Sendust

[′sen‚dəst]

(materials)

The trade name for an alloy consisting of approximately 85% iron, 6% aluminum, and 9% silicon; its powdered form is compacted to manufacture low-loss magnetic cores.

The following article is from The Great Soviet Encyclopedia (1979). It might be outdated or ideologically biased.

Sendust

an iron-based alloy (optimum composition, approximately 85 percent Fe, 9.6 percent Si, 5.4 percent Al) characterized by high magnetic permeability (μ₀ up to 35,000; μ_max up to 100,000), electrical resistivity (approximately 80 microohm·cm), and mechanical hardness. It is classed as a softmagnetic material. Sendust was developed in the 1930’s in Japan and is known in the USSR by the name alsifer.

Sendust is brittle and can be easily ground into powder which, when mixed with a dielectric binder, is the base material from which magnetodielectrics are pressed. The magnetodielectrics are used in radio engineering and communications technology as cores for transformers and choke coils of high stability. In cast form, Sendust is used in the manufacture of pole pieces for tape recorders.

References in periodicals archive

In the ISN Super-MSS[TM] Sendust (MS) choke structure, an alloy-powder material of the toroid core RTMSS material was used.

Electromagnetic compatibility of impedance source inverters

Among the topics are the effect of ferroelectric domain on fatigue fracture behavior in piezoelectric ceramics, preparing bismuth copper-based perovskite-type ceramics and their piezoelectric properties, the microstructure of titanium oxide films for dye-sensitized solar cells, absorption characteristics of composite electromagnetic wave absorber made of sendust particles dispersed in a polystyrene resin, controlling the microstructure of potassium niobate porous ceramics and their sensor properties, and the crystallization of tungstenbronze phase and its inelastic light scattering in niobiophosphate-system glass.

Electroceramics in Japan XV; select papers

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