DE3735634A1 - Flexible gasket material, in particular for cylinder-head gaskets - Google Patents

Abstract

An asbestos-free flexible gasket material for, in particular, cylinder-head gaskets, exhaust flange gaskets and similar gaskets of, in particular, internal-combustion engines comprises a fibre nonwoven comprising fibrillated p-polyaramid fibres, non-fibrillated organic synthetic fibres having an increased heat resistance of above 200@C, an elongation at break of greater than 15% and a modulus of elasticity of less than 15 kN/mm<2>, and mineral fillers, organic binders and optionally mineral fibres, which has optionally been reinforced by metals and impregnated and has been produced by a papermaking process, has a flat course of the deformation characteristic line under pressure loading during installation so that, in the case of gaskets made from this material, a sealing pressure matched precisely to the engine conditions can be set in the border region, in particular between combustion chamber openings and the remainder of the surface. <IMAGE>

Description

The invention relates to an asbestos-free Flat gasket material for manufacturing high stressed flat gaskets, such as cylinder head gaskets, Exhaust flange seals or similarly loaded seals for especially internal combustion engines consisting of one if necessary, metallically reinforced and impregnated, in Nonwoven manufactured using paper-making processes organic synthetic fibers, such as in particular polyaramid fibers, powdery to fine-grained fillers and polymers Binders.

Conventional flat gaskets for Internal combustion engines preferably consist of optionally metallic reinforced asbestos fiber fleece, the in the papermaking process from slurries of Asbestos fibers obtained with the addition of latex binders will. Asbestos fibers are resistant to high temperatures, and they go well with the paper making process Fibers with suitable for cylinder head gaskets Deformability, strength, porosity and durability produce. In addition, soft cylinder head gaskets especially to increase their strength, their Cross-sectional tightness and their sealing quality with in the finished gasket cross-linked impregnating and impregnated  Especially asbestos cylinder head gaskets work well with the desired pore filling with even distribution impregnate.

Because of the health hazard of asbestos fibers are more and more cylinder head gaskets with asbestos-free Nonwovens in use. Because the previously known Asbestos replacement fibers alone are not all technological One has properties of asbestos at the same time Papermaking process nonwovens for Cylinder head gaskets made from mixtures of different types of fibers produced. According to DE-PS 29 14 173 contain the Nonwoven fabrics suitable for paper sheet formation, such as in particular cellulose fibers and organic synthetic fibers, especially to achieve the required resistance and Strength values. According to DE-OS 32 32 255 contain the Nonwovens at least three different types of fibers, namely organic natural fibers, organic synthetic fibers and inorganic mineral fibers in addition to mineral Filler additives and additives to organic binders.

With mixtures of these different types of fibers, however, it is complex and difficult completely homogeneous fiber slurries to get, and in the papermaking process Woven nonwovens can easily be disadvantageous uneven distributions of the fiber types arise. As well A relatively high proportion of cellulose fibers can be disadvantageous affect the temperature resistance of the seal.  

According to DE-PS 31 06 411 exist in Nonwovens for papermaking processes Cylinder head gaskets from 3 to 60 parts by weight Phenolic resin fibers, 5 to 50 parts by weight of polyaramid fibers, 10 up to 80 parts by weight of inorganic fillers and 10 to 40 parts by weight of rubber binder. In this case, leave the only used and physically similar organic synthetic fibers from phenolic resin and aramid lighter Process into homogeneous nonwovens. The used untreated organic synthetic fibers have relative smooth surfaces and therefore poor adhesion with each other and with the inorganic fillers. In order to a sufficiently strong nonwoven fabric is formed at all high organic binder content be used. High organic binder content in the Above all, fiber fleece deteriorates their setting behavior Temperature loads, so that cylinder head gaskets with such nonwovens can only be used to a limited extent.

