DE2348338A1 - Abrasive belt or sheet - synthetic resin beads coated with binder and abrasive particles on binding layer - Google Patents

Abstract

An abrasive belt or sheet for fine grinding and polishing designed for even wear and longer life, consists of beads of synthetic resin carrying a coating consisting of a mixture of abrasive particles and a binder, the beads being embedded in a binding layer on the backing sheet, the beads forming a layer whose strength during use is less than the particles. The beads may be of a synthetic resin, and are 3 to 50 times, preferably 6 to 20 times the size of the particles. The spheres may be coated with particles and binder before embedding in the support layer, or alternatively embedded in the support layer before coating with the particles and binder.

Description

PATENT LAWYERS DR.-ING. RICHARD GLAWE DIPL-ING. KLAUS DELFS DIPL-PHyH. DR. WALTER MOLL MÖNCHEN HAMBURG MONCHEW

β MÖNCHEN 26 POST BOX 37 LtEBHERRSTR. 20 TEL. (0611) 22 6548

2 HAMBURG 52 WAITZSTR. 12 TEL [MIl) 89 22 pp TELEX 212921 ip * e.g.

YOUR SIGN

REGARDS!

YOUR MESSAGE FROM OUR SIGN HAMBURG

P 6965/73
D / Me

North German abrasives industry Christiansen <sb Co., 2 Hamburg 53 » Luruper Hauptstrasse 106-122

Flat abrasive

With sanding belts, sanding sheets and the like Flat abrasives change the cutting force and the surface quality achieved the degree of wear. During the service life, the surface roughness is reduced, starting with the average Grain diameter corresponds with increasing

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decreases / dulls the abrasive to the point where where the hand replaces due to lack of cutting power must become. If the desired surface quality has not yet been achieved by this point in time, so a new belt of the same grain size cannot be used because it is initially larger again Chewing depth would destroy the achieved surface again. Conversely can "if the surface is already satisfactory during the life of the sanding belt, the half-worn belt is not more used for the same grinding operation be because the iiauhtiefe already too ferine; or the Cutting force is no longer large enough.

This also applies to sanding belts where the abrasive grain is not directly attached to the base material via one or more layers of binder but is bound to the surface of upholstery, for example cork or vermiculite particles which in turn are bound to the base material. The individual from an upholstered body existing with abrasive grain coating

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cheerfully come in first with their highest "point Intervention, with which a very sani'te surface treatment is initiated. But that's aiii 'the top the upholstery body hardening abrasive material, this creates a rubbing contact between the curses to be sanded and the material of the upholstery body comes about, which causes an original effect and prevents a perfect material appearance.

The invention read the object, a flat Abrasive means, in particular a fine grinding or polishing belt with a clean tiörmif; filed and through to create a binder-held abrasive grain that is a comparatively one during its life long period with constant loop characteristics having.

The solution according to the invention; is dail that Abrasive grain in the abrasive grain layer in the form of a multitude of abrasive grains and binders Llonlkkörem is arranged.

It has been shown that at the start of the process Abrasive the initially gentle machining

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The process is retained unchanged after the surface of the sphere has been torn open. Signs of dulling appear very late, which means that, with the same roughness depth, a service life that is several times longer than that of known, comparable abrasives is achieved. This behavior is explained by the fact that after the surface of the hollow body has been sanded, there is no foreign substance that could take over a noticeable part of the sanding pressure, thereby triggering a braking effect or smearing the surface. In this initial stage of wear and tear, a crater is created in every hollow body, the diameter of which grows to the size of the hollow body diameter as the load progresses and releases a ring of abrasive grains at its boundary. At the same time, the large number of larger crater holes make the abrasive more receptive to the material removal.

Since the hollow body ring constantly provides fresh abrasive grain during a long period of wear, while at the same time within and

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If there is ample space outside the hollow body to accommodate the grinding, the grinding performance remains and the peak depth of the machined surface is constant for a long time. This results not just one compared to known sole belts multiple service life but also the advantage that the abrasive properties of the belt depend on the degree of wear are independent. The roughness that can be achieved is no longer different from the one that is difficult to determine Dependent on wear and tear.

