JP4671683B2 - Natural rubber with reduced odor and method for producing the same - Google Patents

Description

  The present invention relates to a natural rubber having reduced odor and a method for producing the same, and more particularly to a natural rubber having reduced odor peculiar to natural rubber generated in a mastication process and a method for producing the same. is there.

  There are two typical methods for manufacturing natural rubber: ribbed smoked sheet (RSS type) and technically rated rubber (TSR type) according to international quality packaging standards (commonly known as Green Book) for natural rubber grades. It is. Of these, the TSR type is broadly divided into two types: wet process and dry process. Natural rubber latex collection → cup lamp production (formic acid is placed in a latex cup in advance and solidified naturally, collection It is a common process until it is tapped by a farmer, etc., and this cup lamp, USS / RSS, etc. are mixed, crushed by a wet process or a dry process, moved to a bucket, dried with a dryer, It is manufactured in the order of packing by pressing to form blocks. Such TSRs are classified into upper grades and lower grades. The high grade TSR is produced by coagulating fresh latex with acid, washing and pulverizing it with water, and drying it with hot air at around 120 ° C. In addition, the lower grade TSR washes and pulverizes cup lamps made by natural coagulation of latex in a rubber tree latex recovery cup, and slabs obtained by coagulating latex collected by small-scale farmers in a box shape. And then dried.

  By the way, natural rubber used in the rubber industry is obtained by coagulating and drying a sap of a rubber tree (natural rubber latex) called Hevea brasiliens cultivated in the tropics. Natural rubber latex particles have an average particle size of about 1.0 μm, and are intertwined with protein, polyisoprene, phospholipid and the like. When this latex is centrifuged, protein, lipids are removed from the supernatant. A rubber layer (35%) containing a protein, an amino acid, an organic acid-containing serum layer (natural rubber serum, 55%), and a bottom layer containing proteins, nitrogen compounds, phospholipids, etc. Separated into containing bottom layer (sediment layer, 10%).

Conventionally, in the production process of high grade TSR, there is almost no odor immediately after the rubber latex before coagulation and it is coagulated, but it is a natural non-rubber component during the drying process of hot air around 120 ° C. Fatty acids and proteins are oxidized and decomposed to produce a bad odor.
In addition, the above-mentioned lower grade TSR raw material cup lamps and slabs have a distribution period of about one month before they arrive at the factory after being harvested by farmers, during which non-rubber components are oxidized and decomposed, resulting in a strong odor Will come out. These malodors are washed away to a considerable extent in the water washing and pulverization process, but the non-rubber fatty acids and proteins are oxidized and decomposed again by hot air drying in the next process, and the malodors are emitted.

Moreover, TSR natural rubber is packed with polyethylene before shipment, or the surface is coated with talc, and the odor is reduced at the time of distribution.
However, since the above-mentioned raw natural rubber carried into a tire factory has a higher molecular weight than synthetic rubber, it is difficult to uniformly knead various compounding agents directly. For this reason, there is a case where it is necessary to knead natural rubber together with a small amount of a peptizer to lower the rubber molecular weight to an appropriate size. This operation is called “scouring”.
The rubber temperature rises to about 130 to 150 ° C. during mastication. Due to the temperature rise (heat generation), the odor component contained in the natural rubber diffuses, and the non-rubber component described above further oxidizes and decomposes to emit a new odor. If these odors leak into and out of the factory, they become environmental problems.

When the odor generated by mastication of the above natural rubber is captured and analyzed by GC-MS, lower fatty acids such as acetic acid and propionic acid, aldehydes, nitrogen cyclic compounds such as pyrazines and pyrroles, ammonia and the like are detected. It was. Normally, it is known that when a higher fatty acid is exposed to a high temperature, it undergoes auto-oxidation to produce a lower fatty acid and an aldehyde. It is also known that when a protein and a carbonyl compound are heated, Strecker decomposition occurs to generate a nitrogen cyclic compound, and when a protein decomposes, ammonia is generated.
On the other hand, it is well known that natural rubber contains non-rubber components such as natural higher fatty acids and proteins. Therefore, it is easily guessed that higher fatty acids and proteins contained in natural rubber cause the same reaction as described above even when smoked or heat-dried in the natural rubber production process or kneaded in a rubber product factory.
This kneaded rubber is further kneaded with carbon black and various compounding chemicals, but in this process the odor is absorbed by carbon black etc., so the odor problem is not as great as mastication but still has a unique odor. is there.

