KR20010068149A - Biodegradable resin composition - Google Patents

Abstract

PURPOSE: A biodegradable resin composition for extrusion or injection molding is provided which is variously applied to film, disposable commodity and the like and has improved physical properties such as tensile strength, shock strength and the like, economical property and biodegradability. CONSTITUTION: The biodegradable resin composition for extrusion or injection molding is prepared by melt-mixing 10-60 part by weight of vegetable fiber materials, such as wood flour, chaff, rice bran and pulp, with 100 part by weight of aliphatic polyester resin at a temperature of 100-130 deg.C, wherein the vegetable fiber materials are dried at high temperature of 160-230 deg.C and have a size of 35-500 mesh.

Description

Biodegradable resin composition for extrusion and injection molding

The present invention relates to a biodegradable aliphatic polyester resin composition having improved physical properties such as strength, more specifically, extrusion comprising a vegetable fiber such as wood flour, rice hull, pulp, etc. The present invention relates to a biodegradable resin composition for injection molding.

Recently, the problem of environmental pollution by plastics has been raised. As one solution to this, there is an active research on plastics that can be decomposed into water and carbon dioxide by microorganisms under certain conditions.

Currently known biodegradable plastics are polypropylene resins obtained by melting and mixing polyolefin resins prepared by mixing natural polymer biodegradable plastics using polysaccharides such as starch, cellulose, chitin, and wood flour surface-treated with isocyanate compounds. Compositions (Patent Publication No. 96-8119), resin compositions for polyolefin-plant fiber type molding (Patent Publication No. 96-8117), and the like.

However, natural polymer plastics made of starch and the like have weaknesses in physical properties such as strength and are not widely used. In addition, the polypropylene resin composition using the surface-treated wood powder and the resin composition for molding the polyolefin-plant fiber system requires a separate process and cost for the surface treatment of the wood powder, the biodegradation rate is lowered due to the surface treatment and is not good for the soil. There was a problem affecting.

In addition, Patent No. 257818 relates to a method and a composition for preparing a polyester composite resin having improved elongation and tensile strength by adding talc, calcium carbonate, sawdust, etc. together with dicarboxylic acid and glycol which are polyester raw materials. . However, sawdust not only has a large particle size but a uniform grain state, resulting in uneven surface when molded into a product. In addition, the particle size is varied, the physical properties such as elongation is reduced. In addition, when the resin composition is manufactured in a state in which the components contained in the sawdust are not removed, there are disadvantages in that the original color of the resin product is not maintained, as well as the physical properties.

The present invention is to overcome the disadvantages of the prior art as described above is to provide a polyester resin composition with improved physical properties, such as strength, economics and biodegradability.

As a result of repeated studies, the present inventors have found that, unlike polypropylene and polyethylene, aliphatic polyester resins are well fused with wood powder without pretreatment by a separate chemical agent, and used in various applications such as films, disposable lunch boxes, and plastic medicine bottles. The present invention has been completed regarding a method for producing a biodegradable polyester resin composition capable of having sufficient tensile strength and impact strength to be used in the present invention.

Although aliphatic polyester resins are widely known to have biodegradability, there are limitations in the control of the decomposition rate, and the price of the resin is higher than other resins, which hinders generalization.

The present invention is to prepare a synthetic resin composition by mixing a vegetable fiber material such as wood flour, chaff, pulp as a filler in a biodegradable aliphatic polyester resin, the strength problem of natural polymer plastic, the biodegradation rate of resin compositions using chemically pretreated wood flour Problem, soil pollution, etc. were solved.

In the case of general resins such as polypropylene and polyethylene, there is a problem in that deterioration or discoloration occurs when the wood powder is used as a filler at a melting temperature and a working temperature of 160 ° C. or higher, resulting in deterioration of mechanical strength and deterioration of appearance. In addition, wood powder filler alone is difficult to uniformly dispersed. Therefore, in order to prevent thermal decomposition of the filler and to disperse uniformly in the resin at the same time, coating the wood powder using various chemical substances as in the prior art described above, and improving the heat resistance of the vegetable filler, Attempting to mix and mold.

On the other hand, the aliphatic polyester resin has a melting temperature of 130 to 150 ° C., which is relatively low compared to general resins (pvc 160-170 ° C., pp 180-200 ° C.). Therefore, it can be extruded and molded at a relatively low working temperature, so that the flowability and slipperiness of the object is good without any chemical treatment to prevent deterioration and carbonization as a filler. It doesn't work.

In addition, non-chemically treated vegetable fiber fillers are readily biodegradable and have a neutral pH after degradation, which does not adversely affect soil and plants.

