation frequencies of 60, 400, 1600 Hz, or higher frequencies.
Permissible core sizes for this test method are limited only by the available power supplies and the range and sensitivity of the instrumentation.
At specified values of full-wave sinusoidal-current excitation, Hmax, this test method provides procedures of determining the corresponding value of maximum induction, Bmax.
At specified values of half-wave sinusoidal-current excitation, this test method provides procedures for determining the residual induction, Br.
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, B1, becomes approximately one third of the induction change, 2 Bp. It also provides procedures for determining the additional dc reset magnetic field strength, H, 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, B2, becomes approximately two thirds of the induction change 2 Bp.
This test method specifies procedures for determining core gain from the corresponding biasing and induction changes, H and B.
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 basicmaterial magnetic properties.