To counter this odor problem, various countermeasures have been taken so far, such as installing a deodorizing filter in the exhaust duct of the kneading equipment and spraying fragrance around the kneading equipment. However, there is a need for improvement of natural rubber itself, that is, appearance of natural rubber capable of reducing odor.
On the other hand, as a method for reducing the odor of natural rubber, for example, when producing natural rubber from natural rubber latex, natural rubber latex is selected from sodium hydroxide, potassium hydroxide, and calcium hydroxide before or after coagulation. A method for producing natural rubber is known in which odor is reduced by changing volatile fatty acids of odorous components produced from non-rubber components by microorganisms into non-volatile fatty acids by contacting with an alkali solution of more than one species (patent document) 1).

Although it does not reduce odor, as a process for producing high-quality natural rubber, it is blended with a pulverized and washed cup lamp and latex coagulated rubber, pulverized to a maximum size of 3 mm, and this is conveyed by air. It is known that high quality natural rubber (superlative grade TSR) can be obtained by mixing 0.1 to 0.2% of an antioxidant such as hydroxylamine sulfite (Patent Document). 2).
Furthermore, deproteinized natural rubber latex has been developed and used in recent years to prevent the development of allergic symptoms due to the use of natural rubber products. Since this deproteinized natural rubber latex has poor aging resistance, it is necessary to add an anti-aging agent such as phenol to the latex, and further to prevent discoloration by adding this anti-aging agent (Pinking phenomenon in which the entire white latex turns pink) It is known to add a discoloration inhibitor for deproteinized natural rubber latex such as a salt of a water-soluble dithiocarbamic acid derivative (see Patent Document 3).

However, the technique described in Patent Document 1 is to reduce the odor by changing the volatile fatty acid of the odor component produced from the non-rubber component by microorganisms to a non-volatile fatty acid, but the odor component of natural rubber is Not only volatile fatty acids but also aldehydes, nitrogen cyclic compounds, ammonia and the like are present, and this technique still has a problem that the odor of natural rubber cannot be reduced. In addition, the technique described in Patent Document 2 has no recognition that a specific amount of antioxidant is added in order to reduce odor, and the object and technical idea of the present invention are different. Is. Furthermore, the technique described in Patent Document 3 is to add an anti-aging agent for the anti-aging property of the deproteinized natural rubber latex. This suppresses the aging of the natural rubber polymer chain itself. It is not intended to reduce odor. Therefore, the technology described in Patent Document 3 is intended to reduce the odor of ordinary natural rubber latex that does not undergo the deproteinization treatment of the present invention, and is not an aging of the polymer chain itself, but the contained protein, fatty acid The object, technical idea, and the like are different from those that prevent oxidation and the like and reduce odor.
JP-A-8-81504 US Patent Publication 2001/0049411 JP-A-10-139926

In view of the above-mentioned conventional problems and the present situation, the present inventor is a simple means for generating not only volatile fatty acids contained in natural rubber, but also specific odor components by decomposition of aldehydes, nitrogen cyclic compounds, ammonia and the like. As a result, it was found that a part of the problem can be solved by adding an antioxidant. However, it has been found that simply adding an antioxidant to natural rubber cannot sufficiently reduce the odor during the treatment process in a tire rubber factory or the like, and there is a problem in improving this.
Therefore, in view of the above problems and the present situation, the present invention does not generate odor even in the mastication process in a tire rubber factory or the like, and is natural rubber that is more effective in reducing the odor, which is friendly not only to the external environment but also to the working environment. Another object of the present invention is to provide a rubber composition using the natural rubber.

