JPH09174646A - Elastic material, its manufacture and product using the material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an elastic material of superior elasticity represented by high elasticity recovering rate and provided with the gentle touch and also provide its manufacturing method and a product using the method. SOLUTION: In a manufacturing method, an elastic material is composed of a film or a filament melt molded in a crystal polyolefin resin composition composed of crystal polyolefin resin as a main component, and its first yielding point is within the distortion of 13%, the stress at the time of distortion of 30% is 130% of the stress of the first yielding point or less, and the elasticity recovering rate at the expansion of 50% is 80% or more, and the molding condition when the above crystal polyolefin resin composition is melt molded is (1/melt flow rate) × draft ratio > 10. An elastic nonwoven cloth and an elastic bonding tape using the above elastic material are also manufactured.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a polyolefin-based stretchable material which has excellent elasticity and a gentle texture as well as a high elastic recovery rate, and is suitable as a base material for sanitary goods, medical supplies, clothing and the like. The present invention relates to a material, a method for manufacturing the material, and a product using the material.

[0002]

2. Description of the Related Art Conventionally, there have been many attempts to impart stretchability to nonwoven fabrics, fastening tapes and the like. Nonwoven fabrics using, for example, thermoplastic polyurethane fibers (Japanese Patent Laid-Open No. 59-15736).
No. 2), a highly crimped polyester fiber heat-bonded with a hot-melt type binder fiber (JP-A-62-1).
77269), a polyolefin-based highly crimpable composite fiber and another organic fiber mixed and partially heat-bonded (JP-A-4-65562), a specific polypropylene resin is melt-spun, stretched and wound. Shrinked (Japanese Patent Laid-Open No. 5-71
No. 057) is disclosed. However, the non-woven fabric using the polyurethane fiber has the unfavorable properties that the texture shows a rubber-like sticky feeling, and easily yellows, and the specific gravity is large, and the one using the polyester fiber has a poor texture (hard), It has the drawback of poor stretchability.
Further, the one disclosed in Japanese Patent Laid-Open No. 4-65562 has a small expansion / contraction rate due to expansion / contraction due to deformation between the crimp and the adhesive point, and has a long expansion recovery time. In the case of Japanese Patent Laid-Open No. 5-71057, the monofilament of the non-woven fabric itself does not have elasticity, but it is due to the crimp and the entangled portion, and the elastic recovery time is long and the elasticity is poor.

Further, in the fastening tape, Japanese Patent Laid-Open No. 62-62
-15304, JP-A-62-81477,
Also, Japanese Patent Laid-Open No. 62-285969 discloses a tape using a stretchable material in the central portion and a non-stretchable material in the adhesive portions at both ends. In addition, the adhesive part also has elasticity and the amount of the adhesive becomes thin as the base material stretches at the time of peeling. There is disclosed a tape in which the base material is stretched by a stress (which is stronger than the time) and the amount of the pressure-sensitive adhesive becomes thin along with the stretch, and the tape can be removed cleanly without damaging the surface of the adherend. (Usually, the adhesive strength of the adhesive is proportional to the amount applied)

However, the stretchable material which is a non-woven fabric or a fastening tape to which these stretchable functions are imparted, is a stretchable material which can be elastically recovered even after a large strain, and is strained by a small stress. In the case of a stretchable material that can be strained with a small stress but not with a large stress, it does not recover elastically even when the stress is removed. Has not reached.

Accordingly, it is an object of the present invention to provide a stretchable material having a high elasticity recovery and excellent elasticity and a gentle texture, a method for producing the same and a product using the same.

[0006]

Means for Solving the Problems As a result of various investigations, the present inventors formed a film or a filament under specific molding conditions using only a resin composition containing a crystalline polyolefin resin as a main component. Therefore, it was found that the above-mentioned object can be achieved.

