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Patent appraised by patentsbase$
GLOBAL PATENTRANK# 56.000
A method of surface treatment of friction members includes providing a friction member made of PMMC material. A transfer layer is formed on the active surface of the friction member of removing the top layer of the matrix material to expose a surface with the embedded reinforcing particles.
DETAILED DESCRIPTION OF THE INVENTION
DETAILED DESCRIPTION OF THE INVENTION
Referring to FIGS. 1 and 2, FIG. 1 shows a disc brake system in which the brake disc is the rotating part which together with the friction linings held in place by the caliper creates the friction. Although a brake disc is shown in the drawings, the present invention is also applicable to clutch plates.
The novel surface treatment according to the invention is applied to the friction surfaces of the brake disc.
FIG. 2 illustrates schematically a detailed view of the surface of the member (disc) treated in accordance with the present invention.
Contrary to the present practice and trend to add a special surface layer (e.g., in the form of a composite or sprayed ceramic layer) the gist of the present novel treatment method lies in a selective partial removal of the base matrix material from the active to be frictional surface(s) of the member.
FIG. 2 shows in a cross sectional view the (top) surface of the brake disc in which the original top layer depicted as is removed, most advantageously by chemical etching. This treatment results in a novel surface topography including a surface with reinforcing (ceramic) particles protruding from the matrix . Later, during the initial break-in activation of the brake system, the particles become an integrated part of the transfer layer created through initial wear and material transfer from the lining (pad) material. The resulting increased reinforcement of the transfer layer will provide better protection of the matrix alloy from temperature and shear forces.
Tests conducted on samples of PMMC discs surface treated in accordance with this method confirm formation of a fast developing adherent and homogenous transfer layer exhibiting substantially improved performance characteristics of the treated member.
Furthermore, tests have shown that etching increases the pad wear during the initial use of the disc during the creation of the transfer layer. The degree of etching should therefore be chosen to reach an acceptable initial pad wear. After creation of the transfer layer the actual pad wear falls to a lower level.
Samples of brake discs made of two different AlSiMg matrix alloys reinforced by SiC particles in an amount of 10 to 30 vol % having a size in a range from 5-30 μhave been subjected to chemical etching applying a solution of NaOH in concentrations from 5-30% up to 20 minutes. Comparison to the reference samples based on the measurement of surface roughness, friction and performance at elevated temperatures shows improved characteristics on all measured parameters.
A relatively short etching time proved to be adequate to remove a sufficient amount of the aluminium matrix, allowing the SiC particles to protrude from the surface of the brake disc as illustrated by the attached FIGS. 3 and 4 showing sample surfaces before and after the etching treatment according to the present invention, respectively.
The actually-applied disc brake samples were made of AlSiMg alloy added 20 weight % of SiC particles. The surfaces of the brake discs were exposed for a period of 2 minutes to 12 weight % water solution of NaOH. (Reference number depicts an Al-foil material applied on the samples as protection for the surfaces prior to microscopic evaluation of the achieved results).
As clearly illustrated in FIG. 4, an exposure time of 2 minutes was sufficient to provide an etched surface with SiC particles protruding from the surface .
Generally, an etching time from 1-3 minutes and an application of 12.5 weight % NaOH solution at room temperature is apparently sufficient to achieve an adequate degree of etching of the surface. Prolonged etching (in excess of 5 minutes) can result in loosening of SiC particles. The temperature and the control of the flow of the etching agent will determine the choice of optimal etching time.
The present invention is not limited to the above-described examples of the preferred mode of the surface treatment. Thus, other (similar) methods of surface treatment (such as electrochemical pickling or chemical etching by means of an appropriate acid) could be used without departing from the spirit and scope of the present invention. In addition, alkali-based etching agents other than the exemplified NaOH, such as KOH, could be used. Also, other types of PMMC material with other reinforcing particles like Al2O3 instead of the above described SiC-reinforced Al-matrix are the most practical alternatives.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will now be described in detail in the following by way of examples of preferred embodiments of the manufacturing method and the resulting members referring to FIGS. 1-4, wherein:
FIG. 1 is a perspective view showing a typical disc brake system;
FIG. 2 is a schematic view illustrating, in principle, the novel surface topography of the friction member treated in accordance with the present invention;
FIG. 3 is a microscope image of an untreated surface; and
FIG. 4 is a microscope image showing the same surface of FIG. 3, but after exposure to an etching agent as described in the following under Examples.
1. A method of forming vehicle components, said method comprising: integrally forming a friction member on either a brake disk, a clutch plate or a brake disk and a clutch plate, the friction member being formed of a PMMC material including an Al-alloy matrix material and ceramic reinforcing particles embedded in the matrix material; and forming a transfer layer on a friction surface of the friction member, said forming of the transfer layer including removing the top surface layer of the matrix material so as to expose a surface of the ceramic reinforcing particles to thereby increase a friction coefficient of the friction surface of the friction member, said removing of the top surface layer of the matrix material comprising chemical etching of the PMMC material.
2. The method of claim 1, wherein said chemical etching comprises applying NaOH in a concentration in a range of 5% to 30% by weight as the etching agent.
3. The method of claim 1, wherein said chemical etching comprises applying an acid reagent as the etching agent.
4. The method of claim 1, wherein said chemical etching comprises applying KOH as the etching agent.
5. A method of forming vehicle components, said method comprising: integrally forming a friction member on either a brake disk, a clutch plate, or a brake disk and a clutch plate, the friction member being formed of a PMMC material including an Al-alloy matrix material and ceramic reinforcing particles embedded in the matrix material, and forming a transfer on a friction surface of the friction member, said forming of the transfer layer including removing the top surface layer of the matrix material so as to expose a surface of the ceramic reinforcing particles to thereby increase a friction coefficient of the friction surface of the friction member, wherein said removing of the top surface layer of the matrix material comprises electrochemical pickling of the PMMC material.
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