JP2008208308A - Resin material and manufacturing method of molded article - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a resin material capable of effectively suppressing acetaldehyde formation, and a manufacturing method of a molded article. <P>SOLUTION: The resin material is prepared by adding a compound that forms no acetaldehyde by thermal decomposition to a substrate resin that forms acetaldehyde by thermal decomposition, provided that the compound is trehalose, preferably crystalline trehalose hydrate. The substrate resin is preferably a polyester resin. In the manufacturing method of the molded article, the molded product is formed through at least injection molding of the resin material, provided that injection molding is carried out using the compound and the resin material. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a resin material and a method for producing a molded body.

Conventionally, resin materials have been widely adopted as materials for containers filled with food, cosmetics, detergents and the like. In general, this type of container is molded by pouring a molten resin material into a mold. In recent years, as a container made of a resin material that has been distributed most in large quantities, for example, a casing made of polyethylene terephthalate can be cited. This housing is formed by injection molding polyethylene terephthalate to form a preform and then biaxially stretching blow molding the preform.
By the way, when the resin material is, for example, polyethylene terephthalate, it is known that the resin material is thermally decomposed by heat applied in the process of forming the container, and acetaldehyde is generated at that time. In this case, the flavor and scent of the contents filled in the container may be affected.
Therefore, in order to suppress the generation of such acetaldehyde, conventionally, for example, as shown in Patent Document 1 below, polyethylene terephthalate that has been immersed in hot water and dried, or for example, the following Patent Document is used. As shown in FIG. 2, a polyester resin that has been solid-phase polymerized in a certain temperature range under an inert gas atmosphere or under reduced pressure has been used.
JP 2001-31750 A Japanese Patent Publication No. 03-79373

  By the way, in recent years, there is a demand for further suppressing the generation of acetaldehyde.

  The present invention has been made in consideration of such circumstances, and an object thereof is to provide a resin material and a method for producing a molded body that can effectively suppress the generation of acetaldehyde.

In order to solve the above problems and achieve such an object, the resin material of the present invention is such that a compound that does not generate acetaldehyde by thermal decomposition is added to a base resin that generates acetaldehyde by thermal decomposition. Features.
According to this invention, in the process in which the resin material is heated and melted to form a molded body, in the state where the base resin and the compound are both melted, the compound proceeds more rapidly than the base resin. By doing so, it is presumed that thermal decomposition of the base resin can be effectively suppressed.
Accordingly, it is possible to suppress the formation of acetaldehyde when the resin material is heated and melted to form a molded body, and the content of acetaldehyde in the formed molded body can be suppressed.

Here, the compound may be trehalose.
The trehalose may be hydrated crystal trehalose.
Furthermore, the base resin may be a polyester resin.

  The method for producing a molded article of the present invention is a method for producing a molded article by forming at least a resin material by injection molding, and is characterized by injection molding using the resin material of the present invention.

  According to the resin material and the method for producing a molded body according to the present invention, generation of acetaldehyde can be effectively suppressed.

Embodiments of the present invention will be described below. In this resin material, a compound that does not generate acetaldehyde by thermal decomposition is added to a base resin that generates acetaldehyde by thermal decomposition.
Examples of the base resin include polyester resins such as polylactic acid and polyethylene terephthalate which are biodegradable resins.

Examples of the compound include trehalose and the like, and preferably, water-containing crystal trehalose.
Furthermore, when the base resin is polyethylene terephthalate, the compound is preferably added to the base resin by a weight of, for example, 0.1% to 0.2% of the total weight of the resin material. In this case, when the compound is added in an amount of more than 0.2%, when the resin material is melt-kneaded and injection molded, the flow resistance of the molten resin may increase, for example, and the moldability may decrease. There is.
When the base resin is polylactic acid, the compound is preferably added to the base resin by a weight of, for example, 1% or less of the total weight of the resin material. In this case, even if the compound is added in an amount of more than 1%, the effect corresponding to the amount added cannot be obtained, and for example, the cost may increase.

  For example, when forming a casing using the above resin material, after the preform is first injection-molded at a molding temperature of 190 ° C. to 290 ° C., the preform is placed in a mold as in the present situation. It can be formed by biaxial stretch blow molding.

As described above, according to the method for manufacturing a resin material and a molded body according to the present embodiment, the base resin and the compound are both melted in the process of heating and melting the resin material to form the molded body. Therefore, it is speculated that the thermal decomposition of the base resin can be effectively suppressed by the thermal decomposition of the compound faster than the base resin.
Accordingly, it is possible to suppress the formation of acetaldehyde when the resin material is heated and melted to form a molded body, and the content of acetaldehyde in the formed molded body can be suppressed.

