DE1433429C3 - Use of an inoculating alloy based on ferrosilicon for cast iron - Google Patents

Description

The invention relates to the use of an inoculating alloy based on ferrosilicon with strontium as an active ingredient in the manufacture of cast iron.

Cast iron generally contains 2 to 4% carbon as the main alloying element. This can be in Present in the form of graphite, in which case one speaks of gray cast iron, or in the form of Iron carbide, in which case one speaks of white cast iron. The strength of gray cast iron leaves regulate themselves by changing the amount and shape of the graphite. There are z. B. Process developed by which the graphite assumes a spherical shape, the highest strength and an improved one Ductility results.

The structure and properties of gray cast iron, especially when the graphite is spherical present, can be further improved by adding an inoculating alloy, which is the liquid metal is added immediately before pouring. Inoculation is an essential feature in manufacturing of high strength cast iron. If the inoculation alloy is insufficient, they contain cast iron carbide in thinner sections, and the required mechanical properties do not occur.

Ferrosilicon, which is the most widely used inoculating alloy, usually contains 75 to 80% Silicon. Pure ferrosilicon has a very low inoculating effect. The usual foundry ferrosilicon is preserved its effect of small contents of subordinate elements, namely aluminum and Calcium that stimulate the vaccination effect. The vaccination effect is more or less proportional the aluminum and calcium levels when they are small. On the other hand, the use of Ferrosilicon with a few percent of aluminum is a potential cause of the so-called pinhole porosity, especially in nodular cast iron, while the use of calcium leads to slag defects can lead.

In the manufacture of cast iron with a spherical Graphite has a great tendency to form white cast iron in thin cross-sections, and This is precisely why a very effective graphitizing inoculant is necessary.

For the production of high-quality cast iron, it is also known to adjust the composition of the starting charge so that initially a greater tendency towards metastable solidification is obtained, after which the graphitizing agent is added in an amount necessary to achieve the desired lower tendency towards metastable solidification. The agent is an alloy of an alkaline earth metal and silicon and an alkaline earth fluoride. As a silicon-containing agent, SiI ^; ziumverbindungen ^ es iron, zirconium, titanium, nickel, barium, strontium or magnesium are used.

As graphite-forming agents for gray cast iron: metallic calcium and magnesium are also used knows, also alloys or metal mixtures, ie

ίο contain both alkali and alkaline earth metals From U.S. Patent 22 90 273 is a

Inoculation alloy for cast iron known that this in the molten state or immediately before the Pouring is added and contains iron, silicon and aluminum, preferably calcium Zirconium and manganese.

The silicon content can be between 25 and 85%, preferably between 60 and 80%. Deiron content should not exceed 65%, while c

ao the aluminum content is between 0.25 and 10%, preferably between 0.5 and 6%. If Kalziurr is present, then the content should be below 16%, preferably between 1 and 5%. It becomes the sees represented that the inoculation alloy is an especially

The more cast iron it produces, the more components it contains. Therefore, the preferred composition should consist of 60 to 80% silicon, 1 to 4% aluminum, 1 bh 4% calcium, 4 to 9% zirconium, 4 to 9% manganese and the remainder iron. It is also recommended to replace less than half of the Kai zium with one or more of the metals barium, strontium, magnesium and beryllium. Of these, the zirconium can in turn be replaced by vanadium, uranium, niobium, tantalum, cerium or thorium. The zirconium can also be completely or partially replaced by titanium.

The object of the present invention is the use of an inoculating alloy based on ferrosilicon in the manufacture of cast iron, both for cast iron with lamellar graphite or with spheroidal graphite is suitable and has a greater inoculating effect without the risk of defects in the casting consists of aluminum and / or calcium.

This problem is solved by using an inoculating alloy based on ferrosilicon with 75 bi; 80% silicon and an aluminum content of less than 1% and the lowest possible calcium content and a strontium content based on an addition of 1 to 4% strontium during manufacture based, for thin-walled castings made of cast iron with lamellar graphite or with spheroidal graphite without Annealing with the exclusion of the risk of forming defects in the casting due to aluminum and / or Calcium.

It has been shown that strontium itself does not have a noticeable vaccine effect, but that it does silicon-based vaccine increased. This effect is not directly proportional to the strontium Content, but reaches its maximum at 2% of the added strontium.

A number of practical attempts have been made with ferrosilicon alloys with various additives zen with different strontium contents carried out. The alloys containing strontium.

were melted in a vacuum furnace in an argon atmosphere.

The results of the tests show that it is possible to use a silicon-containing inoculant when casting

iron both _; to be used with lamellar graphite as well as with spheroidal graphite, which in the presence of strontium shows a considerably stronger inoculation effect than inoculation with conventional ferrosilicon. In addition, this inoculation alloy to be used according to the invention can actually be free of aluminum, which reduces the potential danger that. results from small additions of this element and which occurs automatically with normal ferrosilicon, is avoided.

In this respect the effect of strontium is analogous, but stronger than the known effect of aluminum in ferrosilicon. However, strontium differs from aluminum in that the simultaneous presence of calcium and strontium eliminates its effect, whereas calcium further increases the effect of aluminum. Aluminum contents up to 1% do not seem to impair the effect of the addition of strontium, but aluminum contents ¹ above 1% reduce the effect that can be achieved by the strontium.

A commercial ferrosilicon with 75% silicon has an improved vaccination effect when 1 to 4% strontium is added to it. The effect is greatest when the addition is 2 ° / o.

The ferrosilicon to which the strontium is added must have low levels of aluminum and calcium to have. Ferrosilicon to which strontium is added must have the lowest possible calcium content and must contain less than 1% aluminum if the full effect of the strontium can be used should be made.

The inoculating power of ferrosilicon, which contains strontium, is best demonstrated in spheroidal graphite cast iron. When thin castings are made by the conventional method, one is high Degree of inoculation required, and even then castings 13 mm in diameter or less must be used still to be annealed. Try to improve the vaccination by getting very large amounts added by ferrosilicon resulted in only a minor benefit. It also increases by very large Additions of normal ferrosilicon the risk of the formation of pores, which are caused by the ferrosilicon

ao zium introduced aluminum is created.

It is similar with the use of an inoculant containing strontium in cast iron with flake graphite possible to produce very thin castings, the risk of hard edges being considerable

»5 is reduced.

Claims (1)

Claim: Use of an inoculating alloy based on ferrosilicon with 75 to 80% silicon and a Aluminum content of less than 1 ° / o and the lowest possible calcium content and one Strontium content based on the addition of 1 to 4% strontium during manufacture for thin-walled cast iron pieces with lamellar graphite or spheroidal graphite without annealing excluding the risk of defects in the casting due to aluminum and / or Calcium.