As a result of intensive studies on the above-mentioned conventional problems and the like, the present inventor shows that in the natural rubber production process, the addition of an antioxidant before or after the rubber latex coagulates can reduce the odor of the natural rubber. When these rubbers are dried at a drying temperature of 115 ° C. or lower instead of normal drying (at a temperature of 120 ° C. or higher), the effect of the antioxidant is reduced without drastically reducing the effect as in the prior art. It has been sufficiently maintained, and it has been found that no odor is generated in the mastication process in a rubber factory, and has led to the present invention.
That is, the present invention is characterized by having the following configuration or structure.

(1) Natural rubber in which an antioxidant is added to natural rubber ground after coagulation of natural rubber latex and dried at a drying temperature of 115 ° C. to 100 ° C. to reduce odor, and the antioxidant is dried A natural rubber obtained by adding 0.0001 to 1.0 part by mass to 100 parts by mass of rubber.

( 2 ) The natural rubber raw material pulverized after coagulation is pulverized into particles having a size of 10 mm or less and immersed in an aqueous solution or suspension having a concentration of 0.005 to 5% of an antioxidant, or the aqueous solution. The natural rubber according to (1), which is sprayed with
( 3 ) The natural rubber according to the above ( 2 ), wherein the natural rubber raw material is at least one selected from latex coagulated rubber, cup lamp, slab, and unmade rubber.
( 4 ) Antioxidants include L-ascorbic acids, erythorbic acids, alkali metal sulfites, alkaline earth metal sulfites, catechins, tocopherols, phenolic antioxidants, p-phenylenediamine antioxidants, amines and ketones The natural rubber with reduced odor as described in (1) above, which is at least one antioxidant selected from a series anti-aging agent and a sulfur type secondary anti-aging agent.
( 5 ) The above (1), wherein the antioxidant is at least one antioxidant selected from alkali metal sulfites, alkaline earth metal sulfites, p-phenylenediamine antioxidants, and xylenol. The natural rubber described in 1.

( 6 ) A rubber composition comprising a natural rubber as described in (1) above and a filler.

( 7 ) Natural rubber with reduced odor as described in (1) above, wherein an antioxidant is added to natural rubber ground after coagulation of natural rubber latex, and the natural rubber treated with the antioxidant is dried at 115 ° C to 100 ° C Manufacturing method.

  According to the present invention, the formation of a specific odor component due to decomposition of fatty acids, aldehydes, nitrogen cyclic compounds, ammonia and the like contained in natural rubber is suppressed by adding an antioxidant, and further, the effect of the antioxidant In order to maintain the above, when drying, the drying temperature is set to a normal temperature or lower so that the odor peculiar to natural rubber is more effectively reduced, that is, sufficiently reduced even in the mastication step.

Hereinafter, embodiments of the present invention will be described in detail.
The natural rubber with reduced odor and the method for producing the same according to the present invention define preferred embodiments according to the form and processing degree of the natural rubber latex used, and the present invention is limited to the scope of the following embodiments. It is not done.

The natural rubber with reduced odor according to the present invention is obtained by adding an antioxidant to natural rubber latex before coagulation or natural rubber pulverized after coagulation and drying at a drying temperature of 115 ° C to 100 ° C. Especially preferably, it is dried in the range of 100 ° C to 105 ° C.
In general, the following two methods are typical as methods for producing natural rubber. That is, in the ribbed smoked sheet (RSS) according to the international quality packaging standard (commonly known as the Green Book) of natural rubber grade products, the rubber component is solidified (USS) with acid etc. after collecting the natural rubber latex. The solid rubber is separated from the water-soluble non-rubber component by a roll, and the solid rubber is dried (smoking) at about 60 ° C. for 5 to 7 days. Also, in technical rating rubber (TSR), after tapping, the rubber component of natural rubber latex is naturally coagulated (cup lamp), solid rubber is pulverized, washed with water, dehydrated, and then dried with hot air. .
In the natural rubber of the present invention, an antioxidant is basically added to the rubber latex before coagulation and the raw rubber (RSS, USS, cup lamp, and mixture thereof) after coagulation.

