JP2009077646A - Biodegradable agricultural mulch film-repairing tape - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a biodegradable agricultural mulch film-repairing tape biodegradable in soil, planned to be stuck to a break part of a biodegradable agricultural mulch film as a dynamic adhesion surface, excellent in adhesiveness to a biodegradable agricultural mulch film, showing a desirable tape strength, and excellent in cutting properties with hand, and usability in a site such as a field. <P>SOLUTION: This biodegradable agricultural mulch film-repairing tape has as the base material, a biodegradable agricultural film which is made from an aliphatic polyester, and has an adhesion layer which is made by laminating a biodegradable adhesive resin on the one surface of the base material. The aliphatic polyester comprising the base material contains at least an aromatic aliphatic polyester. The mixing ratio of the aromatic aliphatic polyester to the aliphatic polyester excluding the aromatic is (100:0)-(20:80) at a mass ratio. The agricultural mulch film-repairing tape is such that an adhesion strength to a biodegradable agricultural mulch film is ≥1 N/cm, a tensile fracture strength is ≥4 N/cm, an Elmendorf's tear strength is ≥0.2 N/cm, and a tensile extension percentage in the longitudinal direction is 100%-300%. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a repair tape for repairing a biodegradable agricultural multi-film, and more particularly, a biodegradable base material composed of an aliphatic polyester that is biodegradable and a biodegradable adhesive layer. And a multi-film repair tape for biodegradable agriculture.

  Currently, a part of the soil surface such as a field is made of synthetic resin in order to promote the growth of plants such as vegetables by keeping the temperature of the soil constant, and to control the growth of weeds by blocking sunlight. A technique of covering with agricultural multi-film is adopted. The agricultural multi-film is one that is removed and discarded after the plant is grown or the crop is harvested. In recent years, in order to reduce the labor of removing and discarding the agricultural multi-film, when the field is cultivated after the crop is harvested, the agricultural multi-film is sown with the soil and biodegraded in the soil. A biodegradable agricultural multifilm (hereinafter referred to as “biodegradable agricultural multifilm”) has been developed (for example, Patent Document 1).

  The biodegradable agricultural multi-film described above has the advantage of being biodegraded after being used in the soil, but because of its biodegradable nature, it is the most used in fields. In some cases, biodegradation progresses, and during the period of use, particularly in the latter half, it may be partially broken due to a slight impact or strong wind. If the broken part is left as it is, the ground temperature is not maintained, weeds grow from the gaps in the film, or the broken part may expand starting from the broken part due to wind and rain. . Therefore, it is desirable to repair the broken part at an early stage.

  A conventionally known general non-biodegradable pressure-sensitive adhesive tape can be used as a means for repairing the broken portion of the biodegradable agricultural multi-film.

  As another means, a conventionally known agricultural biodegradable tape can be used as a repair tape for the biodegradable agricultural multifilm. As a conventionally known biodegradable tape for agriculture, a biodegradable binding tape (Patent Document 2 below) is known. The biodegradable binding tape is a tape-like binding tool that binds a plant stem or branch to a support, and after using a raw material whose main component is a biodegradable aliphatic polyester, A film obtained by stretching in the longitudinal direction in the range of a stretch ratio of 1.5 to 6.0 is used as a base film, and an adhesive layer is provided on one side thereof. In Patent Document 2, it is disclosed that the biodegradable binding tape can adjust the desired weather resistance deterioration with the level of the draw ratio within the range of the preferred draw ratio.

Alternatively, as another example of a conventionally known biodegradable tape for agriculture, a biodegradable self-adhesive tape (Patent Document 3 below) for the purpose of fixing a plant stem to a support is known. . The biodegradable self-adhesive tape is a self-adhesive tape having an adhesive layer on one side of the base material, and the self-adhesive strength, which is the adhesive strength when the self-adhesive surfaces are bonded together, is 2.0 N / 10 mm or more, The adhesive strength to the SUS plate is 0.2 N / 10 mm or less.

JP-A-2005-192465 JP-A-9-266729 JP 2006-299101 A

  However, in the case of using a conventionally known general non-biodegradable synthetic resin tape in order to repair the broken portion of the biodegradable agricultural multifilm, after using the biodegradable agricultural multifilm, When the film was poured into the soil, a repair tape made of non-biodegradable synthetic resin remained in the soil, which was a problem.