The shape of the hollow body can be different, for example irregular, spherical or cylindrical. However, a spherical shape is preferred because, with a relatively simple manufacturing process, it leads to a regular surface structure and thus uniform grinding properties. Because the hollow body is made up of a large number of grains and a binder, it can be gradually degraded as the grinding process progresses. The resistance of the binder should be selected so by methods known in the abrasive art principles that always sufficiently sharp grain is at the active surface. This also shows that exclusively and in one piece from the grain material

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existing balls (CII-PS 366 212) within the scope of the invention are not wanted.

In a particularly preferred embodiment, the Hollow body formed by a jacket consisting of abrasive grain and binder on a carrier particle, whose Resistance to the forces occurring during grinding is much lower than that of the jacket. There is also the carrier particles again preferably consist of a hollow body, in particular an Ilhl bead, which is preferably consists of a thermoplastic synthetic resin. For example, BE-PS 702 673 describes the DT-OS 1 ^ 95 and U.S. Patents 2,978 3 ^ + 0, 2,797,201, 3,172,867 and 3 030 215 usable spherical bodies and their production, where in particular those described in the first-mentioned patent and in Kunststoffe "1970, 19" Hollow pearls have proven beneficial.

If the strength required for the hollow body of the If the jacket itself is made up of binder and abrasive grain, the carrier particles only need a low level of strength because it is only, so to speak, a die for the production of the jacket. You can even go further Manufacture of the abrasive, for example in the treatment at elevated temperatures, volatilize, or in any Deform gently, especially in the area close to the base of the cavity flow together, allowing sowing to flow out of the ac-

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Remove the tive grinding area of the jacket, which can be advantageous for the sole effect, as this is not influenced by the presence of residues of the carrier particles. As the Ilohl pearl trained .Trägerpartikel but can be very thin-walled, it is usually also harmful nothing if it remains present in the grinding area, since it is so weakly developed in relation to the jacket is that they do not take over any significant part of the grinding pressure and thereby braking forces can exercise.

This does not mean that the carrier particles must consist of a very soft material; she can rather, they also consist of a hard, even brittle material, if this is due to their thin walls it is ensured that its strength is much lower than that of the jacket, so that as the body progresses Wear of the abrasive removes the backing particles from the abrasive pressure, for example successively broken away, is without, however, due to the insignificance of the

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tenderi forces and the small amount of the resulting Material to impair the grinding process.

On the other hand, there is also the possibility of using the Tägerρartikel to support the jacket. This applies in particular to those carrier particles which are designed as a hollow body and which consist of a consist of hard material, but are very thin and / or break away easily and successively or let it rub off.

The carrier particles do not necessarily have to be hollow; rather, they can use the abrasive grain and its binder completely fill the cavity formed, provided they are soft enough, Since they are only intended to serve as a matrix for the formation of the jacket, their intrinsic strength does not need to be to be great. You can therefore from a soft or even liquid or at grinding temperatures evaporating substance exist. Of course, they are chosen in such a way that they do not have an adverse effect but preferably a promotional input

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- ο -

Apply flow to the grinding process. For example they can be an abrasive lubricant. It can also contain hollow carrier particles Be filled with grinding lubricant (CII-PS 5II 678).

The size of the hollow body should be as uniform as possible. She should also be in a particular Ratio "to the mean diameter of the abrasive grain, and indeed it has been found to be useful proven when the mean outer diameter of the hollow body is 3 to 50 times, in particular 6 to 20 times as much is as large as the mean abrasive grain diameter.

When producing the abrasive according to the invention, either the abrasive grain can be used first bind to the surface of carrier particles and the hollow bodies formed in this way with a base material associate. Or the carrier particles are first connected to the base material and scattered then the abrasive grain. The first method is preferred because it is more uniform result in hollow bodies occupied with abrasive grain. In addition, in the case of the second method, this can be between the

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Abrasive grain embedded in hollow bodies improves the grinding properties of the abrasive towards the end of the sanding process.