The present invention has been made on the basis of the above findings and comprises a film or filament obtained by melt-molding a crystalline polyolefin resin composition containing a crystalline polyolefin resin as a main component, and the first yield point is within 13% strain. The stress at 30% strain is 130% of the stress at the first yield point.
The following is provided, and an elastic material having an elastic recovery rate of 80% or more when stretched by 50% is provided.

Further, the present invention is the method for producing the above-mentioned stretchable material, wherein the molding conditions for melt-molding the above crystalline polyolefin resin composition are (1 / melt flow rate) × draft ratio> 10. The present invention provides a method for producing a stretchable material, which is characterized in that

The present invention further comprises stacking filaments,
In the partially bonded non-woven fabric, as the filament,
It is intended to provide a stretchable nonwoven fabric characterized by using the above-mentioned stretchable material filament.

Further, the present invention provides an adhesive tape having an adhesive layer provided on a part or all of the surface of a sheet-shaped substrate,
A stretchable adhesive tape comprising the stretchable material film or the stretchable nonwoven fabric as the sheet-shaped substrate.

Regarding the definitions of "first yield point", "second yield point" and "break point" used in the present invention,
This will be described with reference to the drawings. Here, FIG. 1 is a graph of a stress / strain curve when a film or filament which is a stretchable material of the present invention is pulled by a Tensilon tensile tester.

In the present invention, the "first yield point" means points a, b, and b in the graph of the stress / strain curve shown in FIG.
The point c among c, d, e, f, g, h, and i. Further, in the present invention, the “second yield point” means points a, b, c, d, in the graph of the stress / strain curve shown in FIG.
The point f of e, f, g, h, and i. Further, in the present invention, “breaking point” means points a, b, c, d, e, f, g, h, in the graph of the stress / strain curve shown in FIG.
Point i out of i. If point c does not appear clearly, the intersection of the tangent line at point b and the tangent line at point d is set as point c.
At this time, the point b is at a position of 3% strain, and the point d is at a position of 30% strain.

In the present invention, the "elastic recovery rate at 50% elongation (κ)" means a sample length of 15 cm and a gripping distance of 10 c using a Tensilon tensile tester.
m, tensile speed of 10 cm / min, stretched to 15 cm between grips, immediately returned at a return speed of 10 cm / min, measured grip length (L) at zero stress, and refers to the value calculated by the following formula . κ = [(15−L) / 5] × 100 (%)

The stretchable material of the present invention exhibits stretchability from a certain stress or more, and has a high elastic recovery rate at a certain stretch, and further does not contain a special additive such as a crosslinking agent. The polyolefin resin composition exerts a function (stretchability) (depending on molding conditions), so it has excellent safety, easy heat fusion processing (melt molding), excellent productivity, and little difference in dry-wet elastic modulus. It is characterized by being excellent in.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION First, the stretchable material of the present invention will be described in detail. Examples of the crystalline polyolefin resin which is the main component of the crystalline polyolefin resin composition used for the stretchable material of the present invention include polyethylene resins, polypropylene resins, ethylene and propylene, α such as butene-1.
-Copolymer resins with olefins and the like.

(Bending) of the crystalline polyolefin resin
The elastic modulus is preferably 10000 kg / cm ² or more, more preferably 13000 kg / cm ² or more, and most preferably 15000 kg / cm ² or more. Particularly, in the case of polyethylene resin, 10,000 kg / cm ² or more, and in the case of polypropylene resin (homopolymer or copolymer containing propylene as a main component), 11,000 kg / c
It is preferably at least m ² . Here, if the (flexural) elastic modulus is less than 10000 kg / cm ² , the elasticity of the film and filament itself becomes poor. In the present invention, “(bending) elastic modulus” means JIS K.
The value measured according to 6758.

In the above crystalline polyolefin resin composition, additives usually used for films, filaments, etc., such as matting agents, heat-resistant agents, light-proofing agents, pigments, etc., are added within a range that does not impair the effects of the present invention. If so, it can be added if necessary.

The stretchable material of the present invention comprises a film or filament obtained by melt-molding the above crystalline polyolefin resin composition.