  On the other hand, when the biodegradable tape exemplified in Patent Document 2 or 3 was used as a repair tape for biodegradable agricultural multifilm, it was affixed to the broken portion of biodegradable agricultural multifilm. These tapes can be biodegraded in the soil by plunging into the soil together with the biodegradable agricultural multifilm. However, when the conventional biodegradable tape described above is used as a tape for repairing the biodegradable agricultural multi-film, there is a problem that the usability is felt poor. These problems are mainly due to the fact that the above-mentioned conventional biodegradable tape is used to fix the stems and branches of plants to a support, and is exposed to the wind and rain like a biodegradable agricultural multi-film. It was thought that this contributed to the fact that it was not planned to be used on a dynamic adherend that showed movement in multiple directions.

  More specifically, the conventional agricultural biodegradable tape described above is not compensated for adhesiveness to the biodegradable agricultural multi-film made of synthetic resin. When it is applied to a biodegradable agricultural multi-film surface that has been exposed to dust and dirt and soil adhered to the surface, desirable adhesiveness may not be exhibited.

  The second problem is that the tape strength is weak and the tape affixed to the breaking point of the biodegradable agricultural multifilm breaks during the use period of the biodegradable agricultural multifilm, and is repeatedly It may be necessary to repair. In order to obtain a good tape strength, the present inventor has considered selecting a tape exhibiting a suitable tensile strength at break, but even a tape whose tensile strength at break seems to be within a suitable numerical range. It has been found that some of the biodegradable agricultural multi-films are easily cut off during the period in which the biodegradable agricultural multi-films are used after being attached to the broken portions of the biodegradable agricultural multi-films.

  Furthermore, regardless of whether the adherend surface is dynamic or static, when using tape in a field, etc., it can be easily cut in the width direction by hand without using cutting tools such as scissors. However, the conventional biodegradable tape for agricultural use exemplified above does not show improvement in terms of improving hand cutting ability, and improvement in hand cutting ability has been demanded. .

  The present invention has been made in view of the above problems, and can be biodegraded in soil, and is expected to be attached to a fractured portion of a biodegradable agricultural multi-film that is a dynamic deposition surface. The tape has a good adhesiveness to the biodegradable agricultural multi-film, has a desirable tape strength, has a good hand cutting property, and has a good feeling in use in fields such as fields. An object of the present invention is to provide a biodegradable agricultural multi-film repair tape.

The present invention
(1) A biodegradable film comprising a biodegradable film composed of an aliphatic polyester as a base material and an adhesive layer formed by laminating a biodegradable adhesive resin on one surface of the base material. A multi-film repair tape for agriculture, comprising at least an aromatic aliphatic polyester as the aliphatic polyester constituting the substrate, and a fat other than the aromatic aliphatic polyester and the aromatic aliphatic polyester The compounding ratio with the group polyester is 100: 0 to 20:80 by mass ratio, the adhesive strength to the biodegradable agricultural multi-film is 1 N / cm or more, and the tensile strength at break is 4 N / cm or more, A biodegradable agricultural machine characterized by an Elmendorf tear strength of 0.2 N / cm or more and a longitudinal tensile elongation of 100% or more and 300% or less. Chifirumu repair tape,
(2) Polybutylene adipate terephthalate is used as the aromatic aliphatic polyester, and polybutylene succinate (PBS), polybutylene succinate adipate (PBSA), polycaprolactone is used as the aliphatic polyester other than the aromatic aliphatic polyester. (PCL), polylactic acid (PLA), polyhydroxybutyric acid, one or more of them, and the biodegradable agricultural multi-film repair tape according to (1),
Is a summary.

  The biodegradable agricultural multi-film repair tape of the present invention is used when the biodegradable agricultural multi-film repair tape is pasted to the broken portion in order to repair the broken portion of the biodegradable agricultural multi-film. The inside shows excellent tape strength without the tape itself breaking. That is, the surface of the biodegradable agricultural multifilm used in fields etc. moves irregularly due to the influence of wind and rain, etc., but the biodegradable agricultural multifilm repair tape of the present invention is irregular. During the period of use of the biodegradable agricultural multi-film, it is possible to maintain the repaired portion in a fully compensated state without being affected by the dynamic movement.

  And when the use of the above-mentioned biodegradable agricultural multi-film is finished and it is drowned into soil such as a field, the repair tape of the present invention is also drowned into the soil and biodegraded in the soil. Can do.