Therefore, in the case of forming a biodegradable resin composition using a vegetable fiber filler such as wood flour, rice hull, pulp and the like of 35 to 500 mesh particle size in the aliphatic polyester resin, the biodegradation rate can be accelerated, and the wood flour is treated after being decomposed. Since there is no chemical ingredient, there is no pollution of the soil, and it contains organic substances, which helps the soil and plants. Furthermore, the cost is reduced by 30 to 40% compared to the currently used aliphatic polyester resin. In addition, it is possible to improve the surface texture and dimensional stability of the product than when using an aliphatic polyester resin alone, it can contribute to the popularization of biodegradable eco-friendly resin by reducing the manufacturing cost. In addition, the cooling rate is fast during extrusion injection molding, resulting in excellent dimensional stability.

The present invention is 10 to 60 parts by weight of 35 to 500 mesh vegetable fiber material dried at a high temperature of 160 to 230 ° C, more preferably 20 to 40 parts by weight with respect to 100 parts by weight of aliphatic polyester resin at a temperature of 100 to 130 ° C. It provides a biodegradable resin composition for extrusion and injection molding formed by melt mixing in the.

In addition, the present invention provides a biodegradable resin composition for extrusion and injection molding, wherein wood flour, rice husk, bran or pulp is selected as the vegetable fiber material.

Furthermore, the present invention provides a biodegradable resin composition for extrusion and injection molding, wherein the vegetable fiber is dried at a high temperature and then treated with an aqueous wax or paraffin to improve physical properties.

In addition, the present invention is extrusion and injection molding, characterized in that the tensile strength of the molded article made of the biodegradable resin composition 300kg / cm 3, tear strength 100kg / cm 3, Izod impact strength 3.5kg / cm 3 or more It provides a biodegradable resin composition for.

The composition of the present invention is characterized by melt-mixing 10 to 60 parts by weight of wood powder of 35 to 500 mesh with respect to 100 parts by weight of aliphatic polyester resin. When the wood powder is added in less than 10 parts by weight, the unit price increases, and economics become a problem, and when it is added in excess of 60 parts by weight, problems of deterioration in hardness and physical properties occur. More preferably, 20 to 40 parts by weight of wood powder is mixed with 100 parts by weight of the aliphatic polyester resin, which is a basic resin, to lower the tensile strength, tear strength, and Izod impact strength, and thus, as a biodegradable resin for extrusion and injection molding. fit.

In addition, the amount and particle size of the wood powder varies depending on the use of the biodegradable resin to be produced, it is preferable to add 10 to 30 parts by weight of fine wood powder with a particle size of 200 mesh or more in consideration of the tear strength, such as agricultural vinyl. It is preferable to add 30-60 weight part of wood powder as resin to be used for the use of the disposable container, plastic medicine bottle, etc. which have a predetermined thickness, and shape | molding.

Vegetable fiber fillers suitable for the present invention are preferably 35 to 500 mesh in size. When the size of the vegetable fiber material is greater than 35 mesh, the mechanical properties are likely to decrease. If the size of the vegetable fiber material is smaller than 500 mesh, the mechanical properties are excellent, but the manufacturing cost is increased. However, the particle size of the vegetable fiber material is not particularly limited. It can be used for different purposes according to the particle size of the vegetable fiber filler such as wood flour, rice hull, pulp.

In addition to the above composition, the present invention may add a small amount of an antioxidant, a heat stabilizer, an ultraviolet stabilizer, a lubricant, and the like, and if necessary, a flame retardant or a flame retardant aid may be added.

In order to obtain such a resin composition, an aliphatic polyester resin, wood flour, and other small amount of additives are kneaded using a kneader to prepare pellets. As the kneader, a balvarie mixer, a single screw kneader, a twin screw kneader, a co-kneader may be used. In order to prevent thermal decomposition of wood flour during kneading, the screw rotation speed of the kneader is lowered to about 300 to 1000 rpm.

The aliphatic polyester resin composition filled with the vegetable fiber material of the present invention is free from defects such as deterioration of mechanical strength, deterioration of appearance, etc. due to thermal decomposition of wood powder during mixing and molding, as well as stiffness, tensile strength and impact resistance. There exists an effect which can obtain molding resin excellent in mechanical characteristics, such as these.

Hereinafter, the configuration of the present invention through the embodiment in more detail. However, the scope of the present invention is not limited only to the description of the following examples.

Example 1 Wood Processing

1. First, wood was processed into sawdust to make wood flour. The bark of the wood was completely removed.

2. The hot air was dried for 40 to 50 minutes at a high temperature of 160 to 230 ° C. Hot air drying is first, to lower the water content of 30-50% in sawdust to less than 2%. Second, to remove tannins, lignin, rosin contained in some species. If you do not remove the moisture, rosin, tannins, etc. This is because the physical properties change due to the phenomenon of discoloration, carbonization, etc. during the mixing process of wood flour and resin.

3. Grinding by particle size using a high speed mill. The grinder speed is 3600rpm or more, and the particle size is pulverized into a needle-like or plate-like structure.

4. The particle size was adjusted according to the extrusion and injection molding applications in the state of pulverized into particles. The wider the particle size, the lower the physical properties and the uneven surface of the product.

