DE1571211A1 - Filler mass - Google Patents

Description

Munich
A 1058

_{J'XK n} HBUZ AGULAR

without »PiaazaoauefStf.l

Avco Corporation, New York 17 »New York, V.St. ν * Α

Filler mass

This invention relates to a filler composition for one organically bound abrasion object, such as an abrasion disk, and in particular, an improved filler composition for organically bonded metal-filled abrasive disks of the type described in German patent application No. B 81102 of March 22, 1965, which relates to a Abrasive wheel containing abrasive particles bonded with a resin also refers to one small-scale metallic filler of high electrical and thermal conductivity *

In particular, the high conductivity of the metal-filled structure results in the grinding process The heat generated is carried away from the surface of the pane, thereby reducing the heat generated by thermal destruction Wear of the structure is reduced

Discs

4.6984-9 / 031 "

Discs according to this more recent invention have been used in numerous Applications achieve extraordinary success. However, in certain other applications, even these disks with their large thermal conductivity are used too hot when grinding, the workpiece will burn and, in extreme cases, choke the machine away. The present invention described herein circumvents these difficulties and provides one Disc has been developed which is suitable for use in these problematic applications is.

One object of the invention is a filler breed for an organically bound tear-off object, which the limitations and disadvantages of previous designs avoids.

Another object of the invention is a filling compound for an organically bound abrasive article or a disc that shows a maximum useful life of the wear particles by using a "die * is present, which holds the abrasive particles securely until they are worn out, and this »then ■ Releases at the right time so that new abrasion particles are ready for grinding the work piece * stand·

0098 * 9/0315

An object of the invention is a filling for a organic bonded abrasive article in which a second filler used together with the M _e tall to accelerate the abrasion of the structure.

One object of the invention is a filling compound for an organically bound abrasion article, in which an abrasive is used as a second filler along with the metal to make the abrasion to accelerate the structure.

An object of the invention is a method for Adjustment of the degree of grinding of a filled with metal organically bound abrasion article.

As in the entire grinding wheel industry in general is known, must when choosing a suitable binder for the particular grinding purpose of a grinding wheel great care must be taken so that the abrasive grains have a maximum useful life is obtained. This is especially important when very expensive abrasives such as Hamant are used as abrasives. The binder must be the abrasive grain hold on until the grinding points

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are smoothly removed; then the grain must be released so that new sharp grinding points are available If the tie has inadequate strength, if the abrasive is released prematurely} the disc has a short service life, which is associated with high costs is. On the other hand, if the binder holds the debris too tight, the grains will not stick of the abrasive surface when they become dull, and the disc becomes smooth, heavy, and grinds no longer.

The usual way to make sure you have the right wheel for a particular grinding operation Is available, is to change the binder and develop a degree system. This is in the The grinding wheel industry is well known and requires little explanation. Slices at the "hard" end of the degree system have an extraordinarily tough binder, which every grain during the whole maximum useful life. These discs show when they are working properly be used, a long service life and the greatest economic efficiency · However, if a The disc is too "hard", but the abrasion particles are not

from

00984 9/0315. _BA d original

detached from the binder and the disc becomes smooth and no longer grinds. A "softer" grade disc which is quickly consumed must be chosen.

The degree of grinding is often changed by the fact that the drying time and temperature can be changed or the same by adjusting the proportions of the filler-binder ratio or by changing the ingredients in the binder. This invention does not use any of these known techniques »The degree of grinding is set by modifying the filler material»

Usually when a grade system is developed, discs that are "harder" in the grind grade or in are included the abrasive effect are, a binder mass that after conventional hardness measurement methods, such as the Rockwell test or one of the other familiar hardness determination arrangements, is also harder. These binder compounds are also stronger and have a higher modulus of rupture

In the metal-filled binder of the aforementioned recent inventions Bock Well hardness and modulus of rupture are quite low, .he but a surprisingly "hard · ¹ * has ski eleven effective" Try the ski eleven effective this disc purposes producing a softer acting slice through change conventional techniques,

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were unsuccessful »A highly usable solution resulted emerged from the discovery that some of the metal filler could be replaced with a second filler can to achieve the desired result

The selected second filler material belongs to a class of hard refractory and ceramic materials, and it was found that by introducing such a material a binder mass can be produced, which is harder on the Rockwell scale and one Has higher modulus of rupture · This result was expected, but the surprising thing is that this is unique Binder mass has a softer sotileif effect, and the The degree of grinding becomes increasingly softer with increasing additions of the hard filler, while the binder mass itself becomes increasingly harder.