<Rubber latex before coagulation>
An antioxidant is added to the latex before coagulation, that is, to the latex before coagulation including non-rubber components (serum component, bottom component) in addition to the rubber component. Preferably, 0.0001 to 1.0 part by mass is added to 100 parts by mass of the dry rubber content.
The natural rubber latex is, for example, a fresh latex after tapping that is used within 3 hours after tapping from a natural rubber tree, and a stabilizer that is stabilized by ammonia treatment or the like after being added to the latex after tapping, preferably Examples include latex having a pH of about 7.0 and centrifuge latex obtained by centrifuging these latexes using a centrifuge (each used alone or in combination of two or more).
The coagulation treatment can be obtained by natural coagulation, but it is usually preferable to perform chemical treatment using the following solidification acid or the like and mechanical treatment using a mechanical device.
In the chemical treatment, a solid acid or the like is added to rubber latex and aged for a desired time to obtain a solid rubber. The coagulating acid may be an organic acid or an inorganic acid, and for example, formic acid, sulfuric acid and the like can be mentioned as representatives, and an acid is added to the treated latex so that the pH is 5.0 or less. In particular, the pH is 3.0 to 4 Is preferably in the range of .8.

<Crushing of natural rubber after coagulation>
In the present invention, it is preferable to perform pulverization (crumbization) using the above-mentioned coagulated latex coagulated rubber, cup lamp, slab, raw rubber, and a mixture thereof as raw materials. This is usually performed for uniform drying, and can be crumpled, for example, through a creper process and / or a shredder process. As the creper process, for example, a creper sheet can be obtained by passing the coagulated material four times through Creper Model CRC 14/28 manufactured by SPHERE. Also, as the shredder process, for example, a Shredder Model CRC manufactured by SPHERE is used. The crumb can be obtained by charging this creper sheet on 14/28. In the present invention, the coagulated natural rubber is preferably crumbed by a creperana shredder, a pelletizer or the like in the same manner as a normal TSR process.

<Addition of antioxidant>
In the present invention, the antioxidant can be added to the natural rubber by adding it to the rubber latex before coagulation or by adding it by dipping or spraying it on the rubber before drying. Among them, it is preferable to add an antioxidant to the rubber latex before coagulation. Addition before coagulation results in a homogeneously dispersed natural rubber raw material.
The term “before coagulation” means that the rubber latex is in a coagulated state. For example, as long as the rubber latex is in a coagulated state, the antioxidant may be added to the rubber latex at the same time as the above coagulating acid. Etc. may be added after addition. However, it is preferable to start the coagulation treatment (including other coagulation treatment) after charging and mixing the antioxidant into the rubber latex.

Antioxidants can be added directly as they are before solidification, but in the case of raw rubber before drying, when the rubber is crushed and immersed or sprayed, the antioxidant is added. It is preferable to mix and dissolve in a dispersion medium, a solvent or the like.
When the above-mentioned antioxidant is water-soluble, it may be used in the form of an aqueous solution. The water-insoluble antioxidant is first dissolved in ethyl alcohol or the like, and then dissolved in carboxylate or alkylaryl sulfonate. It may be diluted with water containing a surfactant (purified water, distilled water, ion exchange water, pure water, ultrapure water, etc.) and added as a suspension.
It is preferable that the density | concentration of antioxidant aqueous solution is 0.005-5 mass%. If the concentration is too low, the desired odor reducing effect cannot be achieved. If the concentration exceeds 5%, a large amount of antioxidant remains in the rubber, and the odor itself may have an adverse effect. Yes, not preferred.