The stretchable material of the present invention obtained by melt-molding the above crystalline polyolefin resin composition is
The first yield point is within 13% strain, preferably 3-10% strain, and the stress at 30% strain is 1 of the stress at the first yield point.
30% or less, preferably 90 to 120%, 50%
Elastic recovery of 80% or more when stretched, preferably 90-
100%. Here, if the first yield point is above 13% strain, strain occurs due to low stress, and the shape retention becomes poor. If the stress at 30% strain exceeds 130% of the stress at the first yield point, the force required for stretching in the expansion / contraction region (for example, 0 to 50% strain) becomes too large. In addition, the elastic recovery rate at the time of 50% elongation is 8
If it is less than 0%, the elasticity will be insufficient.

The stretchable material of the present invention has a melt flow rate of preferably 15 or less, more preferably 10 or less, and most preferably 5 or less. Here, when the melt flow rate is higher than 15, the tensile strength of the film and the filament itself becomes small. In the present invention, the “melt flow rate” (hereinafter referred to as “MFR”) is a value measured according to ASTM D 1238, and for example, when a polyethylene resin is used, it is 1
The value measured at 90 ° C. and 2.16 Kgf, and when polypropylene resin is used, the value measured at 230 ° C. and 2.16 Kgf (unit: g / 10 minutes).

In particular, the stretchable material of the present invention is obtained by melt-molding a crystalline polyolefin resin composition containing a polypropylene resin as a main component in terms of crystal orientation and tensile strength of the obtained film and filament. MF
It is preferable that R is 15 or less.

The stretchable material film of the present invention does not cause distortion (deformation) under weak (small) stress and has a high elastic recovery rate because it has a high elastic recovery rate. It is preferable to use it as a tape base material, and by using the film, the adhesiveness is good because the displacement with the adherend due to the tape extension does not occur up to a certain stress, and the fitting property and the repeated fastening / peeling property are excellent. An adhesive tape can be provided.

Further, since the filament, which is the stretchable material of the present invention, has no distortion under weak (small) stress (does not deform) and has a constant elastic stress, and has a high elastic recovery rate. It is preferably used for a non-woven fabric substrate, and by using the filament, a product excellent in texture, touch, and wearing feeling can be provided.

Further, the film or filament which is the elastic material of the present invention is not limited to the tape base material and the non-woven fabric base material described above, and in the case of a film, for example, 1 to 50 mm.
In the case of a filament, a filament having a denier of 500 to 2000 is obtained by a monofilament spinning method in the case of slitting in a width, and as a stretchable material in a partially stretchable configuration (such as gather) of an absorbent article made of a non-stretchable material. Can be used.

Next, the method for producing the stretchable material of the present invention will be described. The method for producing a stretchable material of the present invention is a method for producing the stretchable material of the present invention described above, when melt-molding the crystalline polyolefin resin composition,
This is a method having specific molding conditions.

The stretchable material of the present invention has the above-mentioned stretchability (that is, the first yield point is within 13% strain, the stress at 30% strain is 130% or less of the stress at the first yield point,
Elastic recovery rate at 50% elongation is 80% or more)
The conditions for developing the above are the MFR of the above crystalline polyolefin resin and the draft ratio at the time of melt molding (hereinafter, referred to as “D
R ”), and the larger the MFR, the larger the DR needs to be. That is, MFR and DR
And have the following specific relationship, which can be achieved by setting the molding conditions for melt molding the crystalline polyolefin resin composition.

That is, the molding conditions for melt-molding the crystalline polyolefin resin composition are: (1 / MFR) × DR> 10, preferably (1 / MFR) × DR>, when molding a film. 20, more preferably (1 / M
FR) × DR> 30, and when molding a filament, (1 / MFR) × DR> 10, preferably (1 / MFR) × DR> 30, and more preferably (1 / MFR)
FR) × DR> 50. Where (1 / MFR) ×
When the DR is 10 or less, the crystal orientation is poor, and the elastic recovery rate of the film or filament is low. In the present invention, "DR" (draft ratio) means the take-up speed (of the stretchable material) / the linear speed of the resin extruded from the die.