  Moreover, the repair tape of the present invention has a tensile elongation in the longitudinal direction of 100% or more and 300% or less, and is easy to cut by hand, and can be easily cut in the width direction by hand without using scissors. So workability is very good.

The biodegradable agricultural multi-film repair tape of the present invention (hereinafter also simply referred to as “repair tape”) uses a biodegradable film composed of an aliphatic polyester as a base material, and is applied to one side of the base material. A biodegradable agricultural multi-film repair tape comprising an adhesive layer formed by laminating a degradable adhesive resin, which contains at least an aromatic aliphatic polyester as the aliphatic polyester constituting the substrate. .
The base material may be blended with an aliphatic polyester other than the aromatic aliphatic polyester. In this case, the blending ratio of the aromatic aliphatic polyester and the aliphatic polyester other than the aromatic aliphatic is: The mass ratio is 100: 0 to 20:80.
In addition, the repair tape of the present invention has a purpose of repairing a breakage point of a biodegradable agricultural multi-film, and has an adhesive strength, tensile breaking strength, Elmendorf tear strength, and longitudinal tensile strength with respect to the biodegradable agricultural multi-film. The elongation is limited to a specific range. Hereinafter, the best mode of the present invention will be described in more detail.

(About the base material)
The base material in the repair tape of this invention is comprised from aliphatic polyester. It is important that the aliphatic polyester contains an aromatic aliphatic polyester. By containing the aromatic aliphatic polyester, good flexibility is imparted to the repair tape, and as a result, desired longitudinal tensile elongation and Elmendorf tear strength described later are easily obtained. That is, by containing an aromatic aliphatic polyester in the base material, it is possible to obtain a repair tape having excellent strength and good usability.

  The thickness of the base material is not particularly limited and may be appropriately determined in consideration of the base material to be used. In general, the thickness is preferably 10 μm or more and 70 μm or less, and preferably 10 μm or more and 50 μm. The following is more desirable. If the thickness of the substrate is less than 10 μm, the strength of the repair tape may not be sufficiently obtained. In particular, when the substrate is too thin, the desired tensile breaking strength may not be obtained in the present invention, or the biodegradability proceeds to such an extent that the shape of the tape cannot be maintained during the period of use. There is a risk of holes being formed. On the other hand, when the thickness of the substrate exceeds 70 μm, the biodegradation rate tends to be slow when the substrate is rubbed into the soil with the biodegradable agricultural multifilm after use.

Blend ratio of aliphatic polyester:
The aliphatic polyester constituting the substrate of the present invention may be molded only from an aromatic aliphatic polyester, or by mixing an aromatic aliphatic polyester and an aliphatic polyester other than the aromatic aliphatic polyester. It can also be used. The compounding ratio of the aromatic aliphatic polyester and the aliphatic polyester other than the aromatic aliphatic polyester is 100: 0 to 20:80 in mass ratio.

Aromatic aliphatic polyester:
Examples of the aromatic aliphatic polyester resins include aromatic compounds obtained by polymerizing a polycondensate of a dicarboxylic acid component composed of adipic acid and terephthalic acid and a diol component composed of 1,4-butanediol with a polyfunctional isocyanate compound. Aliphatic aliphatic polyester resins are preferred. Other diol components include 2,3-butanediol, 1,3-butanediol, 1,4-pentanediol, 2,4-pentanediol, 1,6-hexanediol, neopentyl glycol, ethylene glycol, diethylene glycol Etc. More specifically, examples include polybutylene adipate terephthalate (PBAT).

Aliphatic polyesters other than aromatic aliphatic polyesters:
As an aliphatic polyester-based resin other than the above aromatic aliphatic polyester, a polycondensation product of a dicarboxylic acid component made of succinic acid and a diol component made of 1,4-butanediol is a polymer with a polyfunctional isocyanate compound. Aliphatic aliphatic polyester resins are preferred. Examples of other dicarboxylic acid components include aliphatic dicarboxylic acids such as adipic acid, sebacic acid, and itaconic acid. Other diol components include 2,3-butanediol, 1,3-butanediol, 1,4-pentanediol, 2,4-pentanediol, 1,6-hexanediol, neopentyl glycol, ethylene glycol And diethylene glycol. More specifically, examples include polybutylene succinate (PBS), polybutylene succinate adipate (PBSA), polycaprolactone (PCL), polylactic acid (PLA), and polyhydroxybutyric acid.

