JPS6172505A - Molding and vulcanizing process of rubber product - Google Patents

Abstract

PURPOSE:To improve the operational property and the stability of product quality of an obtained type, etc. by using the product molded from the rubber composition of the polymer containing specified siloxane unit, while causing the rubber product to be a vulcanizing bladder used for pressurizing from inside. CONSTITUTION:When the rubber molded product such as a tyre, etc. is molded and vulcanized, said rubber product is caused to be the vulcanizing bladder being used for pressurizing from inside, and is molded from a rubber composition whose main component is a polymer containing siloxane unit of the formula (R: alkyl, phenol, vinyl). The rubber composition contains preferably said siloxane unit equal to 20wt% or more.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to improvements in molding and vulcanization methods for rubber products, particularly tires.

Organic rubber, particularly butyl rubber, has been used as the composition of the vulcanizing pladder used in the rIl type vulcanization of L1 tires.

(-) However, the vulcanizing pladder made of organic rubber has poor mold releasability from the inner surface of the tire, and requires a mold release agent such as a silicone emulsion. This often led to the occurrence of defective products.

Furthermore, since the vulcanizing plasticder made of organic rubber has extremely poor thermal conductivity, it has drawbacks such as the amount of heat required to mold and vulcanize the tire is many times the amount of heat actually required to vulcanize the tire. There is a strong need for improvement of these shortcomings.

The present invention provides a method for molding and vulcanizing rubber products that improves the mold releasability and thermal conductivity of the conventionally used vulcanizing pladder, and improves workability, quality stability, and thermal energy consumption. That is.

That is, in the present invention, when molding and vulcanizing a rubber molded product, a vulcanizing pladder used for applying pressure from the inner surface has a general formula where R represents an alkyl group, a phenyl group, or a vinyl group.

This is a molding and vulcanization method for a rubber product formed from a rubber composition whose main component is a polymer containing siloxane uny/ ) shown by the formula.

Rubber compositions containing the above siloxane units include siloxane polymers, mixtures of siloxane polymers and organic rubbers, siloxane-modified organic rubbers, mixtures of siloxane-modified organic rubbers and siloxane polymers, and organic rubbers. Examples include a mixture of a siloxane-modified product of 1 and an organic rubber, and a blend of a siloxane polymer, an organic rubber, and a siloxane-modified product of an organic rubber.

Examples of the siloxane polymer include dimethyl silicone raw rubber, methylphenyl silicone raw rubber, methylhinyl silicone raw rubber, methylphenyl vinyl silicone raw rubber, and the like.

Good mold releasability, which is one of the characteristics of the vulcanizing pladder used in the molding and vulcanizing method for rubber products of the present invention, is achieved by the low Sp value of the siloxane polymer. The Sp value of the polymer is at least 7.
0 or less, preferably 6.5 or less, more preferably 6.
It is desirable that it be 0 or less.

Another characteristic of the vulcanizing pladder used in the molding and vulcanizing method for rubber products of the present invention is its good thermal conductivity, which is derived from the good thermal conductivity of the siloxane polymer. Therefore, the thermal conductivity of the siloxane polymer that can be used for the molding and vulcanizing plastic is -4
42,05X10-4c a l/cm clears
e c e ”2 times in of 0, 4.IX10-' C
a l / Cm' 36 C""It is desirable that it is 0 or more, preferably 4.4X10-'cal/c
m@s e c e 'O or more, more preferably 5
．． OXl 0-'Cal/Cm' 5 e
C. Select and use a rubber with a value of 0 or more from the above-mentioned raw corn rubber.

In the rubber composition forming the vulcanizing pladder, an organic rubber can be mixed and used in order to compensate for the poor hydrolysis resistance and mechanical properties that are disadvantageous to siloxane polymers. Saturated rubbers such as butyl rubber, ethylene propylene rubber, fluorine rubber, and acrylic rubber are preferably used as the organic rubber, but diene rubbers such as natural rubber, butadiene rubber, imprene rubber, chloroprene rubber, styrene-butadiene rubber, and acrylonitrile-butane rubber are used. Rubber can also be used.

The same can be said about siloxane-modified organic rubbers as described above regarding mixtures of siloxane polymers and organic rubbers. That is, the organic rubber to be used as the base can be selected from the organic rubbers mentioned above, and it can be modified with siloxane to have properties similar to a mixture of a bipedal siloxane polymer and an organic rubber. Bye.