The stretchable material obtained by melt-molding the above crystalline polyolefin resin composition is further heat treated (hereinafter referred to as "heat treatment-1") from the viewpoint of exhibiting more excellent stretchability. May be given.

The method for producing the stretchable material film or filament of the present invention will be described separately below. First,
The stretchable material film of the present invention can be produced by melt molding such as an inflation molding method or a T-die method, which is conventionally known as a thermoplastic resin film molding method.

The molding conditions for the melt molding are, for example, (1 / MF) when the inflation molding method is used.
R) × DR> 10, DR is preferably 20 or more, more preferably 30 or more, and the blow ratio (hereinafter referred to as “BR”) is preferably 1.2 to 0.
7, more preferably 1.1 to 0.8, the film take-up speed is preferably 5 to 100 m / min, more preferably 10 to 50 m / min, and the molding temperature is preferably 30 to 100 ° C. higher than the melting point. Temperature, more preferably 50 to
The temperature is 80 ° C. higher. In the present invention, "B
“R” (blow ratio) refers to the diameter of the formed film / the diameter of the die lip (resin discharging portion).

From the viewpoint of exhibiting more excellent stretchability, it is preferable that the film obtained as described above is further subjected to "heat treatment-1" to grow more crystals. Here, the temperature of the “heat treatment-1” is preferably 10 ° C. lower than 50 ° C. to the melting point (mp) of the resin [mp of the low resin when the resin is a blend system], and the time is 0 It is preferably from 0.5 to 600 seconds, and the tension is preferably such that the film is not deformed (stretched or shrunk). Also, (1 / MFR) × DR = 10 to 20
When it is small, this "heat treatment-1" is particularly effective for developing stretchability.

Further, the above film may be subjected to a stretching treatment. When the stretching treatment is performed, the elasticity of the film itself is temporarily fixed, so that cutting, stacking and the like become easy.

The stretching ratio at the time of carrying out the stretching treatment is preferably 10 to 100% (the length before stretching is 100 to the length after stretching 110 to 200), and more preferably 20 to 80.
%. When the stretching ratio is less than 10%, the effect of substantial stretching is small, and when it exceeds 100%, the second yield point is exceeded,
In some cases, the heat shrinkage rate due to the “heat treatment-3” described below may be reduced.

The above stretching treatment can be carried out by using a usual stretching device such as a roll stretching machine. Further, the stretching treatment is usually performed by hot stretching, and in the present invention,
The stretching temperature is preferably 50 ° C. or lower. Then
In order to set the stretched state, heat treatment (hereinafter referred to as "heat treatment-2") is performed. The "heat-treated-2" film is processed depending on its intended use, but before or after this processing, it is further heat-treated (hereinafter referred to as "heat-treated-3") to release the stretched state. The film itself exhibits elasticity. Further, the stretchability of the film can be partially exhibited by the heating method of "heat treatment-3".

Here, it is preferable that the stretching temperature, the heat treatment, and the melting point (mp) of the crystalline polyolefin resin satisfy the following expressions.
"Stretching temperature"<"heattreatment-1" ≤ "heat treatment-2" ≤ "heat treatment-3", and "heat treatment-3"<mp of resin (mp of resin is low when the resin is a blend system)

Next, the filament as the stretchable material of the present invention can be produced by a commonly used method such as a long spin method and a monofilament method by melt molding (melt spinning). The filament is
It can be obtained by performing melt molding using a melt spinning device.

The molding conditions for the melt molding are, for example, (1 / MFR) × DR> when the long spin method is used.
In addition to 10, it is usually the mouthpiece diameter (nozzle diameter)
A die having a diameter of 0.2 to 1.5 mm and a number of holes of 200 to 1000 is used, and the molding temperature is preferably 40 to 180 than the melting point of the resin.
℃ higher temperature, more preferably 60 to 130 ℃ higher temperature, DR is preferably 30 or more, more preferably 50.
Above, the take-up speed is preferably 20-200 m
/ Min, more preferably 30/150 m / min.

