NL8005605A - METHOD FOR PREPARING MAGNETIC POWDER-IRON OXIDE. - Google Patents

Description

• * -1- 21531 / Vk / ah

Applicant: TDK Electronics Co., Ltd. Tokyo, Japan.

Short designation: Process for preparing magnetically powdered iron oxide.

The invention relates to a process for preparing magnetic, powdered iron oxide with a high coercive force and stable magnetic properties by forming a surface layer of magnetic iron oxide powder containing a cobalt compound as the main component.

A magnetic recording medium is usually prepared by applying a magnetic powder composition of a mixture of a magnetic powder and a polymeric binder to a substrate such as a polymeric film. However, there is increasing demand for a recording medium with an increased coercive force depending on the increase in the use of such a recording medium. Such a high coercive force is required for recording with a video tape which is often used, a computer tape and also a cassette tape which records at a slow speed. In magnetic recording, an amplification of the output is effected in the short-wave range, which gain is lower depending on the higher coercive force of a magnetic recording medium. Therefore, it is desirable that a higher coercive force be achieved with the recording medium that is frequently used. There are various possibilities for increasing the coercive force of the magnetic powder used in a magnetic recording medium, for which some ways have already been proposed. For example, it has already been indicated that magnetic powder with a high coercive force and with excellent characteristics can be used in magnetic recording media as mentioned during International Applied Magnetic Society in 1978. According to this method of preparing such magnetic powder, conventional magnetic iron oxide powder is (^ -Fe ^ O ^ ed) dispersed in an aqueous solution of a cobalt ion and then a strongly alkaline aqueous solution is added to the suspension so that the pH exceeds 12 and the suspension is heated to about 100 ° C for several hours and finally the powder is washed with water, filtered and dried. The magnetic iron oxide powder obtained had a coercive force of 550-570 Oe and a stable coercive force when the temperature was varied.

ο η n r β η κ -2- 21531 / Vk / ah

In this case, when magnetic iron oxide powder is used for a magnetic recording medium, it is suitable for recording at a high density and it also achieves an excellent printing effect and excellent roll-out properties and a desired durability with repeated use and good storage stability.

Within the scope of the invention, further experiments have been made to prepare such magnetic iron oxide powder and the result of this is that magnetic iron oxide powder is obtained with a higher coercive force than the conventional magnetic powder.

One of the objects of the invention is to provide an improved process for preparing a magnetic iron oxide powder with a high coercive force and stable magnetic characteristics. These and other objects of the invention can be accomplished by preparing a magnetic iron oxide powder having a high coercive force and stable magnetic properties by forming a surface layer of the magnetic powdered iron oxide, which consists of a cobalt compound as the main compound, characterized in that it magnetic iron oxide-20 powder is dispersed in water under weakly alkaline conditions and an aqueous solution of a cobalt ion is added to the suspension and then an aqueous solution of a base is added to the suspension so that the pH of the suspension exceeds 12 and the suspension is finally heated.

The coercive force of the magnetic powder is further increased by applying the method according to the invention.

In the conventional process, a magnetic iron oxide powder is dispersed in an aqueous solution of a cobalt ion and a base is added so that the pH exceeds 12 and then the suspension is heated.

In the process of the invention, the dispersion of the magnetic iron oxide is modified by dispersing the magnetic iron oxide in a weakly alkaline solution and then adding an aqueous solution of a cobalt ion and then adding a base to raise the pH then 12 and the slurry is heated to yield the magnetic iron oxide with a high coercive force.

80 05 60 5 -3- 21531 / Vk / ah

The magnetic iron oxide powder with a high coercive force and stable magnetic properties is obtained by forming a surface layer of magnetic iron oxide consisting of a cobalt compound as the main compound. The magnetic iron oxide powder is dispersed in water under weakly alkaline conditions and a solution of the cobalt ion is added to the slurry and then an aqueous solution of a base is added so that the pH exceeds 12 and then the slurry is heated.

In the process of the invention, it is necessary to disperse the magnetically powdered iron oxide in water under weakly alkaline conditions, which means a weakly alkaline solution, whereby the magnetic iron oxide powder is obtained with a high coercive force. The magnetic iron oxide powder with a high coercive force obtained by applying the method according to the invention is particularly suitable for preparing a magnetic recording medium which is used under high density.

The invention is further elucidated by means of the following examples and comparative examples, which are not to be construed as limiting.

Example I

In 1 liter of water mixed with 5 ml of 2N aqueous solution of sodium hydroxide, 100 g of acicular 3-Fe 2 with an average length of 0.4 µLbi (coercive force of 390 Oe) was added, the iron oxide being dispersed to obtain a dispersion with a pH of 8.0. Then, 50 ml of 1M aqueous solution of cobalt sulfate was added to the suspension. The mixture was mixed well and then 200 ml of 6N aqueous sodium hydroxide solution was added and the mixture was mixed and heated under boiling for 4 hours. After cooling the mixture, it was washed with water, filtered and dried.

The magnetic powdered iron oxide obtained had magnetic characteristics, namely a coercive force of 5S6 Oe and a saturated magnetic moment per unit weight of 72.3 emu / g and a cobalt content of 2.9 wt. %.

80 05 60 5 -4-, 21531 / Vk / ah

Comparative example 1

100 g of acicular-Fe-2 O 3 was dispersed in Ί liter of water, as indicated in Example 1, to obtain a suspension with a pH of 4.2. The suspension was further processed as indicated in Example I.

The magnetic iron oxide powder obtained had magnetic characteristics, namely a coercive force of 5630e and a saturated magnetic moment per unit weight of 72.2 emu / g.

In comparison with Example I, it can be said that the coercive force of the product obtained in Example I relative to the product reported in this comparative example is about 30th higher.

Example II

Following the procedure indicated in Example I, except that the amount of sodium hydroxide in water was varied in the dispersion of magnetic iron oxide powder, the further treatment was carried out as stated in Example I. The results obtained are summarized in the table. together with the results of Example I and Comparative Example 1.

Amount - 2N-NaOH (ml) __ 0 5 TO 20 50 200 pH of <the dispersion 4.2 8.0 9 »9 11.0 12.7 13.1 25 Hc value of the magnet obtained 563 596 589 578 552 528 tic powder

Hc = coercive force.

As will be apparent from the data of the table, the desired result could not be obtained under acidic conditions while the improvement of the coercive force (Hc) was obtained under weakly alkaline conditions at a pH of 11 or lower, but an adverse effect found under strongly alkaline conditions, i.e. a pH higher than 11.

-conclusions- 80 05 60 5

Claims (1)

A method according to claim 1, characterized in that the magnetic iron oxide powder is dispersed in water under alkaline conditions with a pH of 8-11. 80 05 60 5