DE2609836A1 - Deoxidant for liquid cast iron and steel - consists of physically bonded conventional elements simulating alloy form - Google Patents

Abstract

Deoxidant for liquid cast iron and steel consists of the conventional elements such as Al, Si, Ca, Mn, Mg, and C in the elementary form bonded physically to each other. They are bonded to each other in such a way that they simulate the concentional deoxidant alloys. Pref. they are compacted in such a way that during use they do not separate and the desired simultaneous reaction of the different elements is achieved. Typically the raw materials are compacted to the required shape under high press. with or without a bindeR. The prod. is less expensive than the conventional alloys.

Description

Patent designation:

Process for the production of deoxidation products.

Patent description: The invention relates to a method the deoxidation products from the well-known deoxidation elements Al, Si, Ca, Nn, Mg and C produces, which are used for the treatment of liquid cast iron and steel melts can be.

It is known that these elements are used individually and in the form of alloys. As the latter, they are considerably expensive because the production, which can only be done via a remelting process, is relatively expensive.

The manufacture of these alloys and their advantages that result from the closed reactions of the element compounds are known and are not intended to be the subject of this invention. It is also known from powder forms these alloy elements or their alloys to produce compacts.

In contrast, the production of compacts is not known that the have the same chemical composition as the known deoxidation alloys made of Al, Ca, Si (Alcasil) or calcium silicon compounds made of Ca, and Si (Alsical) or Siliconangan (Si-Mn) and not an alloy.

This is where the idea of the invention comes in, which is based on the Not to combine the above-mentioned desozydation elements into alloys, but rather to a physical mixture, the advantages of which are even greater sinatal @@ the alloy form.

The easiest way to form such pnyxikallsciler mixtures is when the individual deoxidation elements are mixed together.

In experiments with such mixtures, the inventor was able to determine that in these mixtures a rapid separation of the individual elements occurred and the effect that occurs in the alloys of these elements is not observed could be.

For this reason, the inventor not only has the individual elements physically mixed, but instead is carried in grain fractions that are mixed with or Can be processed into compacts without binders if they are in presses with high Pressures are compressed and in this form a separation of the individual elements prevent in use. The chemical and physical reactions in this form take place next to one another, with one another and in close proximity also nascent that they still have the advantage over the alloys from the Form of the pure elements and not only from their alloys can ru.

As a delimitation, the inventor would like to emphasize once again that the production of compacts is known, also that alloys, which from the named deoxidation elements have particular advantages. But it is unknown that proven Deoxidizing alloys through physical mixtures with the same chemical composition are, not only replaced, but can even be improved what the novelty of this invention.

It is also conceivable that certain mixtures are used not only as a dosage, but can also be used as desulphurisation products.

Claims (2)

Patent claims: 1. The manufacture of deoxidation products from the known deoxidation elements Al, Si, Ca, Mn, Mg, C, characterized that they are not chemically connected to each other, but physically and the have the same analysis of the individual elements as in known deoxidation alloys to get voted. 2. The method according to claim 1, characterized in that a physical Binding of the named elements by compression takes place in such a way that during the application no intermixing occurs and the various respondents react in good time Elements can be made.