RU2220159C2 - Method for preparing laying material - Google Patents

Abstract

FIELD: rubber industry. SUBSTANCE: invention relates to materials designated for thickening joints in internal combustion engines working under high temperature in oily medium. Method involves preparing laying material comprising, wt.-%: binding agent, 50-60; filling agent, the balance. Nitrile rubber-base rubber mixture is used as a binding agent. Waste in wood working industry comprising leafy and/or coniferous strains wood milled to size 0.15-0.35 mm is used as a filling agent. Preliminary, filling agent is subjected for thermal treatment at 200-280 C for 2-3 h. Material is pressed and vulcanized at 160-180 C and under pressure 0.25-0.5 MPa for 10-20 min. EFFECT: improved thickening properties of laying material, reduced cost. 1 tbl, 1 ex

Description

 The invention relates to the rubber industry, in particular to methods for producing cushioning materials for sealing joints of internal combustion engines operating at high temperature in an oil environment.

 A known method of producing cushioning material according to A.S. USSR 882101, IPC 7 C 08 J 5/12, according to which this material is obtained by lining a metal mesh with an asbocast rubber mixture, including a solvent, and the lining of a metal mesh is produced by an asboc rubber mixture containing 40 ... 50 wt.% Solvent, in two layers at a ratio mixtures by layers (50 ... 65) :( 35 ... 50). These gaskets are intended only for sealing the joint between the block and the cylinder head. They hold very high temperatures, but according to their technical characteristics they are not suitable for sealing the valve covers and the oil pan of internal combustion engines and, in addition, have a very high cost due to the complexity of the manufacturing technology.

A known method of manufacturing pressed products such as plates, gaskets, etc. according to the patent of the Russian Federation 2017759, IPC C 08 J 5/04 (prototype), in which the binder is mixed with crushed waste organic fillers and pressed at a temperature of 150 ... 170 ^o C . As an organic filler mainly used wood waste. Preliminary preparation of wood waste is that it is crushed to 1.5 ... 2.5 mm. Wood chopping requires significant mechanical energy costs and the wood waste prepared in this way cannot be used for the manufacture of high-quality and responsible products, because the moisture in the wood is released during pressing, and the product is porous and not suitable for use as gaskets.

 The objective of the invention is to improve the sealing properties of gaskets while reducing their cost.

The solution to these problems was achieved due to the fact that the method of producing cushioning material from a binder and filler - waste from the woodworking industry, is characterized in that a rubber mixture based on nitrile rubber in the ratio, wt. %: rubber mixture 50-60, filler - the rest, as waste from the woodworking industry use hardwood and / or coniferous wood, previously crushed to pieces with a size of 0.15-0.35 mm, while the filler is subjected to heat treatment at a temperature of 200 .. .280 ^o C for 2 ... 3 hours, after which the mixture is simultaneously pressed and vulcanized at 160-180 ^o C at a pressure of 0.25 ... 0.5 MPa for 10 ... 20 min and a cushion is obtained material.

 The difference between the proposed method and the known one is that the process of preparing wood waste before pressing has changed significantly, namely, heat treatment has been applied, as a result of which the evaporation of the liquid phase and the cleavage of bonds between fiber fibers have occurred. This increased the quality of the finished product, reduced its density and improved the sealing properties of the gaskets.

 Patent studies have shown that the proposed technical solution has novelty, inventive step and industrial applicability, i.e. all the criteria of the invention.

EXAMPLE OF IMPLEMENTATION OF THE METHOD
To obtain a cushioning material, a separate binder was prepared - nitrile rubber and filler - woodworking industry waste in the ratio: binder 50 ... 60%, filler - the rest. Filler - waste from the woodworking industry before pressing was subjected to heat treatment at a temperature of 200 ... 280 ^o C for 30 ... 40 minutes Hardwood of medium and hard hardwood was used as waste from the woodworking industry.

 Heat treatment of wood at various temperatures leads to the following results.

120 ... 150 ^o With the allocation of H ₂ About
150 ... 275 ^o With the decomposition of helicellulose, the allocation of CO ₂ and slurry,
275 ... 450 ^o C - the decomposition of substances included in wood, the emission of gases CO ₂ , CO, hydrocarbons,
450 ... 550 ^o C - the removal of volatile substances.