Other additives:
Moreover, as a material which comprises a base material, in addition to the aliphatic polyester mentioned above, another additive can be used suitably as needed, and this can be contained in a base material. Examples of additives include, for example, coloring agents, inorganic fillers, organic fillers, ultraviolet absorbers, light stabilizers, antioxidants, lubricants, hydrolysis inhibitors, antistatic agents, plasticizers, and the like. it can. The addition amount of these additives is not particularly limited, and can be appropriately determined within a range that does not hinder the desired physical properties of the present invention.

(About adhesive layer)
The repair tape of the present invention includes an adhesive layer on one surface of the above-described base material. Since the repair tape of the present invention is applied to the biodegradable agricultural multifilm through the adhesive layer, the adhesive layer may exhibit good adhesive strength to the biodegradable agricultural multifilm. is necessary. In addition, because of its use, after use, it is poured into the soil together with the biodegradable agricultural multi-film, so that it forms an adhesive layer like the biodegradable agricultural multi-film or repair tape substrate. It is desirable that the adhesive also exhibits biodegradability. More specifically, biodegradable adhesive resins such as rosin, terpene, and natural rubber can be used as the adhesive constituting the adhesive layer. The pressure-sensitive adhesive is generally applied to the substrate surface at a dry weight of 10 g / m ² or more and 200 g / m ² or less.

(About manufacturing method)
Although the manufacturing method of the repair tape of this invention is not specifically limited, For example, using the material which comprises the base material mentioned above, conventionally well-known, such as an inflation method, a T-die extrusion method, a calendar method, a casting method, etc. The substrate can be formed by the above method, and then an adhesive is applied to one surface side of the substrate by the roll coater method to form an adhesive layer.
Also, the form of the repair tape is not particularly limited, but for example, a repair tape comprising a base material and an adhesive layer can be formed into a roll tape. If the base material surface that overlaps the adhesive layer adheres when wound on a roll, and there is a possibility that the peelability may deteriorate during use, a separator should be provided between the adhesive layer and the substrate surface. Is desirable.

(About tape characteristics)
Next, the characteristic with which the repair tape of this invention is provided is demonstrated. The repair tape of the present invention is a tape intended for repairing a fractured portion of a biodegradable agricultural multifilm, and after use, the tape is swallowed into soil together with the biodegradable agricultural multifilm. It is to be decomposed. Therefore, there are some characteristics that should be provided in consideration of the above-mentioned applications.

Adhesive strength for biodegradable agricultural multi-film:
Since the repair tape of the present invention is intended to be attached to the breakage point of the biodegradable agricultural multifilm as described above, it is particularly necessary that the adhesiveness to the biodegradable agricultural multifilm is sufficient. . Therefore, the repair tape of the present invention specifies that the adhesive strength with respect to the biodegradable agricultural multifilm is 1 N / cm or more. When the adhesive strength is less than 1 N / cm, it is easily peeled off when applied to the surface of a biodegradable agricultural multi-film having mud or dust adhered to the surface, and for biodegradable agriculture. There is a possibility that the repaired state cannot be maintained during use of the multi-film.
On the other hand, the upper limit of the adhesive strength is not particularly limited. However, if the adhesive strength is too high, for example, if the repair tape is pasted at a location slightly deviated from the breakage of the biodegradable agricultural multi-film, it will be removed immediately and then repaired at the correct location. When the tape is peeled off from the film, there is a risk that the film will be damaged by stretching and tearing. From this viewpoint, the upper limit of the adhesive strength of the repair tape is preferably 2.5 N / cm or less, and more preferably 2.0 N / cm or less. In addition, the adhesive strength with respect to the said biodegradable agricultural multifilm is measured as follows.

First, a biodegradable agricultural multi film (Bioflex Multi Achilles Co., Ltd.) 10 cm × 30 cm is prepared and fixed on a horizontal surface. On the other hand, a repair tape having a width dimension of 1 cm cut to a length of 10 cm is prepared as a test piece. Next, 1 cm of one end of the test piece is left as a gripping portion, and the test piece is attached to the approximate center of the multi-film. Then, the adhesive strength against the multi-film is measured by measuring the force (N) required when the gripping part is sandwiched between gripping tools of a peeling tester and peeled at a peeling speed of 200 mm / min and a peeling angle of 180 degrees for 1 cm. Is done. In addition, about three test pieces created from the same repair tape, adhesive strength is measured with the above-mentioned method, respectively, and let those average values be the adhesive strength with respect to the biodegradable agricultural multifilm of this repair tape.

