CA1285730C - Stretchable fastening tape for disposable diaper - Google Patents

Abstract

Abstract of the Disclosure A stretchable, fastening tape of the invention comprises a middle portion made of an elastic material and two end portions made of a non-elastic material and integrally bonded through respective boundary regions to said middle portion, characterized in that said elastic material is constituted of a composition comprising (a) and (b), or (a), (b) and (c) as mentioned below, while said non-elastic mate-rial is constituted of (d) as mentioned below:
(a) 100 parts by weight of a hydrogenated block copolymer represented by a general formula, A-(B-A)n, wherein A is a polymer block of a monovinyl-substituted aromatic hydrocarbon, B is an elastomeric polymer block of a conjugated diene, the weight ratio of A
to B is 20/80 to 40/60, and n is an integer of 1 to 4;
(b) 10 to 80 parts by weight of a resin having a melting or softening point of 80°C or higher and an average molecular weight of 400 to 2,000;
(c) n to 50 parts by weight of a thermoplastic olefin resin; and (d) a resin selected from the group consisting of polyethylene, polypropylene, poly(ethylene-propylene), poly(ethylene-vinyl acetate), and poly(styrenebutadiene), used alone or as a composite resin thereof.

Description

g Stretchable Fastening Tape for Disposable Diaper The present invention relates to a base material for a stretchable fastener tape More specifically, it relates to a base material for a stretchable fastener tape, which shows excellent fle~ibility and stretchability, an adequate shrinkage pressure in ; its use, a small permanent strain, an e~cellent creep strength, and a good melt-processability,and which is effccti-vc fo ar~i-lea worll on a h~man body and in-volving movement, such as hygien:Lc articles including B disposable diapers, clothing, and medical supplies.
Statemen~ of Prior Art~
Conventional fastener tapes generally comprise a base tape material selected from among paper, film, non-woven fabric and cloth, used alone or as com-posites thereof; and a fastening means, a pressure-~k ~2~

sensitive adhesive, or the like applied to the basetape material. They have no stretchability.
Examples of proposed stretchable tapes include a tape for a disposable diaper which comprises an elastic ring or an elastic belt provided in the middle of the tape as disclosed in Japanese Patent Laid-Open No. 68,345/1976 and Japanese Utility Model Laid-Open No. 157,209/1982, and a waist band for a disposable diaper which comprises a low-rigidity base material and a high-rigidity base matexial as disclosed in Japanese Patent Laid-Open No. 119,944/
1985.
A wholly stretchable pressure-sensitive adhe-sive tape and a thermoplastic stretchable tape are also proposed in Japanese Patent Laid-Open Nos.
235/1978 and 155,478/1984, respectively.

However, problems are involved in using the proposed-stretchable tapes as a fastener tape for fixing, for example, an article worn on a human body and involving movement in end use applications wherein stretchability is required or desired. Thus, they are not put into practical use yet.
Specifically, in the case of the fastener tape as disclosed in Japanese Patent Laid-Open No.

S~73~

68,345/1976, since the elastic material in the middle of the tape has a ring form, elongation o~
the elastic ring while pinching a tape end portion constituted of a non-elastic material in fixation to an adherend surface for use thereof is liable to cause rupture of the non-elastic material, or defor-mation attributed to stress concentration in boundary portions between the elastic ring and the non-elastic materials, leading to a marked reduction in the fixa-tion area of a surface of the non-elastic material, in which surface the non-elastic material is fixed to the adherend surface, and hence a decrease in the adhesion. In order to prevent the above-mentioned xupture of the non-elastic material or the above-mentioned deformation, a rigid base material is required as ~he non-elastic material. In other words, the above-mentioned fastener tape is not suitable as one for an article woxn on a human body. Also in an aspect of productivity, the step of connecting the elastic ring with the non-elastic material is complicated, resulting in an economical disadvantage.
On the other hand, a tape structure comprising a belt-like elastic material and non-elastic materials laminated on the back surfaces of both end portions is proposed in ~apanese Utility Model Laid-Open No.

157,209/1982. In the above-mentioned structure, however, not only is the productivity notably de-creased because a portion where the elastic material is lamination-bonded to the non-elastic material is curled due to a difference in shrinkage actor between the elastic material and the non-elastic material in the forming process or a difference in expansion or shrinkage caused by a change in tem-perature between storage and use, but also disadvan-tageously no sufficient bonding surface and hence no sufficient adhesion can be secured unless the whole fixation surface is pressed in every nook and corner in application, while the tape is liable to be peeled from the adherend suface after application due to a curl-reversing force. Further, the tape forming processability is notab].y damaged due to a diference in thickness between the portion con-stituted o~ only the elastic material and the portion where the non-elastic material is laminated thereon.
Furthermore, since the elastic material extends to the portion where it is essentially unnecessary, economical disadvanta~es are caused by not only the elastic material itself bu~t also the lamination step a~ ee~ of productivity in addtion to the above-mentioned disadvantage.