At temperatures of 275 ... 285 ^° C, the main decomposition processes occur, the separation of distillates of compounds, acetic acid, which, if not removed, can affect the process of rubber structuring.

At 170.. . 190 ^o C there is a softening of lignin, partial destruction of polysaccharides (the removal of acetyl groups).

 The destruction of polysaccharides contributes to the process of "grinding" of waste.

 When the temperature of the filler increases during its heat treatment, the bonds between the fibers are destroyed. Wood breaks up into bundles of fibers.

At approximately a temperature of 200 ^o With the stage of formation occurs due to the evaporation of H ₂ O. Surface tension forces bring the fibers together. As a result of dehydration processes, intermolecular bonds are formed (with the participation of OH groups of polysaccharides, heliocelluloses, and partially celluloses).

 Due to the cohesion of acid groups from the polysaccharide, the pH decreases, so the possibility of lignin condensation (at high temperatures) is not ruled out.

 Under the influence of an acidic environment and high temperatures, ester bonds are formed between the high molecular weight components of wood and acids.

So, for the heat treatment of wood, the temperature range from 160 to 180 ^o C, but this is not necessary. Wood is chopped to pieces with a size of 0.15-0.35 mm, while the filler is subjected to heat treatment at a temperature of 200-280 ^o C for 2 ... 3 hours

INFLUENCE OF VOLCANIZATION TEMPERATURE ON RUBBER PROPERTIES
At 140.. .180 ^o С - oxidation of rubber according to the radical chain mechanism with the formation of oxygen-containing compounds. Then secondary reactions occur between the cyiol groups and the protogenic groups formed during oxidation.

At 180 ... 280 ^o C - proceeds according to the mechanism of electrophilic connection. A number of amide and ether structures are formed in rubber. The interaction of carboxyl and cyano groups leads to bisacylamide compounds. The structuring of rubber occurs mainly at a temperature of 180 ... 280 ^o C. the Cyano group interacts with α-carbon atoms of diene units.

Structuring is influenced by NaOH, CH ₃ COOH, H ₂ O ₄ .

The destruction of the connection C≡N begins at 150 ^o C.

At 150.. .190 ^o C amide and imide structures are formed. The intensity of education increases with increasing temperature.

Carboxyl groups always form during the oxidation of O ₂ air and their interaction with nitrile groups causes the structuring of rubber rubbers. In the process of oxidation, a large number of OH groups are formed, which are also capable of interacting with nitrile groups and the formation of imides and ethers.

145 ... 185 ^o C - the oxidation process in the diene part;
185. ..270 ^o C - the interaction of nitrile groups with protogenic fragments that appear in rubber as a result of oxidation.

So, there are two stages of vulcanization:
Stage 1 according to the radical chain mechanism with the formation of oxygen-containing compounds;
Stage 2 - by electrophilic connection.

 Secondary reactions develop between nitrile groups and protogenic groups formed during oxidation. A number of amide and ether structures are formed in rubber.

The interaction of carboxyl and nitrile groups should lead to bisacylamide compounds. Bisacylamides are formed at 170 ^o With the reaction of nitriles with aliphatic acids.

 Compounds of type —C = N — H are formed.

At 150.. .160 ^o С basic structuring during thermal and thermomechanical processing. By the method of DTA and IR spectroscopy, the optimal formation conditions were established 160 ... 180 ^o С (see table).

Claims (1)

A method of producing a cushioning material from a binder and filler - waste from the woodworking industry, characterized in that the rubber mixture based on nitrile rubber is used as a binder in the ratio, wt.%: Rubber mixture 50-60, filler - the rest, woodworking industry waste is used hardwood and / or coniferous wood, pre-crushed to pieces with a size of 0.15-0.35 mm, the filler is subjected to heat treatment at a temperature of 200-280 ° C for 2-3 hours, after which produce simultaneous pressing and vulcanization of the mixture at 160-180 ° C, at a pressure of 0.25-0.5 MPa, for 10-20 minutes and get a cushioning material.

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