It is already known how synthetic synthetic fibers especially fibrillating polyaramid fibers and thereby the To enlarge fiber surface significantly. For example the US-PS 43 87 178 is an asbestos-free in Papermaking process made of nonwoven for Flat seals made from 5 to 40% fibrillated polyaramid fiber, 25 to 85% mineral filler, 0.5 to 10% Phenolic resin additive and 5 to 25% of a polyacrylate latex if necessary for networking Additives. The non-woven fabrics show above all in terms of their deformation under pressure, their elasticity and  their resistance to various sealing media for highly loaded flat seals suitable properties on and above all, their strength properties were also lower proportion of binder so high that their Temperature resistance for use in Cylinder head gaskets were suitable. It turned out to be disadvantageous with this material, however, the relatively steep increase in Deformation characteristic measured from the applied Surface pressure depending on the measured Change in the thickness of the nonwoven. For cylinder head gaskets, where especially on the metal border of the combustion chamber a matched as closely as possible to the engine conditions Sealing pressure must be set during installation but a much flatter course of the deformation characteristic required.

The present invention is therefore based on the object a soft gasket flat material according to the preamble of To create main patent claim, which is a flatter Deformation characteristic curve during installation and which simple and can be produced economically.

This task is accomplished through a paper-making process fiber fleece obtained from fibrillated p-polyaramid fibers, dissolved inorganic fillers and organic binders, the organic not fibrillated according to the invention Synthetic fibers with increased temperature resistance from above about 200 ° C, an elongation at break of more than 15% and an elastic modulus of less than 15 kN / mm² are added. The Weight ratio of fibrillated p-polyaramid fiber to  unfibrillated organic synthetic fiber is included preferably between 1: 4 and 4: 1. The preferred Composition of a nonwoven fabric according to the invention then out

1 to 15 percent by weight of fibrillated p-polyaramid fiber
1 to 15% by weight of non-fibrillated organic synthetic fiber with the above technological properties
35 to 95 percent by weight of an inorganic filler and
3 to 10 percent by weight of an organic binder and
0 to 30 weight percent mineral fibers.

With the nonwoven fabrics according to the invention, test rings were used metal edged opening edges and her Deformation behavior determined on the borders. The Deformation values measured were measured according to the US-PS 43 87 178 test rings produced with only fibrillated polyaramid fibers were compared and was used for us surprisingly with the test rings according to the invention Much flatter course of the deformation characteristic than with the known materials. With the Nonwoven fabrics according to the invention can now also Sealing materials with exactly on the opening edge Engine conditions coordinated sealing pressure produced will.

Was found to be non-fibrillated organic Synthetic fibers with a modulus of elasticity of less than 15 kN / mm² and an elongation at break of more than 15%, for example the  following fibers made of meta-polyaramid, polyimide and pre-oxidized polyacrylonitrile can be used:

Para-aramid fibers cannot be used because of their Values are outside the values required according to the invention. Tests have shown that the above mentioned Percentages then no improvement in the deformation characteristic can be determined.

The fiber length of all fibers used in the nonwoven fleece should be are preferably in the range between 0.2 and 6 mm, thereby can according to the invention the nonwoven fabric especially for Improve processability on the paper machine too up to 30 percent by weight mineral fibers, such as glass fibers, Rockwool fibers or slag fibers can be added. This  Additive influences the deformation behavior of the nonwoven only insignificant.

As mineral, powdery to fine-grained fillers those known from asbestos-free nonwoven technology mineral fillers, such as silica, alumina, Mica flour, slate flour, diatomaceous earth, china clay, Wollastonite or ceramics. As a binder preferably a nitrile butadiene latex, optionally with the Crosslinking necessary additives used.

The production of the nonwovens takes place in Papermaking process according to the nonwoven technology known process steps.

The invention thus makes it asbestos-free Nonwoven material for the production of above all Cylinder head gaskets for internal combustion engines created that, in addition to the required strength values, Resistance values against sealing media, the Temperature resistance, elasticity and deformability also has a flat deformation characteristic. This flat Deformation characteristic enables adjustment during installation one exactly matched to the engine conditions Sealing pressure, especially between rimmed Combustion chamber area and remaining area. That with the invention Nonwoven fabric-made flat gasket material can, as usual with cylinder head gaskets, be impregnated or so can Exhaust flange gaskets or other flat gaskets  all for engine construction. The Sealing material according to the invention can also be cheaper because of the relatively expensive p-polyaramid fibers cheaper organic synthetic fibers can be replaced.