3`~3 Japanese Utility Model Laid-Open No. 157,209/
1982 includes an abstract description about a pos-sibility of a stretchable tape having no difference in thickness between the elastic poxtion a.nd the non-elastic portion but no disclosure of specific techniques.
As or the waist band for a disposable diaper as disclosed in Japanese Patent Laid-Open No. 119,944/
19~5, it is mentioned that the base material thereof is constituted of a laminate sheet comprising a non-woven fabric and a plastic film, and that the lamina-tion state of a low-rigidity region is provided by partial or overall thermal fusion in order to avoid an increase in rigidity of the base material. The meaning of low rigidity and high rigidity is expressed in terms of L value according to JIS-P 8143-1967.
JIS-P 8143-1967 is concerned with the method of test-ing the stiffnecs of paper by self-bending, which cannot serve as a measure for evaluating a stretch-ability exceeding at least 100~. In view of the ~act that the base material is constituted of a laminate sheet comprising a non-woven fabric and a plastic sheet, stretchability exceeding at least 100% cannot be expected in the waist band ~or the disposable diaper as disclosed in this patent ~21~i7;~

literature. When consideration is also given to the object aimed at by the waist band fox the dispos-able diaper as disclosed in the patent literature, this waist band is unsuitable as a fastener tape which must have excellent flexibility and stretch-ability, an adequate shrinkage pressure in its use, and a small permanent strain.
The adhesive tape as disclosed in Japanese Patent Laid-Open No. 235/1978, which can usually be easily peeled when the tape is elongated in the longitudinal direction for separating the adhesive from the tape-applied surface, comprises a base material made of only a highly stretchable elastomeric film and a pressure-sensitive adhesive layer applied to at least one whole surface o the base material.
This tape aims at easy and painless peeling like a first-aid sticking plaster, and hence cannot perform as a fastener tape for an article involving movement.
This is because it is of a different nature from the fastener tape of the present invention aiming at fixation o an article involving movement.
The thermoplastic stretchable tape as disclosed in Japanese Patent Laid-Open No. 155,478/1984 aims at providing a stretchable gathers portion as de-sired. Accordingly, the whole of the tape is 28~7,~

constituted of a stretchable composition. Even when a pressure-sensitive adhesive composition is applied to the stretchable tape, no function of fixation for an article involving movement can be secured like the tape as disclosed in Japanese Patent Laid-Open No. 235/1978.

Brief Description of Drawings:
Fig. 1 is an enlarged crosssectional view of an example of the base material for the stretchable fastener tape according to the present invention;
Fig. 2 is a perspective view of an example of the base material for the stretchable fastener tape accord-ing to the present invention; FLg. 3 is a schematic diagram showing an example of process for preparing the base material for the stretchable fastener tape according to the present invention; and Fig. 4 is a schematic perspective view of a fastener tape using a base material for a stretchable fastener tape according to the presen-t invention.
l...elastic material portion

2...non-elastic material portion

3...boundary portion

4...surface coated with pressure-sensitive adhesive ~' ~8~

5...surface treated with release agent lO...base material for stretchable fastener tape ll...stretchable fastener tape .extruder for non elastic material 22...extruder for elastic material composition 23...die 24...cooling rolls As described above, mainly in the field of dis-posable diapers, there have been several proposals concerning a means for materializing usefulness of a stretchable fastener tape having an elastic mate-rial provided in the mlddle portion thereof. However, every proposal involves various problems yet to be sol~ed before it is put into practical use.
The pxesent invention has been made as a result of intensive investigations with a view to solving the above-mentioned problems and providing a fastener tape showing excellent flexibility and stxetchability, an adequate shrinkage pressure in its use, a small permanent strain, an excellent creep strength, and a good processability. The objects of the present invention have been attained by a combination of an elastic material made of a specific composition and a specific non-elastic material bonded to each other according to a speciic me~hod.

. .

Specifically, .in accordance with the present invention, there is provided a base material for a stretchable fastener tape comprising a middle por-tion made of an elastic material and two end portions made of a non-elastic material and integrally bonded through respective boundary regions to said middle portion, characterized in that said elastic material is constituted of a composition comprising (a) and (b " or (a), (b) and (c) as mentioned below, while said non-elastic material is constituted of (d) as mentioned below:
(a) 100 parts by weight of a hydrogenated block copolymer represented by a general formula, A-(B-A)n, wherein A is a polymer block of a monovinyl-substituted aromatic hydxocarbon, B is an elastomeric polymer block of a conjugated diene, the wei~ht ratio of A
to B is 20/80 to 40/60, and n is an integer of 1 to 4;
(b) 10 to 80 parts by weight of a resin having a melting or softening point cf 80C or higher and an average molecular weight of 400 to 2,000;
~c) 0 to 50 parts by weight of a thermoplastic olefin resin; and (d) a resin selected from the group consisting of polyethylene, polypropylene, poly(ethylene-propylene), poly~ethylene-vinyl acetate), and poly(styrene-~8~