As an aspect of immersing the antioxidant, a method of immersing natural rubber (USS sheet, crumb, etc.) as it is in the above antioxidant aqueous solution, a method of immersing natural rubber (USS sheet, crumb, etc.) while stirring, etc. Is mentioned. In addition, although immersion time is fluctuate | varied with a natural rubber seed | species, the magnitude | size of a grinding | pulverization state, etc., Preferably it is 1 second-10 minutes, More preferably, it is 30 seconds-6 minutes. In this immersion treatment, the desired effect is exhibited in a short time.
Moreover, as an aspect which sprays antioxidant, spraying uniformly from both surfaces on a USS sheet | seat and a crumb using a sprayer on a conveyor is mentioned. In the present invention, an antioxidant can be added to natural rubber (raw rubber) in the above-described dipping mode or in the above-described spray mode, and if necessary, the dipping and spraying can be performed. Aspects can be added in combination.

Here, in the natural rubber of the present invention, it is desirable to use a material obtained by pulverizing the above natural rubber raw material into particles having a size of 10 mm or less, preferably 2 to 5 mm. A natural rubber material exceeding 10 mm is not preferable because it is difficult to immerse and sufficiently spray for a short time and requires a long time for subsequent drying.
Moreover, as an unmade rubber sheet, from the point of the ease of drying by immersion, spraying, and subsequent smoked, a magnitude | size (length x width) is (400-500) x (1000-1300) mm, It is preferable to use one having a thickness of 3 to 5 mm. The blank rubber sheet is immersed in a 0.005 to 5% strength aqueous solution or suspension of an antioxidant.

In the antioxidant of the present invention, the fatty acid, protein, etc. contained in the natural rubber latex are decomposed / reacted, etc., in the smoke production in the natural rubber production process, the heat drying process, etc. It can be used as long as it reduces the specific odor that occurs.
Examples of the antioxidant that can be used include L-ascorbic acid, erythorbic acid, alkali metal sulfite (Na, K, etc.), alkaline earth metal sulfite (Mg, Ca, etc.), catechin, tocopherol, phenol, At least one selected from resorcinol, aminophenol, xylenol, phenol-based anti-aging agent, p-phenylenediamine-based anti-aging agent, amine / ketone-based anti-aging agent, and sulfur-based secondary anti-aging agent (each alone or 2) A mixture of seeds or more, and so on).

  Examples of the phenol-based anti-aging agent include monophenols such as 2,6-di-tert-butyl-4-methylphenol used in the rubber industry and 2,2′-methylenebis (4-methyl-6-tert-butylphenol). ) And the like, and hydroquinone type such as 2,5-di-t-butylhydroquinone, and the p-phenylenediamine type anti-aging agent includes, for example, N, N′-diphenyl-phenylenediamine, N-phenyl-N′-isopropyl-p-phenylenediamine, (N-phenyl-N′-1,3-dimethylbutyl-p-phenylenediamine, etc. are mentioned. 2,2,4-trimethyl-1,2-dihydroquinoline, 6-ethoxy-2,2,4-trimethyl-1,2-dihi Rokinorin and the like.

Moreover, the above-mentioned L-ascorbic acids, erythorbic acids, alkali metal sulfites, alkali metal sulfites, catechins, tocopherols are used as antioxidants for foods, and their safety has been confirmed. is there.
Furthermore, sulfur-based secondary antioxidants such as 2-mercaptobenzimidazole, zinc salt of 2-mercaptobenzimidazole, and dilauryl-3,3′-thiodipropionate are used to convert hydroperoxide generated by auto-oxidation into a stable alcohol. Therefore, it is effective to use together with other antioxidants, and the effect of reducing odor is high.
Among these antioxidants, the above-mentioned phenolic antioxidants, p-phenylenediamine antioxidants, amine / ketone antioxidants, sulfur secondary antioxidants and the like are used in the rubber industry. The use time is used after mastication, and in the present invention, it is added before latex coagulation for the purpose of reducing odor during the natural rubber production process, etc., and the use time, use purpose, and application are different. However, both are differentiated.