Table I, below, shows results obtained when sample test bars with varying proportions of filler mass were made to confirm the physical properties of the binder!

Table X

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Table I.

Filler mass

- # in the binder

157121

ceramic metallic . Rockwell fracture Degree of grinding Particle Particle -Hardness module the Scheiber (kg / mm) 100 0 100.3 17.18 soft 75 25th 9 ^, 8 Sample blistered soft · 50 50 88.8 soft 25th 75 83.7 13.87 soft 0 100 78.2 13.68 hard

The use of hard, inert particles as filler in organically bound panes is not itself a new idea. In all previous cases, however, the effect of such fillers has been to make the grinding wheel harder in grinding action. This effect usually takes directly to the M _e length of the added hard filler to.

It is believed that the unexpected of the present invention result obtained from a combination of effects to » is to be attributed. First of all, the hard particles used themselves have an abrasion ability and increase it Binder action and promote binder wear * Though

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the

COPY

di · only «with metal tersthene disc« a much larger * thermal conductivity as di © according to the invention * Öeh » be has and one should expect that this has a firm grinding effect, shows this effect at certain problematic applications. waiting for those problems, eioh proved that Disc according to the invention as a colder grinding than the only metal filled * disc.

Table II shows results of actual tests, which were made with slices in applications where the tall stuffed only with M _e Disc been tried and found to be too "hard" in her abrasive effect · The graduation begins numerically with ^H 2, "which the represents the hardest grade (comes closest to the metal-filled disc), and extends to "5 ** the softest manufactured grade in the series of degrees ·

use

Sanding metal edges

Grinding of metal edges

Grinding of metal edges

strong feeds

Table II

Degree

4 9 / ö 3 1 p

BATH ORIGINAL

Remarks

free grinding wheel lifespan pelter

Best ever disc

free g sehlijfytat * triple * ϊϊ © Ϊ * μ4.% Lifespan ,

muf ri eden * t eil jim & t Cut, '.'. . #

Lifespan »^ normal

Portion of Table II

use

high feed rates freehand grinding

Degree

Remarks

Lifespan} 2 i / 2 times default

Extraordinary S chie if wirkun g, life somewhat low

This phenomenon can be explained as follows will"

In the case of one only filled with metal, for a special one If the disc is too hard, the grinding effect stops » as well as the diamonds become dull and the disc just rubs the workpiece and calls a very large amount Frictional heat that passes through the disc is discharged to the spindle. This effect is based entirely on the high conductivity of the binder, which that effectively removes heat from the workpiece The effective dissipation of heat prevents the necessary abrasion of the binder «

On the other hand, it leads in the disc provided with the filler composition of the invention as well as the diamonds begin to become dull and inhibitory to the fact that the Frictional heat rather than quickly through that

^Kl 009849/0315 - _{h 4} . _K

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To be removed from the disc, remains in the area between the target disc and the workpiece and causes the thermal removal of “the bond”. At the same time, the hard ceramic particles cause the bond to be mechanically abraded. In addition, the ceramic particles have a higher coefficient of friction than the metal filler rigid ' ¹ or the bond and actually generate more heat, thereby increasing the thermal abrasion speed of the bond. The speed at which the abrasion particles are separated from the disc is a direct puncture of the speed of the abrasion, the bond «

The novel features to be regarded as characteristic of the invention are defined in the following claims formulated “The invention itself is best of both construction and method of the following Description of a special execution form of the invention where additional advantages and objects thereof are set forth.

The materials used to carry out this invention consist of metal powder _r which are selected in such a way that they have a thermal conductivity in ο & ΐ / οκ ^Ζ / ο% / * θ / ° 0 of more than 0.500 and an electrical conductivity in microohms / cm (at . 68 ⁰ G) of a few? tie 3 * 0 hftfees *

These powders can be pure metallic element _"t mixtures or powders of alloy metals to be.

