Compositions: coating or plastic – Coating or plastic compositions – Molds and mold coating compositions
Reexamination Certificate
1999-01-05
2002-01-15
Marcheschi, Michael (Department: 1755)
Compositions: coating or plastic
Coating or plastic compositions
Molds and mold coating compositions
C106S038270, C106S038280, C075S305000, C075S314000, C075S230000, C075S232000, C075S243000
Reexamination Certificate
active
06338753
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a product in powder form intended to protect moulds (often termed “shells”) for the centrifugal casting of cast iron tubes.
DESCRIPTION OF RELATED ART
The products used for the protection (or lining) of shells for the centrifugal casting of cast iron tubes are in powder form containing an inoculating alloy intended to treat the outer surface of the tube. This alloy is most often ferro-silicon based, possibly alloyed with calcium, aluminium and/or strontium and possibly other elements such as manganese and zirconium. The silicon and calcium may also be added in the form of a silicon-calcium alloy. They also contain inert mineral powders such as carbon, silica, fluorspar and other fluoride compounds whose role is to aid withdrawal of the tube after casting. For centrifugal casting of cast iron tubes, U.S. Pat. No. 4,058,153 (Pont-a-Mousson) for example describes the use of a lining made of a mixture of silica and bentonite and a thin layer of inoculate, for example ferro-silicone.
Industrial synthesis of silicones is made from alkyl or arylhalosilanes, in particular dimethyldichlorosilane, obtained by reaction of a contact mass containing powdered metallurgical silicon with methyl chloride at a temperature of between 300 and 350° C. in the presence of a catalyst containing copper and optionally tin. This reaction known under the name Rochow reaction is used worldwide and leaves considerable quantities of residues, termed waste contact masses, in the form of sludge containing various metal elements in silicide, silicate or oxide form.
These waste masses which are no longer reactive under Rochow reaction conditions, remain reactive to air and they must be rendered passive prior to their disposal as waste. There are numerous methods, generally consisting of oxidizing the product either in air or in an aqueous medium. Hence, U.S. Pat. Nos. 4,892,694 and 5,126,203 by General Electric suggest stabilizing the waste masses in the form of pellets impregnated with an organic binding agent such as lignine. U.S. Pat. No. 5,274,158 by the same company suggests treating the residues by heating to between 900 and 1500° C. in an inert atmosphere, and patent EP 0601796 suggests heating to between 400 and 800° C. in an oxygen atmosphere.
Other methods have been put forward in an attempt to recycle the waste masses into products that can be re-used, avoiding their disposal as waste. For example WO 95/27086 by Elkem describes the treatment of waste masses in an electric arc furnace to collect the silicon and copper. Patent application EP 0786532 by Elkem describes the manufacture of bricks made up of silicon-based residues mixed with carton, hydraulic cement and a ferro-alloy than can be used as a metallurgical additive. Patent application EP 0794160 by the applicant describes the recycling of waste masses in the form of a refractory powder containing silicon nitride which, when mixed with an organic binding agent, can be used as stoppers for casting holes in blast furnaces or electric metallurgy furnaces. It nevertheless remains necessary, given the considerable development in the production of silicones, to find other possibilities for recycling waste masses.
SUMMARY OF THE INVENTION
The object of the invention is a powder product to protect moulds for the centrifugal casting of cast iron tubes, made up of a mixture of mineral powders and a silicon-based inoculating agent for the cast iron, characterized in that one part at least of the silicon is derived from waste masses of silicon produced by the synthesis of alkyl or arylhalosilanes. The inoculating agent may be ferro-silicon based or it may contain another silicon alloy comprising for example aluminium, calcium, barium, strontium, manganese and/or zirconium.
The invention also relates to a method for manufacturing a powder product to protect moulds for the centrifugal casting of cast iron tubes, consisting of:
a) treating a waste mass derived from the synthesis of alkyl or aryl-halosilanes to remove their tin and possibly their copper content,
b) adding silicon or silicon alloy powder to the treated mass such that its silicon content can be adjusted to a pre-set value,
c) possibly incorporating into the mixture, if the silica content is less than a pre-set value, a mineral powder that is inert vis-à-vis the other components, such as silica, carbon or fluorspar.
DETAILED DESCRIPTION OF THE INVENTION
If the waste masses collected on exiting the reactor contain tin derived from the catalyst used in the Rochow reaction, they are first treated with for example a sulphuric acid solution containing 15 to 50% by weight of pure acid at a temperature of between 20 and 100° C. The tin and copper are removed in the form of sulphates which may be re-used. The insoluble fraction, namely the purified mass is then dried and has the form of a powder with a grain size of less than 0.1 mm.
Depending upon the origin of the waste mass and reaction conditions, the non-oxidized silicon content varies considerably, and this variability is a major obstacle to its recycling in industrial applications which require minimum reproducibility. To make a product for the protection of moulds for the casting of cast iron tubes which has similar properties of use to those commonly used, it is necessary to adjust the silicon titre by adding ferro-silicon or a silicon alloy containing up to 5% of one or more elements such as calcium, aluminium, barium, strontium, manganese or zirconium such that an inoculating capacity can be maintained that is more or less constant vis-à-vis the cast iron.
The final mixture is then prepared having a grain size of less than 200 &mgr;m, through the addition of an inert mineral powder containing for example carbon, fluorspar or other fluoride compounds or silica, taking into consideration the silica already provided by the waste mass which may in some cases prove to be sufficient thereby avoiding any further addition.
To successfully conduct these two successive mixing operations, the quality obtained must be controlled at each stage of the process, which assumes the availability of an evaluation test for the inoculating property of the base material, and a specific application test for the protection of the shells for centrifugal casting.
To test the inoculating power of the base material, that is to say the mixture of the purified waste mass and the inoculating alloy with added silicon, a crucible of pig iron is treated in an induction furnace with the addition of 1% by weight of the base material, and it is then cast into a sand mould to obtain test pieces of different thicknesses. Using optical microscopy, the temper thickness of these test pieces is measured, that is to say the thickness of the skin of perlite structure around the core of the piece whose structure is ferritic.
For the specific assessment of the adequation of the final product for the protection of tube casting moulds, liquid iron is cast into a fixed cylinder mould with a vertical axis in porous sintered metal whose outer part is surrounded with a sealed casing to allow vacuum drawing on the outer part of the mould. With this system it is possible to maintain the protective powder that is to be tested on the inner surface of the mould, thereby preventing this powder from being swept away by the flow of liquid iron at the time of casting. A cylindrical core in agglomerated sand placed in coaxial position will provide toric shape simulating the shape of a tube. The inner surface of the mould is made at an angle of 2 degrees to facilitate removal from the mould. The quality of the tested products is determined in relation to mould withdrawal time of the piece under the sole accent of gravity, and to temper depth observed on the outer skin of the piece. The test is conducted with constant titration of the product to be tested at 200 g/m2/ The liquid iron required for the test is previously treated at 1550° C. through the addition of 14 g/kg of nickel-magnesium alloy containing 15% magnesium.
REFERENCES:
patent: 4058
Margaria Thomas
Siclari Roland
Dennison, Scheiner Schultz & Wakeman
Marcheschi Michael
Pechiney Electrometallurgie
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