Tensile strength at break:
Next, the tensile strength at break which is one of the characteristics of the present invention will be described. The repair tape of the present invention needs to be at least 4 N / cm in the length direction. The purpose of defining the tensile strength at break in the present invention is to achieve good strength in a repair tape attached to a dynamic adherend surface.
When the tensile breaking strength is less than 4 N / cm, it is easy to break after use (that is, when sticking to a film) or after being attached to a biodegradable agricultural multi-film, and sufficient tape strength can be obtained as a repair tape. There is a risk of not being able to.

  The tensile strength at break described in the present invention is measured according to JIS K 6781 (agricultural polyethylene film). More specifically, a repair tape having a width of 1 cm is used as a test piece. Under the temperature condition of a test environment temperature of 23 ° C., both ends in the length direction of the repair tape are held with a gripping tool so that the spacing is 4 cm. The tensile breaking strength of the repair tape can be obtained by pulling in the length direction at 500 mm / min and measuring the strength at break of the test piece. When measuring the tensile breaking strength, the breaking strength of each of the three test pieces prepared from the same repair tape is measured by the above-described method, and the average value thereof is used as the tensile breaking strength of the repair tape. .

Elmendorf tear strength:
It is important that the repair tape of the present invention has an Elmendorf tear strength of 0.2 N / cm or more. The purpose of defining the Elmendorf tear strength in the present invention is to achieve good strength in a repair tape affixed to a dynamic adherend surface, as well as specifying the tensile fracture strength. . In other words, it is difficult to guarantee the good strength of the repair tape only by showing the desired tensile breaking strength as a general strength of the tape, and the biodegradation of the repair tape itself, which is biodegradable, progresses during the period of use. However, even if a tear or hole occurs in a part of the tape, ensure that the tape can be used as a repair tape for a predetermined period without easily tearing the tape starting from the tear or hole. Is intended. If the Elmendorf tear strength is less than 0.2 N / cm in the repair tape, the repair tape may be torn even by the presence of small tears or holes.

The above-mentioned Elmendorf tear strength can be measured according to JIS K 7128-2 (Plastics—Tear strength test method for films and sheets—Part 2: Elmendorf tear method). More specifically, a film composed of two layers, a base material layer and an adhesive layer, formed to prepare a repair tape, takes a short piece in a direction perpendicular to the film forming direction, while the film in the film forming direction. A test piece is prepared by taking a long side in a parallel direction and cutting it into a rectangle having a short side of 63 mm and a long side of 75 mm. Then, under the temperature condition of the test environment temperature of 23 ° C., the tear strength in the film longitudinal direction (molding direction) is measured for the three test pieces, and the average value thereof is taken as the Elmendorf tear strength of the repair tape.

Longitudinal elongation:
In the repair tape of the present invention, it is important that the tensile elongation in the longitudinal direction is 100% or more and 300% or less in order to improve the hand cutting property. The elongation percentage in the longitudinal direction is measured according to JIS K 6781, similarly to the tensile breaking strength described above. More specifically, a repair tape having a width of 1 cm is used as a test piece, and at a test environment temperature of 23 ° C., both ends in the length direction of the repair tape are held by a gripper so that the distance L _{0 is} 4 cm, and a tensile speed of 500 mm / min. Measure the distance L between the grips when the tensile break in the length direction at
Longitudinal elongation (%) = (L−L ₀ ) / L ₀ × 100
It is possible to calculate the elongation percentage (%) in the longitudinal direction. The longitudinal elongation (%) is the average of the numerical values measured under the same conditions for three specimens made from the same repair tape, and this is the longitudinal elongation (%) of the present invention. . The “tape length direction” in the description of the elongation percentage in the longitudinal direction means the winding direction of the tape wound up in a roll shape.
The elongation in the longitudinal direction can be appropriately adjusted depending on, for example, the amount of the inorganic filler.

Biodegradability:
The repair tape of this invention is equipped with the adhesion layer formed by making a biodegradable film into a base material, and laminating | stacking biodegradable adhesive resin on one side of the said base material. Strictly speaking, the term “biodegraded” means that it is biodegraded by microorganisms in the soil in a certain period of time and hydrolyzed into carbon dioxide and water. The time until hydrolysis is different depending on the molecular structure of the resin constituting the substrate, and in general, it is known that a resin having a linear structure is decomposed in a shorter time. It is necessary to select a constituent material according to the purpose. However, in the present invention, as a measure of biodegradability, it was affixed to a biodegradable agricultural multi-film, left outdoors for 2 months, and then embedded in soil together with the film and observed after 1 month. At this time, if the initial shape of the repair tape is not maintained and the stretched tape is hardly stretched, it can be evaluated as having good biodegradability.