The filaments obtained as described above are in the form of long fibers, and when they are made into a non-woven fabric, they are cut as they are into a single fiber to a predetermined length.

From the viewpoint of exhibiting more excellent stretchability, it is preferable that the filament is further subjected to "heat treatment-1" to further grow crystals. Here, the temperature of the “heat treatment-1” is preferably 10 ° C. lower than 50 ° C. to the resin mp (low resin mp when the resin is a blend system), and the time is 0.5 to It is preferably 600 seconds, and the tension is preferably such that the filament is not deformed (stretched). In addition, (1 / MF
When R) × DR = 10 to 30, which is small, this “heat treatment-1” is particularly effective for developing elasticity.

When the filament is made into a non-woven fabric, the filament may be crimped if necessary. This crimping treatment is performed before cutting the filament into a predetermined length. The crimping method is not particularly limited, and can be performed by a crimping device used in a normal nonwoven fabric manufacturing process. If the crimping treatment is applied,
Combined with the stretchability of the monofilament itself, the stretchability (elastic recovery rate) of the nonwoven fabric increases and the stretch behavior (stretch force, etc.)
The adjustment range of can be expanded.

If necessary, the filament may be stretched before being cut into a predetermined length. When the stretching treatment is performed, the elasticity of the filament itself is temporarily fixed, so that cutting, fiber stacking and the like become easy.

The stretching ratio at the time of carrying out the stretching treatment is preferably 10 to 100% (the length before stretching is 100 to the length after stretching 110 to 200), and more preferably 20 to 80.
%. When the stretching ratio is less than 10%, the effect of substantial stretching is small, and when it exceeds 100%, the second yield point is exceeded,
In some cases, the heat shrinkage rate due to the “heat treatment-3” described below may be reduced.

The above stretching treatment can be carried out by using a usual stretching device such as a roll stretching machine. Further, the stretching treatment is usually performed by hot stretching, and in the present invention,
The stretching temperature is preferably 50 ° C. or lower. Then
In order to set the stretched state, heat treatment (hereinafter referred to as "heat treatment-2") is performed. The filaments in the "heat treatment-2" long fiber state are cut into a predetermined length to be in a short fiber state, and the fibers are laminated and partially bonded, but before or after this bonding, further heat treatment is performed. By stretching (hereinafter referred to as “heat treatment-3”) and releasing the stretched state, the filament itself exhibits stretchability. Further, the stretchability of the filament can be partially expressed by the heating method of "heat treatment-3".

Here, it is preferable that the stretching temperature, the heat treatment, and the melting point (mp) of the crystalline polyolefin resin satisfy the following expressions.
"Stretching temperature"<"heattreatment-1" ≤ "heat treatment-2" ≤ "heat treatment-3", and "heat treatment-3"<mp of resin (mp of resin is low when the resin is a blend system)

Next, the stretchable nonwoven fabric of the present invention will be described in detail. The stretchable non-woven fabric of the present invention is a non-woven fabric obtained by stacking filaments and partially adhering them, and using the above-mentioned stretchable material of the present invention as the filament. The above-mentioned filaments in the stretchable nonwoven fabric of the present invention are not limited to flat filaments (filaments in the state of single fibers), and commonly used composite fibers such as deformed, hollow, and split fibers may be used alone or in combination of two or more. It can also be used.

The length of the filament in the single fiber state is not particularly limited, but is usually 10 to 100 mm, preferably 20 to 60 mm. Further, in the stretchable nonwoven fabric of the present invention, not only the filament in the single fiber state but also the filament in the long fiber state longer than 100 mm can be blended and used. By blending the filaments in the long fiber state, the density of partial adhesive points can be lowered and the texture is improved, which is effective.

As a method for laminating the above filaments, a known method such as a card machine or an air flow type random webber can be used, and a method of forming a cross wrapper web using a cross wrapper may be used.

