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Improvement of mechanical workability and constancy of permeability of Fe-Ni-Si alloy by splat cooling technique
By: Teshima, N.; Narita, K.; Yamashiro, Y.; Yoshida, Y.;
1982 / IEEE
Description
This item was taken from the IEEE Periodical ' Improvement of mechanical workability and constancy of permeability of Fe-Ni-Si alloy by splat cooling technique ' Iron-rich alloy ribbons containing about 15 wt % nickel and 12 wt % silicon, which have been called Senperm, were prepared in the crystalline state using a single roller quenching method. The ribbons were remarkably flexible and had a silver-white lustre. They were not oxidized even if they were left in the air for a few months. They could not be bent 180� the minimum winding diameter was 6 mm. The magnetic properties were measured with an open magnetic circuit apparatus and an LCR-meter. The magnetic properties of the as-prepared ribbons were: initial permeability �i=500 and the range of constant permeability Hi=0.25 Oe for SP-No.1; �i=250 and Hi=1.4 Oe for SP-No.2. After annealing at 900�C for a few hours in a vacumm, the ribbons became more flexible and could be bent 180� easily. The minimum winding diameter decreased to 1.2 mm. The magnetic properties were improved noticeably and were: �i=350, Hi=0.6 Oe for SP-No.1 and �i=50, Hi=2.7 Oe for SP-No.2. It was also confirmed that �i was nearly constant up to 50 kHz. The grain strucrure was observed using a 25 kV scanning electron microscope.
Related Topics
Mechanical Factors
Workability
Permeability
Cooling
Magnetic Properties
Iron Alloys
Nickel Alloys
Silicon Alloys
Crystallization
Magnetic Circuits
Annealing
Magnetic Thermal Factors
Magnetic Materials/devices
Silicon Materials/devices
Fields, Waves And Electromagnetics
Engineering
Nickel Materials/devices