  EXAMPLES Hereinafter, although this invention is demonstrated more concretely based on an Example and a comparative example, this invention is not limited to a following example.

Example 1
15 parts by mass of talc is mixed with 100 parts by mass of polybutylene adipate terephthalate (Ecoflex: manufactured by BASF) (hereinafter also simply referred to as “PBAT”), and a substrate having a thickness of 20 μm and a width of 40 cm is formed using an inflation molding machine. Created. Next, 100 parts by weight of natural rubber is dissolved in a toluene solvent to prepare a pressure-sensitive adhesive, and the pressure-sensitive adhesive is applied to one side of the base material by a roll coater method so that the dry weight is 30 g / m ^2. A repair tape was prepared as Example 1.

(Example 2)
Instead of using 100 parts by mass of PBAT as a constituent material of the base material, 70 parts by mass of PBAT and 30 parts by mass of polybutylene succinate (Bionore # 1001: manufactured by Showa Polymer Co., Ltd.) (hereinafter also simply referred to as “PBS”) were used. Except for this, a repair tape was prepared in the same manner as in Example 1, and this was designated as Example 2.

(Example 3)
A repair tape was prepared in the same manner as in Example 2 except that 30 parts by mass of PBAT and 70 parts by mass of PBS were used, and Example 3 was obtained.

Example 4
A repair tape was prepared in the same manner as in Example 1 except that the thickness of the base material was changed to 10 μm, which was designated as Example 4.

(Example 5)
A repair tape was prepared in the same manner as in Example 1 except that the thickness of the base material was changed to 50 μm, and Example 5 was obtained.

(Example 6)
A repair tape was prepared in the same manner as in Example 1 except that 30 parts by mass of Superester A-100 (Arakawa Chemical Co., Ltd.) as a tackifier was added to 100 parts by mass of natural rubber and dissolved in a toluene solvent. Example 6 was adopted.

(Example 7)
A repair tape was prepared in the same manner as in Example 1 except that 10 parts by mass of Superester A-100 (Arakawa Chemical Co., Ltd.) as a tackifier was added to 100 parts by mass of natural rubber and dissolved in a toluene solvent. Example 7 was adopted.

(Comparative Examples 1 and 2)
A repair tape was prepared in the same manner as in Example 1 except that the thickness of the base material was changed to 5 μm or 80 μm.

(Comparative Example 3)
A repair tape was prepared in the same manner as in Example 1 except that 100 parts by mass of PBS was used in place of 100 parts by mass of PBAT.

(Comparative Example 4)
A repair tape was prepared in the same manner as in Example 1 except that 100 parts by mass of PLA was used instead of 100 parts by mass of PBAT and talc was not used.

(Comparative Example 5)
A repair tape was prepared in the same manner as in Example 1 except that talc was not used.

(Comparative Example 6)
A repair tape was prepared in the same manner as in Example 1 except that 30 parts by mass of calcium carbonate was added to 100 parts by mass of natural rubber and dissolved in a toluene solvent.

(Evaluation of Examples and Comparative Examples)
About Examples 1-7 and Comparative Examples 1-6 prepared as described above, in a 40 cm wide film, cut to 10 mm width in the width direction, and appropriate in the length direction (film formation direction) according to each measurement test The adhesive strength, tensile rupture strength, and longitudinal tensile elongation for biodegradable agricultural multifilms were measured according to the above description. Regarding the Elmendorf tear strength, a test piece was prepared by cutting a film having a width of 40 cm to be 63 mm in the width direction and 75 mm in the length direction (film forming direction), and subjected to a measurement test. The measurement results are summarized in Table 1.

  Moreover, about Example 1, adhesiveness, hand cutting property, and biodegradability were evaluated as follows. The evaluation results are summarized in Table 1. In addition, Examples 2 to 7 and Comparative Examples 1 to 6 were similarly evaluated, and the results are shown in Table 1.