The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, the molded body formed of the resin material is not limited to a container or a sheet material, and the molding method is such as direct blow molding, thermoforming, extrusion molding, compression molding, or the like. The application target is not particularly limited as long as it is formed through a process to which is applied.

Next, the verification test about the effect demonstrated above was implemented.
Examples, comparative examples, and conventional examples are directed to a bottle (molded body) having a weight of 26 g formed by performing biaxial stretch molding blow molding of a preform molded by injection molding using polyethylene terephthalate as a base resin. went.
In addition, when polylactic acid was employed as the base resin, a bottle (molded body) having a weight of 24.2 g formed by the same molding method as described above was used.

First, examples will be described.
In the first example, polyethylene terephthalate is employed as the base resin, and trehalose obtained by subjecting water-containing crystal trehalose to a drying treatment (hereinafter referred to as dry trehalose) (water content: 300 ppm) as the compound, Two types of resin materials with different addition amounts were prepared.
In the second example, polyethylene terephthalate was adopted as the base resin, and water-containing crystal trehalose (water content: 2000 ppm) was adopted as the compound, and three types of resin materials were prepared with different addition amounts. .
In the third example, polylactic acid (water content: 300 ppm) was used as the base resin, and water-containing crystal trehalose (water content: 2000 ppm) was used as the compound, and the amount added was different 2 Various resin materials were prepared.

Next, a comparative example will be described.
In the comparative example, polyethylene terephthalate is used as the base resin, a resin material in which water is added to the base resin instead of the compound is used, and three types of resin materials with different amounts of water are prepared. did.

Next, a conventional example will be described.
In the first conventional example, polyethylene terephthalate was adopted as the base resin, and a resin material consisting only of the base resin without adding any of the compound and water was prepared. And the moisture content in the above-mentioned bottle formed with this resin material was 0.0013g.
Here, the polyethylene terephthalate employed in the above-mentioned first example, second example, comparative example, and first conventional example was adjusted to have a moisture content of 50 ppm.
In the second conventional example, polylactic acid was employed as the base resin, and a resin material consisting only of the base resin to which neither the compound nor water was added was prepared. And the moisture content in the above-mentioned bottle formed with this resin material was 0.0073g.

Each of these resin materials is melt-kneaded at about 290 ° C. when the base resin is polyethylene terephthalate and at about 190 ° C. when the base resin is polylactic acid, and injection molded to form a molded body, The concentration of acetaldehyde contained in each molded body was measured.
Table 1 shows the results of the first example, Table 2 shows the results of the second example, Table 3 shows the results of the third example, and Table 4 shows the results of the comparative example.
In the first conventional example, the concentration of acetaldehyde contained in the molded body was 7.08 μg / l, and in the second conventional example, the concentration of acetaldehyde contained in the molded body was 15.06 μg / l. .

As a result of the above, first, it is confirmed that the concentration of acetaldehyde contained in the molded body can be reduced as more trehalose or water is added to the base resin.
In addition, although the amount of water contained in the molded body of the first example is equivalent to that of the molded body of the first conventional example, the concentration of acetaldehyde contained in the molded body of the first example is 1 It is confirmed that the concentration can be lower than the concentration of acetaldehyde contained in the molded body of the conventional example. This confirms that generation of acetaldehyde can be suppressed by adding trehalose instead of adding water to the base resin.
Further, comparing the first example with the second example, it is confirmed that the second example can greatly reduce the concentration of the acetaldehyde.
Furthermore, from Example 3 and Conventional Example 2, it is confirmed that the concentration of acetaldehyde can be reduced by adding trehalose as the compound to the base resin even when the base resin is polylactic acid.

 Generation of acetaldehyde can be effectively suppressed.

Claims (5)

 A resin material characterized in that a compound that does not generate acetaldehyde by thermal decomposition is added to a base resin that generates acetaldehyde by thermal decomposition. The resin material according to claim 1,
A resin material, wherein the compound is trehalose. The resin material according to claim 2,
A resin material, wherein the trehalose is a hydrous crystal trehalose. The resin material according to any one of claims 1 to 3,
The resin material, wherein the base resin is a polyester resin. A method for producing a molded body that forms a molded body by injection molding at least a resin material,
A method for producing a molded body, comprising performing injection molding using the resin material according to any one of claims 1 to 4.