SU1070612A1 - Ferrite material based on carbonyl iron - Google Patents

Description

ABOUT

The invention relates to powder metallurgy, in particular, to Mai-nitioelectric material on carbonyl iron-based bases.

A carbonyl iron-based magnetodielectric material with primary orthophosphoric acid isolation 1J is known, which contains polycarbonate resin as a binder in the following ratio of composites, max c. %:

Orthophosphoric acid 0.2-0.25

Polycarbonate resin 12.3-19.9

Carbon Iron OstalE

The material has a low level of fluidity, magnetic permeability and quality.

The most suitable for the technical essence and iJ, the ocTiiraemoe is 3 in a tattoo magnet electrodio ie mater ia;); ia the basis of carboxylic iron containing 3% & polyme (which, of course, is: from a low-viscous monomer that has been removed from the group containing; K1:; it is alkylene, -alkyalkylened, methacrylate 2 J.

11el; remnant of known mater; 1; ala 15L, gyyuskuyg fluid; which makes it difficult to manufacture from (from the masses; ria; that casting.:; pressure,

The goal of isoorsthenia is the hangover of fluidity with coxpaiiem-iH of a relative and a simulated G11-ioness of behavior:: relative, cortus rotus.

A co-wavelet: d: ost;: agac51 order, 1TO magnetically electri- cal material based on icapdoiiHJDjiioro iron - cac, hisno-mogun binder () contains polyamide and epoxane; but nonetheless, I have found the copolymer; ooo tiO ;; eiUiH partners, May,;

Polyamp.:., B, 6-8, 6

Epoxy-11oas-lachigai block-p-: ier

1EN5C. Karboiilyuye

iron

S og i n; e p about l have legs about c s o g s to,; g- (n e e bieniene aeimelly high magnetic properties and high degree of weight; Gesture of the material being prepared, ensuring the possibility of its processing by molding psa; yes; 1;

Polyamide has a low viscosity compared with other thermoplastic metals and bonds and better plasticizing properties, thereby achieving the ability to provide the required yield strength of the proposed material, Poly. and ENBS provides a high level of Mc1Icons and casting properties of the proposed material and allows to obtain products with high operation, -1onnom characteristics by casting under gold,

PRI me R. G1-54 is introduced into a solution of ztilous alcohol in water (70% alcohol and 30% water) at 80 ° C. After dissolving the polyamide, Magait-HY11 powder (carbonyl iron .0, GOST 13610-79) and) was introduced into the first solution; and) :: ES and Cr-v:;:.; ;; n: from;: x, E as a mixer SI to her: ;;; i.yioT a Werner type mixer (the mass of the loaded composition is 8 kg C-euiefiHG carried out for 0.5 hours, the mass is unloaded, dried; air and served for processing :: ku on thermogastavto1.1at.

LH measurements of magnetic magnetic wires; made in thermoplastastomat; c -: aru; k; 4G in diameter, morning: 32 mm in diameter and 1.0 mm in diameter. Temperature Jiist 25 0 C.

; j, definitions of 1 cite;

: from t to .aJiOH on the device MIRT opre; ; eL; P01 yield flow ratio; ; va. Temperature of operation is 250 ° C. Re:: Ultaty test P1y given in the table.

As follows from the data, which exceeded the table, the proposed material is relative to

:) mouth from and

jviaiHHTayio permeability ds .- J, 1 3, 3, flowability 5.2-22.0 g / 10 ..

In the results of the tests, the optima was determined. pressure., Pressure in 1; ilderre; chchoplastavtoma 80 hPa, temperature l.yyy 25 (, temperature injection molding FORG. 70-75 ° C.

Published1;.; И.ч from the proposed mat (;: rial can be used; single) : m under the pressure, and reduce zatra. ria their manufacture.

Comparative data on the yield properties of the magnetic parameters of the proposed and known magnetodielectric materials

Claims (1)

MAGNETODIELECTRIC MATERIAL BASED ON CARBONYLON IRON, containing a polymer binder, characterized in that, in order to increase fluidity while maintaining relative magnetic permeability and relative quality factor, it contains polyamide and epoxy-wad block copolymer in the following ratio components, wt.%: Polyamide Epoxynovolac block copolymer Carbonyl iron 6.6-8.6 0.3-0.5 Rest 2 S (L V g CZ 1-" v