In FIGS. 1 to 3 ^, a grinding belt according to the invention is shown as new in cross-section, half-worn in cross-section and half-worn in plan view. 1 denotes the base material, 2 denotes a binder layer, and 3 denotes the hollow bodies, whose grain wreath k, grinding in the half-worn state, can be clearly seen in FIGS. 2 and 3. The hollow bodies consist of the abrasive grain 5 and the binding agent 6. It can be seen that the layer of the abrasive grain is only one layer and surrounds the entire cavity 7.

example 1

Hollow beads, which were produced by expanding vinyl chloride / ethylene copolymers according to Belgian patent 702 673, with a diameter of 0.05 to 1.0 mm, were wetted in a mixer with a binder consisting of a 40 ^ & - igen Solution of an epoxy resin from bisphenol A

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Epichlorohydrin type existed. The resin had an epoxidation of 0.200; 4-hardener var by the company "General Mills" sold polyaminoamide with the trade name "Vsrsamid 115" · ^ü as solvents & emic consisted of 1 [h ^l i> xylene, 13 ^ butanol and diacetone 13/0.

The oil balls wetted with the binding agent were mixed with aluminum oxide of grain size ^ 00 (mean grain diameter 35 p) so that the abrasive grains settled on the ball socket. The weight ratio of hollow balls: binder: corundum was 1:10: 100. The abrasive grain balls were gently dried and sieved, only balls with an average diameter of 0.425 tmn being used.

A commonly equipped for the production of abrasive belts cotton twill fabric was a phenol-formaldehyde resin with the prepared abrasive grain balls sprinkled evenly after application of a layer, as usual Zvi rule dried and after coating with a

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another thin layer of the same but thinned resin for the final anchoring of the Hardened hollow spheres. After curing, which (as usual) at temperatures of more than 120 C was carried out, the approximately 1 .mu.m thin spherical skin had melted, so that only the one made of abrasive grain and binding agent was left over from the existing spherical shell.

A sanding belt made from it with the dimensions 17 x 2000 mm was placed on a belt " Grinding machine tested, which was equipped with a grooved rubber contact disk of Shore hardness 80 with the ratio of the web width to the groove width as 1: 1. The surface was ground on flat steel ST 37 is carried out and the abrasion is determined at intervals of 1 minute by shaking the workpiece. To compensate for material differences the same piece of flat steel was used for both tests, i.e. on one narrow side for the conventional one and on the other narrow side for the tape according to the invention. For comparison, a customary produced grinding belt of the same. Ge

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Weaving underlays and grain size tested. The result is shown in the Fig. K.

It can be seen from the diagram that the comparison band of the superordinate type was dull after 3 minutes after it achieved a very high cut rate at the beginning. The manufactured according to the invention, with hollow balls provided tape achieved a multiple of performance, with the individual removal rates being the same stayed.

The test was terminated after 30 minutes. The low amount of abrasion during the first 2 minutes indicates that the spherical shell of the hollow body must first be torn open before an even attack takes place. The peak-to-valley height measurement after the end of the grinding process showed that the peak-to-valley height achieved with the superordinate type of grinding belt was Rt = 5.25 μm or the mean value R ₂ = 3.7 ρ, whereas that of the hollow ball-bearing belt was 8.0 μm or 5t1 as a means, which indicates the undiminished ability of the latter to cut even after a grinding time of 30 minutes compared to the rapid dulling of the conventional belt.

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Example 2

The Ilohlkugeln of Example 1 were wetted with the aqueous dispersion of a terpolymer of butadiene-acrylonitrile-styrene with a medium nitrile content and a styrene content of approx (mean grain-0 52 pm).

The weight ratio of Ilohlkugeln to binder to corundum was 1: 8: 8μ. The balls were dried and sieved as in Example 1. Also the fabric backing and the attachment of the abrasive balls happened as in example 1.