The stretchable nonwoven fabric of the present invention can be obtained by stacking the above filaments and then partially adhering them. The method of partial adhesion is not particularly limited, but the method of heat fusion is preferable from the viewpoint of texture, elasticity and cost. As the method of heat fusion, a generally used heat embossing method, an ultrasonic method, or the like is used.

Further, the pattern of partial adhesion is not particularly limited, and like a general non-woven fabric, it is adhered in spots distributed on the surface of the cloth, and can be arbitrarily determined according to necessary (tensile) strength, texture and the like. . At this time, the area of one of the bonding points of the partial bonding is preferably 0.05 to ⁵ mm ² , and the total area of the bonding points is 10 to 40% of the total area before bonding.
It is preferred that The area of one of the adhesion points is 0.0
If it is smaller than 5 mm ² or the total area is smaller than 10%, the (tensile) strength may be weakened. If the area of one point of the adhesion point is larger than 5 mm ² or the total area is larger than 40%. It may have a bad texture.

The thickness of the filament used in the stretchable nonwoven fabric of the present invention is preferably as thin as possible from the viewpoint of flexibility and texture of the nonwoven fabric, particularly preferably 3 denier or less, and the lower limit thereof is not particularly limited. The thickness of the filament that can be actually produced at present is about 0.1 denier.

The stretchable nonwoven fabric of the present invention has a basis weight of 10 to 10.
500g / m^TwoIs preferably 20 to 300 g
/ M^TwoIs particularly preferred. The above basis weight is 10g
/ M ^TwoIf it is less, the preferable condition range of the partial adhesion
Even if it is inside, the (tensile) strength of the non-woven fabric becomes weak and
The sexual recovery rate may decrease, 500 g / m^TwoBeyond
If so, the texture may be deteriorated.

The stretchable nonwoven fabric of the present invention can be used for various products such as absorbent articles, masks, bandages, clothing and the like. When used for the above-mentioned absorbent article, in an absorbent article comprising a surface material, an absorbent body and a back surface material, it is used as a part or all of the surface material, the absorbent body and / or the back surface material and has the above-mentioned characteristics. With the stretchable nonwoven fabric of the present invention, since it stretches immediately following deformation, it has excellent fit characteristics, and combined with the characteristic that there is no difference in dry-wet elastic modulus peculiar to polyolefin as compared with hygroscopic resins such as polyurethane and polyamide. The product has a good texture. When used for the mask or bandage, it is used only with the stretchable nonwoven fabric of the present invention, or a combination of the stretchable nonwoven fabric of the present invention and a non-stretchable portion with a normal nonwoven fabric, a woven fabric or the like. It is a product that has been used and has excellent fit and conforms to movement. Further, when used for the above-mentioned clothing, since it is particularly used for a lining and has elasticity, the entire clothing does not lose its shape, and the product has excellent fit and touch.

Next, the stretchable adhesive tape of the present invention will be described in detail. The stretchable adhesive tape of the present invention is an adhesive tape in which an adhesive layer is provided on a part or all of the surface of a sheet-like substrate, and the sheet-like substrate is a film which is the stretchable material of the present invention described above. Alternatively, the stretchable nonwoven fabric of the present invention is used. The type and amount of the adhesive used in the adhesive layer are arbitrary according to various applications.

The stretchable adhesive tape of the present invention is used as a back material of absorbent articles, a surface material of waterproof clothing, etc., and can be a product excellent in gentle fit and leakproofness.

[0055]

The present invention will be described below in more detail with reference to Examples and Comparative Examples. However, the invention is not limited by these examples.