Tackiness evaluation:
A biodegradable agricultural multi-film (Bioflex Multi Achilles Co., Ltd.) 10 cm × 30 cm was prepared and fixed on a horizontal surface. On the other hand, the tape of Example 1 was cut into a width of 5 cm and a length of 5 cm to prepare a test piece. Then, 1 cm of one end of the test body was left as a gripping part, and was pasted on the approximate center of the film. Next, after being left for 5 minutes in the pasted state, the above grip portion was pinched by hand and pulled in the direction folded back approximately 180 degrees to perform an adhesive sensory test. And it evaluated as follows.
The repair tape is sufficiently adhered to the multi-film, and even if it is peeled off, the multi-film will not be damaged ...
It adheres firmly, and if peeled off, it will stretch into a multi-film and break.
It is not sticky enough and can be peeled off with almost no resistance ...

Evaluation of hand cutting ability:
A sensory test was performed on workability when Example 1 was cut by hand in the width direction, and the following evaluation was performed.
Can be easily cut by hand ...
Repair tape stretches and cannot be cut straight.

Evaluation of biodegradability:
A biodegradable agricultural multi-film (Bioflex Rex Multi Achilles Co., Ltd.) 10 cm × 10 cm was prepared, and Example 1 was cut into 5 cm × 5 cm to prepare a test piece. A test specimen was prepared by sticking to the approximate center of the film. Then, with the Example 1 side as the front side, the test body was left outdoors for 2 months and then embedded at a depth of about 5 cm from the soil surface of the field. And after 1 month, the test body in the soil was dug, the state was observed and evaluated as follows.
The biodegradation of the repair tape proceeds, and it hardly stretches even when pulled or breaks easily.
The shape of the repair tape is maintained, and the strength or elongation remains when pulled.

  Looking at the results of the measurement and the evaluation shown in Table 1, Example 1 to Example 7 show that the present invention is desirable in any of adhesive strength, tensile rupture strength, Elmendorf tear strength, and longitudinal tensile elongation. In addition to the tackiness of Example 6, the tackiness, hand cutting property, and biodegradability were all good. Regarding the adhesiveness of Example 6, since the adhesive strength was as high as 2.5 N / cm, Example 6 as a repair tape was firmly adhered to the multifilm, and the multifilm stretched when peeled off. The part is broken.

  On the other hand, Comparative Example 1 has a small tensile breaking strength of 3 N / cm, and it was speculated that there was a risk of breaking during the period of use after it was attached to the multifilm. Further, Comparative Example 2 has poor biodegradability and departs from the spirit of the present invention to provide a biodegradable repair tape. In Comparative Examples 3 and 4, the Elmendorf tear strength was small, and it was inferred that there was a risk of breakage due to the presence of small cuts and holes generated during use. In Comparative Example 5, the tensile elongation in the longitudinal direction greatly exceeded the desired range of the present invention, and as a result, the hand cutting property was poor. In Comparative Example 6, the adhesive strength was small, and the adhesive strength to the multifilm was not sufficient.

  From the measurement and evaluation of the above examples and comparative examples, in the biodegradable repair tape having a base material composed of aliphatic polyester, any of adhesive strength, tensile rupture strength, Elmendorf tear strength, and longitudinal tensile elongation It was shown that an excellent repair tape for repairing a biodegradable agricultural multi-film can be provided by being included in the good range specified by the present invention.

Claims (2)

A biodegradable agricultural mulch comprising an adhesive layer formed by laminating a biodegradable adhesive resin on one surface of the base material, the base material being a biodegradable film composed of aliphatic polyester. Film repair tape,
As the aliphatic polyester constituting the substrate, at least an aromatic aliphatic polyester is contained, and the blending ratio of the aromatic aliphatic polyester to an aliphatic polyester other than the aromatic aliphatic polyester is a mass ratio. 100: 0 to 20:80,
The adhesive strength for biodegradable agricultural multi-film is 1 N / cm or more,
The tensile breaking strength is 4 N / cm or more,
The Elmendorf tear strength is 0.2 N / cm or more, and
The longitudinal tensile elongation is 100% or more and 300% or less,
A biodegradable multi-film repair tape for agriculture. Polybutylene adipate terephthalate is used as the aromatic aliphatic polyester, and polybutylene succinate (PBS), polybutylene succinate adipate (PBSA), polycaprolactone (PCL) as an aliphatic polyester other than the aromatic aliphatic polyester. The biodegradable agricultural multi-film repair tape according to claim 1, wherein any one or more of polylactic acid (PLA) and polyhydroxybutyric acid is used.