In the figure, the deformation characteristics are three Metallic framed fleece rings shown.

Sample 1 is used for comparison and the nonwoven consists of

5% p-polyaramid fiber fibrillated, fiber length 0.2-6 mm
10% p-polyaramid fiber not fibrillated, fiber length 0.2-6 mm
7% NBR rubber latex as a binder
78% silica from filler

Sample 2 is a nonwoven fabric according to the invention and exists out

5% p-polyaramid fiber fibrillated, fiber length 0.2-6 mm
10% m-polyaramid fiber not fibrillated, fiber length 0.2-6 mm
7% NBR rubber latex as a binder
78% silica as filler

Sample 3 is a further nonwoven fabric according to the invention

5% p-polyaramid fiber fibrillated, fiber length 0.2-6 mm
10% pre-oxidized polyacrylonitrile fiber not fibrillated, fiber length 0.2-6 mm
7% NBR rubber latex as a binder
78% silica as filler

The test rings have a fiber fleece thickness of 1.748 to 1,752 mm and are at the opening edge with a cross section U-shaped metallic border an ironal steel sheet 0.25 mm thick. Both Test rings are not the bezels in the soft fabric leveled and the flare protrusion is equal to that Edging thickness. The measurement of the surface pressure and the Deformation paths take place on the frame in the model device.

The diagram shows the deformation 5 of the sealing plate in micrometers on the X axis and the surface pressure 4 in N / mm² on the Y axis. The curves are the deformation characteristics of the measured test rings. The relatively steep increase in the deformation characteristic of comparative sample 1 means a strong increase in the surface pressure with even a slight change in deformation, while the deformation characteristics of samples 2 according to the invention increase more flatly and corresponding deformation changes cause significantly smaller changes in the surface pressures. Only with samples 2 and 3 according to the invention is the problem-free adjustment of a sealing pressure which is precisely matched to the engine conditions between the bordered opening edge and the remaining surface.

Claims (6)

1. Asbestos-free soft flat gasket material for the production of highly stressed flat gaskets, such as in particular cylinder head gaskets, exhaust flange gaskets or similarly loaded gaskets of primarily internal combustion engines, consisting of an optionally metal-reinforced and impregnated fiber fleece with organic synthetic fibers produced in the paper production process, such as in particular fibrillated p-polyaramide fibers to fine-grained fillers and polymeric binders, characterized in that the fibers in the nonwoven fabric consist of a mixture of fibrillated p-polyaramid fibers with non-fibrillated organic synthetic fibers with increased temperature resistance above 200 ° C, an elongation at break of more than 15% and an elastic modulus of less than 15 kN / mm² exist. 2. Soft flat gasket material according to claim 1, characterized characterized in that the weight ratio of fibrillated p-polyaramid fiber for organic Synthetic fiber is between 1: 4 and 4: 1. 3. Soft flat gasket material according to claims 1 and 2, characterized in that the not fibrillated organic synthetic fibers m-polyaramide fibers, made of polyimide fibers and / or pre-oxidized polyacrylonitrile fibers exist.   4. Soft flat gasket material after at least one of claims 1 to 3, characterized in that the Nonwoven up to 30 percent by weight of mineral fibers contains. 5. Soft flat gasket material after at least one of claims 1 to 4, characterized in that the Length of the fibers in the range between 0.2 and 6 mm varies. 6. Flat gasket according to at least one of claims 1 to 5, characterized in that the non-woven fabric consists of 1 to 15 percent by weight of fibrillated p-polyaramid fiber
1 to 15 percent by weight of non-fibrillated organic synthetic fiber
0 to 30 weight percent mineral fiber
35 to 95 percent by weight mineral filler and
3 to 10 weight percent organic binder.