[Examples 1 to 3 and Comparative Examples 1 to 3] Using a polyolefin resin, a circular die D-1; a die lip diameter of 200 mm, a die lip clearance of 1 mm,
Or D-2; 50 mm single screw extruder equipped with a die lip diameter of 200 mm and a die lip clearance of 2 mm (L /
D: 28), a tube was molded under each molding condition and one end was cut to obtain a film. This film was wound on a paper tube, placed in a hot oven, and subjected to "heat treatment-1" under each condition. The physical properties of the obtained film are shown in the following [Table 1] together with the resin and molding conditions. For the elasticity of crosslinked rubbers such as natural rubber and synthetic rubber, which are typical conventional elastic materials, the first yield point is not shown, and the stress at 30% strain is less than that at 10% strain. It is 250 to 300%, and the stretchability of urethane elastomer, which is a typical thermoplastic elastomer, is 200 to 250%.

The measuring methods and evaluation criteria of various characteristics were carried out by the following methods or criteria. -Melting point of resin: The temperature that gives the extreme value of the melting endothermic curve measured at a temperature rising rate of 5 ° C / min using a differential scanning calorimeter DSC-7 type manufactured by Perkin Elmer was taken as the melting point (mp). Melt flow rate (MFR); AS as described above
It is a value measured according to TM D 1238, and when polyethylene resin is used, 190 ° C., 2.16 Kgf
In the case of using a polypropylene resin, it means a value measured at 230 ° C. and 2.16 Kgf (unit: g / 10 minutes).

Draft ratio (DR); as mentioned above,
It is the value of the take-up speed (of film or filament) / the linear speed of the resin extruded from the die. Blow ratio (BR): As described above, it refers to the diameter of the formed film / the diameter of the die lip (resin discharging portion). Bending elastic modulus: As described above, it was based on JIS K 6758.

Elastic recovery rate (κ): As described above, using a Tensilon UCT-100 tensile tester manufactured by Toyo Baldwin Co., Ltd. with a sample length of 15 cm, a gripping distance of 1
0 cm, tensile speed 10 cm / min, stretches to 15 cm between grips, immediately return with a return speed of 10 cm / min, no stress
The length between grips (L) at the time of is measured, and it is a value calculated by the following formula. κ = [(15-L) / 5] × 100 (%) ・ Stress and strain at the first yield point; Tensilon UCT-100 manufactured by Toyo Baldwin Co., Ltd. was used, and a sample with a length of 10 cm was grasped at 5 cm and a pulling speed From the graph of the tensile stress / strain curve measured at 5 cm / min, the first yield point (Fig. 1
Point c) was determined, and the stress and strain at that point were determined.

[0060]

[Table 1]

[Examples 4 and 5 and Comparative Examples 4 and 5] Using polypropylene resin, a molten resin was supplied from an extruder through a gear pump, and a spinneret (D-3) having a hole diameter of 0.2 mm and a number of holes of 200 was prepared. Alternatively, spinning was performed by discharge air cooling from a spinneret (D-4) having a hole diameter of 0.3 mm and 200 holes. afterwards,
A tension of 0.02 g / denier was applied and "heat treatment-1" was applied to obtain a filament. The physical properties of the obtained filament are shown in the following [Table 2] together with the resin and molding conditions.

[0062]

[Table 2]

[Examples 6 and 7 and Comparative Examples 6 and 7] The above filaments obtained in Examples 4 and 5 and Comparative Examples 4 and 5 were cut as they were or after being drawn to a length of 51 mm. Short fibers were obtained. At this time, the stretching treatment is carried out by using a roll stretching machine at 50 ° C. and 50% at a conveying speed of 20 m / min.
“Heat treatment-2” was applied at 145 ° C. for 10 seconds. The short fibers obtained by cutting are weighed with a flat card 3
A web of 0 g / m ² was prepared. The web was then passed through a hot embossing roll. At this time, the treatment with the embossing roll was performed by using an iron roll in which cylinders having a diameter of 1 mm and a height of 6 mm and each cylinder interval was 2 mm and were obliquely (45 degrees) scattered in the roll rotation direction at a surface temperature of 170 ° C. and a back roll (paper roll). Linear pressure with roll), transport speed 25m
/ Min. After that, perform "heat treatment-3" for 150 minutes.
A non-woven fabric was obtained by performing tension-free operation in an oven at ℃. The physical properties of the obtained non-woven fabric (non-woven fabric strength, elastic recovery rate, and texture) are shown in the following [Table 3] together with molding conditions.