A grinding test was carried out on a tape made therefrom. The dimensions, the grinding machine as well as the contact disk also corresponded to the arrangements as in example 1. It was ground flat steel ST 37 again.

The result is shown in FIG. 5. A conventional grinding belt with the same backing and grain size was used 12 minutes after decreased during the last

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four intervals no more significant sanding was achieved. In contrast, the test was carried out on the hand according to the invention 'JO minutes. The "surface roughness" measured at intervals of k to 6 minutes did not change over a wide range, which was to be expected on the basis of the uniform removal rates. The total amount sanded off
The material used in the conventional hand was only about 1/3 that of the tape according to the invention.

Example 3 . '.

According to example 2 , a grinding belt measuring 50 × 2000 mm was manufactured and tested on a belt grinding machine in comparison with a conventional one.

The contact disk had a Shore hardness of 90. The grinding material was a seamlessly drawn tube with an outside diameter of 165 mm, a wall thickness of 5.1 to 5.8 mm, a Brinell hardness of i40 kg,

Soft annealed according to DIN I629. A section of pipe, of that was fed with the front side of the belt,

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whereby it rotates around the cylindrical axis 2k times per minute. The delivery happened automatically as soon as the braking effect, which can be seen from the power consumption, subsided. The intervals were 5 minutes.

As can be seen from FIG. 6, the comparison tape was worn after 10 minutes with a material cut of 120 g. After 35 minutes, the tape according to the invention had abraded kJO g, with the individual values being at the same level in a wide range.

Abrasives according to the invention are suitable for grinding any materials, for example metal, Glass (glazed edge), plastic, ceramic or wood. In particular, they also offer themselves for the wet grinding, as it is an excellent Have water uptake in the spherical craters. Any documents are also suitable, for example Fabric, paper, vulcanized fiber, non-woven fabrics, foils.

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Application forms are preferably tapes, sheets, Sheets and slices. However, non-flexible documents can also be used.

Hollow spheres made from silicate materials, glass, and hardenable materials are particularly suitable as carrier particles Synthetic resins (phenolic resin, melamine resin, urea resin, Epoxy resin, etc.), thermoplastic resins, gelatin and other unchanged or modified Natural substances.

All known binders can be used, both for fastening the abrasive grains on the particle surface as well as for attaching the hollow body to the abrasives usual documents.

For example, molten aluminum oxide, molten zirconia, mixtures of these oxides, silicon carbide, diamond, flint, garnet, emery and the like, but also polishing agents such as pumice, tripoli, polishing red, etc. are suitable for the abrasive grain

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Claims (1)

Claims .j Flat abrasive, especially fine sanding or Polishing belt with abrasive grains arranged in layers and held by a binder, characterized by the arrangement of the Abrasive grain in the abrasive grain layer in the form of a variety of abrasive grain and binder existing hollow bodies (3) 2. Abrasive according to claim 1, characterized in that g e characterizes t, that the hollow body (3) is designed as a jacket on a Trägerρartikel are whose strength is significantly lower compared to the forces that occur during grinding than that of the mantle. 3. An abrasive according to claim 2, characterized geke η η _t is characterized that the carrier particles of a hollow body, in particular a hollow bead, is formed. h » Abrasive according to claim 3t characterized in that the hollow body 5098U / 0564 ... consists of a thermoplastic synthetic resin. 5. Abrasive according to one of claims 1 to k, characterized in that the mean outer diameter of the hollow body is 3 to 50 times, in particular 6 to 20 times, as large as the mean abrasive grain diameter. 6. A method for producing an abrasive according to any one of claims 1 to 5 t thereby I denote that initially the hollow body is attached by binding abrasive grain Carrier particles produced and then with be connected to a base material. 7. A method for producing an abrasive according to any one of claims 1 to 6, characterized It is indicated that the carrier body is first connected to a base material and then provided with the abrasive grain. 509814/0564