SU1764087A1 - Water-based magnetic fluid producing method - Google Patents

Description

one

(21) 4889649/02

(22) 12.12.90

(46) 09/23/92. Bul No. 35

(71) Leningrad Institute of Technology. Lensoveta

(72) V.V.Kartashev, O.V. Buzunov, N.M. Gribanov, V.N. Naumov, A.V. Pokrovsky and A.V. Polkov

(56) USSR author's certificate

No. 1074826, cl. C 01 G 49/08, H 01 F 1/28, 1984.

US patent number 4208294, CL. H 01 F 1/28, 252-6252,1980.

(54) METHOD FOR OBTAINING MAGNETIC FLUID ON AQUATIC BASIS

(57) Use: relates to the technology of obtaining water-based magnetic fluids used in ferrohydrostatic separation, for visualizing magnetic sound recordings, in magnetic

flaw detection, recording as magnetic ink, abrasive processing of materials, in measuring instruments. SUMMARY OF THE INVENTION: Precipitated magnetite is precipitated with hydroxide from an aqueous solution of ferrous and ferric iron salts, separated from the mother liquor, and stabilized in water using an ammonium monododecyl ester of dibasic acid selected from the group: orthophthalic malein and amber, while the ammonium salt of monododecyl ester of dibasic acid is taken in the amount of 0.35 - 0.5 wt.h. for 1 h of magnetite, and the process is carried out at a temperature of 80 - OO ° C to pH 6.5 - 7.5. The method allows to obtain a water-based magnetic fluid with a saturation magnetization of up to 28–31.5 kA / m, which is resistant to dilution by water by a factor of 80–500. 1 tab

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The invention relates to the field of water-based magnetic fluids used in ferrohydrostatic separation, for visualizing magnetic sound recordings, in magnetic flaw detection, recording as magnetic ink, abrasive processing of materials, in measuring instruments.

The aim of the invention is to increase colloidal stability and increase the maximum saturation magnetization of the magnetic fluid.

The invention is illustrated by the examples in the table.

The magnetic fluid is prepared as follows. A solution containing 47 g of FeCb 6H20 and 25 g of FeS04 7H20 in 400 ml of water,

poured into 600 ml of aqueous 5% ammonia solution. The precipitate formed (20 g of magnet) is separated from the mother liquor on a suction filter and washed twice with 500 ml of water. Then the wet precipitate of magnetite is placed in a glass containing a 10% aqueous solution of the ammonium salt of monododecyl ether and dibasic acid. The mixture is heated to 80 - 100 ° C and stirred. The end of the process is fixed to achieve a pH of 6.5 - 7.5.

The main technical and physicochemical parameters of the samples were investigated. The research results are summarized in the table.

The proposed method allows to increase the stability of magnetic fluids to

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ABOUT

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dilution with water from 50 times to 80 - 500 times, when exposed to a magnetic field from 100 kA / m to 400 kA / m, when centrifuged from 5-10 m / s2 to 2-U5 m / s and also allows you to increase the maximum saturation magnetization from 16 kA / m to 28 - 31.5 kA / m,

Claims (2)

Claims 1. A method for producing a water-based magnetic fluid, which includes precipitating highly dispersed magnetite with hydroxide from an aqueous solution of ferrous and ferric salts, separating it from the mother liquor and stabilizing it. 0 its in water using a surfactant, characterized in that, in order to increase colloidal stability and increase the maximum saturation magnetization of the magnetic fluid, the stabilization is carried out by the ammonium salt of dibasic monododecyl ester selected from the group: ortho-phthalic acid, maleic acid and succinic acid, and ammonium salt is taken in the amount of 0.35 - 0.5 wt.h. on 1 h. magnetite. 2. The method of pop. 1, characterized in that the stabilization is carried out at 80 - 100 ° C to a pH of 6.5 - 7.5.