The measuring method of the strength of the nonwoven fabric and the evaluation standard of the texture are shown below. -Nonwoven fabric strength (longitudinal direction); using Toshi Baldwin's Tensilon UCT-100, according to JIS L 1096, width 5 cm, gripping interval 10 cm, pulling speed 10 cm.
/ Min (unit: kg / 5 cm width). -Handle: A sensory test was conducted by 10 panelists and evaluated according to the following criteria. ○: All 10 people judged that the texture was good △: 5-9 people judged that the texture was good ×: 5 people or more judged that the texture was bad

[0065]

[Table 3]

[Examples 8 and 9 and Comparative Examples 8 and 9] The films obtained in Examples 1 and 3 and Comparative Examples 1 and 3 were used as a tape substrate film, and the tape specifications for normal diapers were used. Then, the surface treatment, the back treatment, and the adhesive coating were performed to manufacture a fastening tape. The disposable diaper with this tape attached was used by 10 people's monitors, and according to the following evaluation criteria, reattachment / peelability, attachment elasticity, fitability,
And the wearer's motility was evaluated. The results are shown in Table 4 below. Evaluation criteria: ◎: 10 people are satisfied ○: 6 to 9 people are satisfied △: 3 to 5 people are satisfied ×: 7 or more people are not satisfied

[0067]

[Table 4]

[0068]

EFFECTS OF THE INVENTION The stretchable material of the present invention has excellent stretchability, and in particular, stretches at a certain stress or more, and the stress at 30% strain / the stress at the first yield point × 100 ≦ 130%. It is low, has a high elastic recovery rate, has a gentle texture, and is inexpensive and highly productive without the need for an adhesive or the like. Further, according to the method for producing a stretchable material of the present invention, as compared with a stretchable material such as a conventional rubber, the above-mentioned stretch characteristics, good texture,
It is possible to obtain a highly productive stretchable material that is safe for the human body and that can be heat-sealed. Further, the stretchable nonwoven fabric of the present invention makes use of the stretchability of the above-mentioned stretchable material and is used for absorbent articles, clothes and the like to give a gentle fit and a comfortable wearing feeling. In addition, the stretchable adhesive tape of the present invention makes use of the stretchability of the above stretchable material to give excellent adhesiveness, fitability, and repeated fastening / peeling property.

[Brief description of the drawings]

FIG. 1 is a graph of a stress / strain curve when a film or filament which is a stretchable material of the present invention is pulled by a Tensilon tensile tester.

[Explanation of symbols]

 c 1st yield point f 2nd yield point i Break point

Continuation of front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location // C08J 5/18 CES A61F 13/18 Z B29K 23:00 B29L 7:00

Claims (5)

[Claims] 1. A film or filament obtained by melt-molding a crystalline polyolefin resin composition containing a crystalline polyolefin resin as a main component, wherein the first yield point is within 13% strain and the stress at 30% strain is 1 Elastic material having a yield point of 130% or less and an elastic recovery rate of 80% or more when stretched by 50%. 2. The stretchable material according to claim 1, which has a melt flow rate of 15 or less. 3. The method for producing a stretchable material according to claim 1, wherein the molding conditions for melt molding the crystalline polyolefin resin composition are: (1 / melt flow rate) × draft ratio> 10. The method for producing a stretchable material, which is 10. 4. A non-woven fabric obtained by stacking filaments and partially adhering the filaments, wherein the filaments are used as the filaments.
A stretchable non-woven fabric characterized by using a filament which is the stretchable material described. 5. A part or all of the surface of the sheet-shaped substrate,
An adhesive tape provided with an adhesive layer, characterized in that, as the sheet-shaped base material, the film which is the elastic material according to claim 1 or 2 or the elastic nonwoven fabric according to claim 4 is used. .