Siloxane-modified organic rubbers can also be used in combination with organic rubbers. A mixture of a siloxane polymer and a siloxane-modified organic rubber, or a mixture of a siloxane polymer, an organic rubber, and a siloxane-modified organic rubber can also be used as the polymer component containing siloxane units.

It is preferable that a thermal conductivity imparting agent is mixed into the rubber composition of the vulcanizing blister used in the molding and vulcanizing method for rubber products of the present invention by a chemical method that further increases the thermal conductivity. Examples of conductivity imparting agents include alumina, hydrated alumina, iron oxide, zinc oxide, crushed crystalline silica, natural amorphous silica, aluminum silicate, talc, boron nitride, carbon black, graphite powder, metal powder, etc. A filler selected from among highly thermally conductive fillers having a coefficient of 30°0XIO-'cal/Cme sec*'0 or more is used.
These conductive needles, conductive needles, and agents are composed of polymer components lOO
10 parts by weight to 150 parts by weight based on the modified part.

In particular, it is preferable to use it in the range of 20 to 70 parts.

A reinforcing agent is further added to the rubber composition forming the vulcanizing pladder used in the molding and vulcanizing method for rubber products of the present invention in order to exhibit mechanical properties sufficient to withstand use as a vulcanizing pladder. . As this reinforcing agent, carbon butchi
Tsuku, white carbon, anhydrous silicic acid, hydrated silicic acid, synthetic silicic acid, activated carbonate cal/lamb, talc, inorganic reinforcing agents such as alumina, high styrene resin, coumaron indene resin, phenol resin, lignin modified melamine resin, Those selected from organic reinforcing agents such as petroleum resins are used, and usually silicic anhydride is preferably used for compositions containing a siloxane polymer alone, and carbon black is preferably used for blends with organic rubber.

- The vulcanizing pladder used in the tire molding and vulcanizing method of the present invention contains a mixture of the above components and an anti-aging agent.

Vulcanize material 1 with vulcanizing agent and vulcanization accelerator added! It can be formed without changing into I.

The rubber composition forming the vulcanizing pladder used in the tire molding and vulcanizing method of the present invention has a tensile strength of 90 Kg/cm2 or more, preferably 100 Kg/cm2 or more at room temperature.
/cm2 or more, elongation at break is north of 550%, preferably 6
00 qb or more, more preferably 650% or more, tear strength 25Kg/Cm or more, preferably 30Kg/Cm
I'll try to make it worse. This can be achieved by adjusting the mixing ratio of the organic rubber and reinforcing agent in the rubber composition.

These strengths are such that when the rubber composition is used as a vulcanizing pladder,
This is a desirable condition to withstand long-term use.

The siloxane unit is 5% by weight based on the total rubber composition.
As mentioned above, ffi is preferably 10% by weight or more, more preferably 20% by weight or more.

If the amount of the polyurethane unit is less than 5% based on the total rubber composition, sufficient mold releasability to remove the female molding agent will not be obtained.

The present invention will be specifically explained below with reference to Examples.

-1, -2 and 11 As shown in Table 1, the silica polymer was used alone as the polymer component (Example 1).

Materials consisting of a 50:50 81 mixture of polychloroxane polymer and butyl rubber (Example 2) and a mixture of butyl rubber alone (Comparative Example 1) were heated and cured to form a vulcanizing pladder. Ta.

Its physical properties are shown in Table 2, and the performance evaluation when molding and vulcanizing tires using this plasticder is shown in @Table 36 Table 1 All numbers are parts by weight Table 2 Table 3 fJIJ Table 3 In addition, a tire molding and vulcanization method using a vulcanizing pladder formed from a rubber layer composition whose main component is a polymer containing a siloxane unit is described by JllJI! ! It is very useful from an industrial standpoint because it does not require any additives and requires less heat adhesion.

Claims (1)

[Claims] 1. The vulcanizing pladder used to apply pressure from the inner surface when molding and vulcanizing a rubber molded product has a general formula ▲ There are mathematical formulas, chemical formulas, tables, etc. ▼ However, R is an alkyl group, Indicates a phenyl group and a vinyl group. A method for molding and vulcanizing a rubber product formed from a rubber composition whose main component is a polymer containing a siloxane unit represented by: 2. 5% by weight of the siloxane unit based on the total composition
The method according to claim 1, which uses a vulcanizing pladder formed from a rubber composition containing the above.