5. The wood powder sorted by particle size is compounded by more than 10 minutes at 70 ~ 80 ℃ by adding additives such as dispersant and good lubricity aqueous wax or paraffin due to friction and heat of machine and object during extrusion and injection molding. . In the case of treating the aqueous wax, the aqueous wax was mixed with water and then mixed by spraying, and in the case of paraffin, it was stirred and mixed.

6. Since the aqueous additive was used, secondary drying was performed for 10 to 20 minutes.

Example 2: Preparation of Biodegradable Resin Composition

50 parts by weight of wood powder having a size of 200 mesh with respect to 100 parts by weight of aliphatic polyester resin, 2,2'-methylenebis [4-methyl-6- (1'-methylcyclohexyl) phenol], 4, 4 'as an antioxidant -Thiobis (2-t-butyl-5-methylphenol), pentaerythryl-tetrakis- [3- (3,5-di-t-butyl-4-hydroxyphenyl) -propionate], And tris (2,4-t-butylphenyl) phosphite were added to a co-kneader at the same time and kneaded at 100 to 130 ° C. for 5 minutes to prepare pellets according to a conventional method.

At this time, the pellet is cut into 2 ~ 3mm, 3 ~ 7mm and dried in the usual way at the temperature of 100 ℃ or higher, and then injection molded at the mold temperature of 50 ℃ and the cylinder temperature of 130 ~ 150 ℃ to tensile strength and tear strength. And Izod impact strength were measured.

All the above physical properties were measured according to the ASTM test method. The results are shown in Table 1.

Tensile strength (㎏ / ㎠) Tear strength (㎏ / ㎠) IZOD impact strength (㎏ / ㎠) Basic resin (aliphatic polyester resin) 365 160 5.0 Basic resin + wood powder 10 parts by weight 365 130 5.0 Basic resin + wood powder 20 parts by weight 360 130 5.0 Basic resin + wood powder 30 parts by weight 355 125 4.5 Basic resin + wood powder 40 parts by weight 350 110 4.0 Basic resin + wood powder 50 parts by weight 320 100 3.5 Basic resin + wood powder 60 parts by weight 300 100 3.5

In addition, as a result of burying a molded article, such as a film, a lunch box, manufactured and molded in the same manner as the above embodiment to a depth of 1m or more in the ground, decomposition began to occur from 1 to 2 months and completed decomposition for 8 to 12 months. In the biodegradable resin molded article for extrusion and injection molding of the present invention, the higher the vegetable fiber material content was, the faster the decomposition rate was.

The present invention melt-mixed with aliphatic polyester resin at a relatively low temperature in order to solve problems such as carbon powder at high temperature or decolorization of the final resin molding in the production of biodegradable resin using a vegetable fiber material such as conventional wood powder The tensile strength, tear strength, Izod strength, etc. are improved, and it provides an economical and biodegradable biodegradable resin composition for extrusion and injection molding.

Claims (9)

Biodegradable resin for extrusion and injection molding formed by melt-mixing 10 to 60 parts by weight of 35 to 500 mesh vegetable fiber material dried at a high temperature of 160 to 230 ° C with respect to 100 parts by weight of aliphatic polyester resin at a temperature of 100 to 130 ° C. Composition. The biodegradable resin composition for extrusion and injection molding according to claim 1, wherein the vegetable fiber material is 20 to 40 parts by weight. The biodegradable resin composition for extrusion and injection molding according to claim 1 or 2, wherein the vegetable fiber material is wood flour, rice hull, bran or pulp. The biodegradable resin composition for extrusion and injection molding according to claim 1 or 2, wherein the vegetable fiber material is treated with an aqueous wax or paraffin after a high temperature drying process. The biodegradable resin composition for extrusion and injection molding according to claim 3, wherein the vegetable fiber material is treated with an aqueous wax or paraffin after a high temperature drying process. The extrusion and injection molding according to claim 1 or 2, wherein the molded article made of the biodegradable resin composition has a tensile strength of 300 kg / cm 3, a tear strength of 100 kg / cm 3, and an Izod impact strength of 3.5 kg / cm 3 or more. Biodegradable resin composition. The biodegradable resin for extrusion and injection molding according to claim 3, wherein the molded article made of the biodegradable resin composition has a tensile strength of 300 kg / cm 3, tear strength of 100 kg / cm 3, and Izod impact strength of 3.5 kg / cm 3 or more. Composition. The biodegradable resin for extrusion and injection molding according to claim 4, wherein the molded article made of the biodegradable resin composition has a tensile strength of 300 kg / cm 3, a tear strength of 100 kg / cm 3, and an Izod impact strength of 3.5 kg / cm 3 or more. Composition. The biodegradable resin for extrusion and injection molding according to claim 5, wherein the molded article made of the biodegradable resin composition has a tensile strength of 300 kg / cm 3, tear strength of 100 kg / cm 3, and Izod impact strength of 3.5 kg / cm 3 or more. Composition.