These antioxidants are added in an amount of 0.0001 to 1.0 parts by weight, preferably 0.001 to 0.1 parts by weight, based on 100 parts by weight of dry rubber in the rubber latex before coagulation. Preferably, it is desirable to set it as 0.01-0.05 mass part.
If the addition amount is less than 0.0001 parts by mass, the addition amount is small, so that the target odor reduction effect cannot be exhibited. If the addition amount exceeds 1.0 parts by mass, the addition amount increases and oxidation is prevented. Since the agent remains in the rubber, the odor itself may be adversely affected, which is not preferable.

<Drying process>
In the present invention, the natural rubber material to which the above-mentioned antioxidant is added is dried at a drying temperature of 115 ° C to 100 ° C. A more preferable drying temperature is in the range of 100 ° C to 105 ° C.
The above-mentioned anti-drying agent is selectively oxidized by itself and has a function of preventing oxidation in the vicinity thereof. The speed at which the antioxidant itself undergoes oxidation is closely related to the ambient temperature, and even if the temperature differs by 10 ° C., the reaction rate differs several times. Conventionally, the drying temperature of natural rubber is around 120 ° C. However, in the natural rubber and the method for producing the same of the present invention, the drying temperature is 115 ° C or lower, preferably 105 ° C or lower. The consumption of the antioxidant present is greatly suppressed. For this reason, in the mastication process implemented in a rubber factory such as a tire, the antioxidant acts sufficiently, and the working environment in the factory is not deteriorated. In addition, when the drying temperature is less than 100 ° C., drying takes time and drying is not sufficiently performed.

The rubber composition of the present invention comprises a filler such as a reinforcing reinforcing agent such as carbon black and silica, a vulcanization accelerator, an anti-aging agent, and a vulcanizing agent such as sulfur with respect to the natural rubber obtained above. Etc. are blended.
Therefore, since the rubber composition of the present invention uses natural rubber with reduced odor, the rubber composition can be obtained with reduced odor derived from natural rubber even in various rubber composition manufacturing processes after mastication. It becomes.

Next, the present invention will be described specifically and in detail based on examples and comparative examples, but the present invention is not limited to the following examples.
[Examples 1-6 and Comparative Examples 1-5]
Table 1 below shows examples and comparative examples of lower grade TSR when the natural rubber raw material is a cup lamp.

In the case of the lower grade TSR, the concentration of each aqueous solution of the antioxidant shown in the following Table 1 (50 kg) prepared in advance was prepared by preliminarily preparing 10 kg of rubber grains which were washed and pulverized with a cup lamp and finally reduced to 10 mm or less with a shredder machine. Liter) for 1 minute.
Each rubber after immersion was dried with hot air at the temperature shown in Table 1 to obtain each natural rubber (lower grade TSR).
About each obtained natural rubber, the odor density | concentration at the time of mastication was evaluated by the following method. These results are shown in Table 1 below.

1) The odor concentration was carried out by the following procedures 1) to 6). That is,
In a 3.7 liter Banbury mixer for the test room, under conditions of circulating water 70 and rotor rotation speed 70 rpm, natural rubber 2.2 kg mastication accelerator (Noctizer SK, manufactured by Ouchi Shinsei Chemical Co., Ltd.) 1.3 kg At the same time, it was masticated for 3 minutes and 30 seconds.
2) Immediately after mastication, the ram was raised immediately, and the odor mixed air discharged from the rubber inlet was collected for about 2 liters for about 2 minutes in a sampling back with a pump.
3) A prescribed amount of odor mixed air collected in the sampling bag was sampled with a chemical syringe and injected into a 3 liter odor bag filled with clean air in advance (sample). The dilution rate is determined with an injection volume of ml and 3 liters. For example, if the injection volume is 1 ml, the dilution factor is 3000.
4) The odor was judged by the nose with an odor monitor of at least 3 people to see if the sample felt odor compared to clean air.
5) If a smell was felt, a sample with an increased dilution factor was prepared, and it was judged again whether or not the smell was felt by a monitor.
6) The dilution ratio at which no odor was felt was taken as the odor concentration.
The above-mentioned procedure for measuring the odor concentration of the kneading is common to the following examples.