That. Second PÜllstoffmaterial used to carry out the invention is selected from a group of hard ceramic or refractory materials such as silicon carbide _t aluminum oxide, quartz or other materials which have a greater hardness than the metal «

The particle sizes of the M _e talls and the second filler are similar and are of the order of 325 mesh, respectively, but preferably smaller particles of the second filler should be used * The homogeneity of the mass of filler is improved when the particle size of the second filler decreases.

In a preferred embodiment of the invention, 325 mesh copper powder was used as the metallic component and a 1000 grit silicon carbide was used as the hard ceramic component Micron. The preferred resin used in this regulation is a Bakelite resin, BRP3? 27 · The abrasive particles are made of, for example

_Α _. «,, _α Αΐ diamond

Diamond with a grain size that depends on the manufacturing and grinding speed conditions.

Other suitable substances instead of the diamond abrasive are ^ aluminum oxide in any form, molten, natural or sintered alurainium oxide, emery, other abrasive oxides and certain hard carbides.

The most commonly used organic binder material in these discs is a phenol forraaldehyde resin as stated above. However, it can be through any of the various others common grinding wheel resins made of melamine, Urea formaldehyde or other types are replaced. Mixtures of resins can also be made according to known Standard procedures are used »

The abrasion part of the disc is preferably composed according to the following rule:

Component of usable area

Copper powder, 325 mesh 20-70

SiC, 1000 semolina 5- ^ 5

Resin _ _{10 25}

Abrasive 3-30

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furfural is added as a wetting agent in the amount of 45 cm 'per 0.4536 kg of resin.

As is customary with diamond discs, the wear part is mounted on a housing or a preform. This housing can be of a type commonly used in industry, albeit a metallic one or metal housing is preferred. It will evidently have a completely homogeneous structure Oxide and carbide abrasives used.

For the purpose of producing the grinding edge, the metallic powder, the hard ceramic particles and the Abrasive material carefully mixed together, the Benet> The agent is added along with the previously weighed powdered resin or resins. These Mixture is poured onto the housing or preform, hot-pressed and in a 21-hour mold Hardening process hardened at a temperature not exceeding 2O5 ° C.

After this K _r finduii / "produced discs have proved successful in many Work courses where filled with Mßtnll slices of anfanga application referred to in the Schißifwirkung were too hard" Si "can woidon at higher Elneteohvoraehüben are free grinding and require

little

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little grinding support

The various T _{U R} ES and advantages of the invention should emerge clearly from the foregoing description · Various other features and advantages that are not specifically enumerated will present themselves to those skilled undoubtedly, similar to many alterations and modifications of the preferred embodiment illustrated * These can all can be achieved without departing from the scope of the invention as defined by the following claims.

Claims

A 1058
Dr »Pa./p

009849/0316 BADOR ₁ G ₁ NAL

Claims (2)

Patent claims 1. Filler compound for an organically bound ab- rubbed object, characterized in that it is metal particles and particles of a second material which has a greater hardness than that of the metal particles having. 2. Filler mass according to claim 1, characterized in that that said second material is a non-metallic material such as ceramic and refractory Oxides and / or carbides. 3 »Filler composition according to claim 2, characterized in that said second material is silicon carbide or tungsten carbide or aluminum oxide or a mixture thereof. H. Filler according to claim 1, 2 or 3 »characterized in that the M _e tallteilchen copper or silver or aluminum and / or mixtures and / or alloys thereof. 5 * filler mass according to one of the preceding claims, characterized in that the amount of metal particles within the range of 10 VoI · - £ BATH ORIGINAL 009849/0 315 Ml - 16 moves up to more than 90% by volume. _t 6 filler mass according to one of the preceding claims, characterized in that the size of the metal particles and the second material in the On the order of 325 mesh. 7 · Filler mass according to one of the preceding Claims 1 to 5 »characterized in that the size of the metal particles is of the order of 325 mesh and the particle size of the second material in the order of 100O semolina. 8 "Organically bound abrasion article, the" a filler mass according to one of the preceding claims contains. 9 · Procedure for setting the degree of grinding of a Organically bound abrasion article, characterized in that the filler used is metal particles used and this adds filler particles of a second material, which has a greater hardness than the
the metal particle has. A 1058
Dr.Pa./p. BAD ORIGiNAU 009849/0315