Abrasive grains consisting of polycrystalline alumina

Abrasive tool making process – material – or composition – With inorganic material – Metal or metal oxide

Reexamination Certificate

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C051S307000, C501S127000, C423S625000, C264S005000, C264S012000

Reexamination Certificate

active

06613114

ABSTRACT:

TECHNICAL FIELD
The invention relates to alumina-containing abrasive grains formed of crystals having a size of approximately a few dozen microns, obtained by quick solidification of molten alumina.
PRIOR ART
The use of abrasives containing alumina is a very old practice dating back to the use of emery already known to the Greeks. Since the mid-20
th
century the synthesis of corundum, obtained by melting and solidifying alumina, has provided abrasive grains made up of &agr; alumina crystals with a compact hexagonal structure, having a size of several millimetres. Through misuse of language, this type of material was given the name of electro-fused corundum. It is of course a solid material whose denomination alludes to the method of preparation.
The abrasive grains obtained by grinding electro-fused corundum are, for the most part, made up of hexagonal monocrystals and their mechanical properties are those of alumina crystals and cannot be improved.
To obtain improved mechanical and abrasive properties it has long been sought to produce a material made of crystals as small as possible, each abrasive grain being formed of an assembly of crystals, so that its mechanical properties are imparted not only by the nature of the crystals of which it is made up, but also and above all by the existence of numerous grain joints enabling grain consolidation.
Hence U.S. Pat. No. 1,192,709 (Carborandum) filed in 1914, describes electro-fused alumina with crystals of between 10 and 300 &mgr;m in size (average of 100 &mgr;m) cast in thin plates in a narrow ingot mould less than 150 mm thick. This means of quick solidification was also investigated by Alcoa in 1932 (U.S. Pat. No. 1,798,261 and U.S. Pat. No. 1871793) which suggested atomizing electro-fused alumina to convert it into hollow spheres having a diameter of less than 5 mm and formed of crystals of less than 250 &mgr;m. A fairly similar technique is described in patent GB 284131 by Metallbank. U.S. Pat. No. 3,781,172 allows crystals of electro-fused alumina to be obtained that are less than 50 &mgr;m in size by casting the alumina on a bed of cold granules having the same composition, which accelerates cooling. Experience has shown, however, that this technique does not give a good yield, since the liquid alumina does not penetrate well between the cold grains.
Patent FR 1319102 (Norton) filed in 1961, describes a method and means for quick-cool casting of alumina abrasives, consisting of casting a thin strip on a rotating cylinder. The crystals obtained have a size of between 1 and 30 &mgr;m. Patent FR 2242462 (Norton) filed in 1977 relates to a method and equipment for casting abrasives between two metal plates to form a thin strip. The quenching effect is limited in this case by the low thermal conductivity of corundum. These thin-plate casting methods do not appear to have led to any production at industrial level.
1979 saw the introduction of alumina derived from a sol-gel method, obtained by calcining and sintering alumina hydrate, most often boehmite, itself obtained by precipitation from a solution of an aluminium salt or alkoxide. With this type of material it is possible to prepare abrasive grains formed of an assembly of crystals having a size of less than one micron, which gives them excellent mechanical properties. Today this material is routinely used for the production of grindwheels to the proportion of approximately 30% by weight of the total composition, the remainder being conventional electro-fused corundum. The high cost of sol-gel alumina is the reason most frequently put forward to account for this proportion of 30%.
The purpose of the present invention is to provide an electro-fused alumina, which maintains the morphology particular to electro-fused aluminas, but has much finer controlled crystallisation than the corundum of the prior art and clearly improved abrasive properties.
OBJECT OF THE INVENTION
The object of this invention is an abrasive grain containing electro-fused alumina, characterized in that it is formed of crystals of hexagonal structure less than 100 &mgr;m is size, preferably less than 30 &mgr;m, and further preferably less than 5 &mgr;m, whose density is greater than 97%, preferably 98%, of the theoretical density of alumina and whose Knoop hardness is more than 2000.
A further object of the invention is a method for producing alumina-based abrasive grains, comprising the melting of alumina, its casting at a constant flow rate of less than 80 kg/min, and its cooling by dispersing the molten alumina in fine droplets to produce particles having a size of less than 1 mm. This dispersion is preferably conducted by ultrasound-assisted atomization using a frequency of between 15 and 50 MHz.
DISCLOSURE OF THE INVENTION
By analyzing the properties of sol-gel aluminas and the results obtained with grindwheels made with this type of material, the applicant arrived at the following conclusions:
the hardness of sol-gel aluminas is very high (HK Knoop hardness of 2100 to 2200) much greater than the hardness of electro-fused corundum of the prior art.
the particles of sol-gel alumina and the particles of electro-fused corundum have different morphologies: while the particles of electro-fused corundum are angular and have sharp edges, the particles of sol-gel aluminas are much more massive and have a rounded shape.
the microstructure of sol-gel alumina is very fine and made up of hexagonal crystals of x alumina of submicron size, whereas the microstructure of electro-fused aluminas is essentially monocrystalline.
grindwheels made of different proportions of sol-gel alumina and corundum have shown that a grindwheel made with 100% sol-gel alumina gives poor results, and the association of corundum and sol-gel alumina is indispensable in order to obtain the result levels claimed by manufacturers of sol-gel alumina.
Attributing such good results to the association of a cutting product, corundum, with a very hard reinforcement material, sol-gel alumina, which conflicts with everything that has been said or written on the matter, the applicant therefore sought to assemble in one single material the morphology of as electro-fused corundum grains and the hardness of sol-gel alumina. The solution investigated was quick solidification for the precise purpose of obtaining crystallization that is as fine as possible.
Having regard to the physical properties of corundum (solidifying point and thermal conduction in the solid state), the conventional techniques used to obtain quick solidification proved to be largely insufficient to obtain sufficient reduction in crystal size.
Therefore, experience has shown that to obtain crystals of approximately 200 &mgr;m, casting needs to be made to a thickness of 5 mm, which is both highly restrictive and little productive in respect of the crystal size obtained. Atomization was suggested by U.S. Pat. No. 1,871,793 already cited, with which it is possible to obtain hollow spheres with a diameter of less than 5 mm and a wall thickness of less than 250 &mgr;m. No indication is given as to the size of the crystals. Other methods of quick solidification were put forward at a later date, such as those described in Norton patents FR 1319102 and FR 2422462 which describe cooling rates comparable with those of conventional quenching techniques leading to relatively coarse crystal sizes of the order of 200 &mgr;m. They are therefore of little practical interest. It is to be noted however that obtaining finer crystallization would be advantageous, since it modifies the behaviour of the material during grinding and can achieve a distribution of grain size which is maximum at the screen size corresponding to the size of the crystals.
Wishing to investigate means able to further improve the performance of abrasive grains containing electro-fused alumina obtained by quick solidification, the applicant found that one important parameter in order to obtain very fine crystallisation is the casting flow rate of the liquid corundum which must be maintained below 80 kg/min, preferably below 50 kg/mi

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