As is clear from the results in Table 1 above, it was found that Examples 1 to 6 within the scope of the present invention exhibited an effect of reducing the odor concentration as compared with Comparative Examples 1 and 2 (control). Furthermore, when compared with Comparative Example 3, it can be seen that the effect of the antioxidant in the mastication step is greatly influenced by the drying temperature.
In particular, in Examples 4 to 6, it was found that there was a further odor concentration reducing effect compared with other Examples 1 to 3, and it was large.

(Test Example 1)
About 10 mg of each of the natural rubbers of Example 5 and Comparative Example 1 were heated at 150 ° C. for 10 minutes, and the generated gas was analyzed and compared by GC-MS.
As a result, a large amount of lower fatty acids, aldehydes, ammonia, and pyrrolidine which is a nitrogen cyclic compound were detected from the natural rubber of Comparative Example 1. It was hardly detected from the natural rubber of Example 5, and only a small amount of lower fatty acid was detected.
This proves that the antioxidant prevents the decomposition of the non-rubber fatty acids and proteins even after drying.

[Examples 7 to 10 and Comparative Examples 6 to 9]
Table 2 below shows examples and comparative examples of TSR when the natural rubber raw material is latex. Antioxidant (aqueous solution) was added to 17 liters of latex containing 5 kg of dry rubber in the amount shown in Table 2 below, and the mixture was sufficiently dispersed by stirring with a stirring rod.
This latex was coagulated with formic acid and dried at the drying temperature shown in Table 2 to obtain each natural rubber (advanced TSR) by a conventional method generally used in the industry. About each obtained natural rubber, the odor density | concentration at the time of mastication was evaluated by the said method. These results are shown in Table 2 below.

  As shown in the results of Table 2 above, even in the case of RSS when the natural rubber raw material of Examples 7 to 10 is latex, the effect of reducing the odor concentration is exhibited as compared with Comparative Examples 6 to 9 (each control). It has been found.

  The natural rubber of the present invention is obtained by adding an antioxidant to natural rubber latex before coagulation or pulverized natural rubber after coagulation, and reducing odor by drying at a drying temperature of 115 ° C. or less. In addition, the rubber composition using the same and the rubber composition using the same have high industrial applicability without generating odor that deteriorates the environment in the mastication process.

Claims (7)

A natural rubber in which an antioxidant is added to natural rubber pulverized after coagulation of natural rubber latex and dried at a drying temperature of 115 ° C. to 100 ° C. to reduce odor . The antioxidant has a dry rubber content of 100. Natural rubber formed by adding 0.0001 to 1.0 part by mass with respect to part by mass . The natural rubber raw material pulverized after coagulation is pulverized into particles having a size of 10 mm or less and immersed in an aqueous solution or suspension of 0.005 to 5% concentration of an antioxidant or sprayed with the aqueous solution. The natural rubber according to claim 1. The natural rubber according to claim 2, wherein the natural rubber raw material is at least one selected from latex coagulated rubber, cup lamp, slab and raw rubber. Antioxidants, L- ascorbic acid, erythorbic acid, sulfurous alkali metal salts, sulfite alkaline earth metal salts, catechin, tocopherol, phenolic antioxidants, p- phenylenediamine antioxidant, amine-ketone-based antiaging The natural rubber with reduced odor according to claim 1, which is at least one antioxidant selected from an agent and a sulfur-based secondary antiaging agent. The odor according to claim 1, wherein the antioxidant is at least one antioxidant selected from alkali metal sulfites, alkaline earth metal sulfites, p-phenylenediamine antioxidants, and xylenol. Reduced natural rubber. A rubber composition comprising the natural rubber according to claim 1 and a filler. The method for producing natural rubber with reduced odor according to claim 1, wherein an antioxidant is added to the natural rubber ground after coagulation of the natural rubber latex, and the natural rubber treated with the antioxidant is dried at 115 ° C to 100 ° C.