butadiene), used alone or as a composite resin thereof.
Another aspect of the present invention provides a stre-tchable fastener tape comprising a fastening agent (preferably a pressure-sensitive adhesive~ provided on one face of the base material.
A further aspect of the presen-t invention provides a method of fixing a wearing article onto a human body, which comprises applying the fastening agent side of the fastener ~ tape a-~t~c~d- to the wearing article.
A still further aspect of the invention provides a disposable diaper having attached thereto the stretchable fastener tape.
The term "excellent flexibility and stretchability"
as mentioned in the present invention means an elongation at hreakage of an elastic portion of 300% or more and a tenacity at 200% elongation of 3.0 kg or lower per width of a fastener tape formed. The term "adequate shrinkage pressure in its use"
means hysteresis loss of 10 to 70% in an S-S hysteresis curve at 200% elongation of an elastic portion. The term "small permanent strain" means a residual strain of 40% or smaller as measured one minute after an elastic portion is elongated by 150~ and kept in an elongated state for 3 hours, followed by remo~al of the load. The term "excellent creep strength"
means a creep strength at 40C under a load of 1.5 kg of an elastic material of 2 hours or longer per width of a fastener tape formed. The term "good melt processability" means a capacity of economically and continuously forming a multi-row 3(~

composite sheet composed of an elastic material and a non-elastic material and having a thickness of 100 to 350 ~ from respective compositive without any substantially uneven thickness and any substantially non-uniform appearance according to the melt-coextrusion method while providing a very high adhesion in the bonding interface between the elastic material and the non-elastic material of the formed multi-row composite sheet.
These desirable physical properties conflict with themselves and with melt-processability~ In the prior art technique, for example, when improvements in the flexibility and stretchability are desired, the creep strength decreases. On the other hand, when an improvement in the creep stren~th is desired, the flexibility and stretchability decrease, the permanent strain increases and the melt-processability decreases. Trying to improve the permanent strain results in an increase of the shrinkage pressure too much. When an improvement in the melt-processability is attempted, the creep strength extremely decreases. Accordingly, a specific composition and a specific processing method are necessary in order to satisfy all these contradictory properties.
The component (a) constituting the elastic portion in the present invention is a hydrogenated block copolymer represented by the general formula: A-(B-A). In the above general formula, A is a polymer block of a monovinyl-substituted aromatic hydrocarbon, B is an elastomeric polymer block of a conjugated ., ~ ~
~:.J ~

diene, and n is an integer of 1 to 4. There is no limitation as to the method of preparing such a hydrogenated derivative. In order to secure a necessary creep strength while maintaining the melt-processability and the physical properties on favor-able levels, the hydrogenated derivative must have 80 or more of the conjugated diene block of the above general formula hydrogenated.
The monovinyl-substituted aromatic hydrocarbon as the monomer constituting the block A of the copoly-mer is preferably styrene. ~-Methylstyrene or the lik~ may also be used. Preferred conjugated monomers in the block B of the copolymer are butadiene and isoprene. A mixture of the two monomers may also be used~ The weight ratio of the block A to the block B of the copolymer is 20/80 to 40/60. When this ratio is less than 20/80, the creep strength is inferior while the sheet surface is sticky. ~hen it is more than 40/60, the sheet is too rigid. The number-average molecular weight o the whole copolymer according to GPC is 20,000 or more, preferably 30,000 to 250,000, still preferably 40,000 to 200,000. Too low or high a molecular weight provides poor melt-coextrusion processability of the resulting elastic composition. Examples of preferred hydrogenated S~

derivatives include Kraton G-1650 and Kraton G-1652 manufactured by Shell Chemical Company. They may be used alone or in mixture.
The component (b) to be used in the present invention is a resin having a melting or softening point of 80C or higher, preferably 100C or higher, particularly preferably 120C or higher, and a molec-ular weight of 400 to 2,000, preferably 600 to 1,500.
Specific examples of such a resin include hydrogen-ated terpene resins and alicyclic hydrocarbon resins.
When the melting or sotening point is lower than 80C, the creep strength is lowered. The blending amount of the component (b) is 10 to 80 parts by weight, preferably 20 to 40 parts by weight, per 100 parts by weight of the component ~a). When it is less than 10 parts by weight, the melt-coextrusion processability is poor. When it exceeds 80 parts by weight, the creep strength is lowered while the sheet surface is sticky, thus resulting in poor processability.
The component (b) to be used in the present invention is indispensable for the purpose of satis-fying both of creep strength and melt-coextrusion processability of a thin sheet having axcellent flexibility and stretchability. In the case of * Trade Mark ~3S73~3 rubber a~ ~ general elastomer, a mineral oll softener oE naphthenic, paraffinic, or aromatic oil that i5 often called process oil or extender oll is used for the purpose of improvln~ the ~oftening power and proces~ability.
Slnce the component (a1 of the present invention is a thermoplastic elas~omer not cross-linked while the deslred sheet is thin, a general combination with a softener may be able to impxove the processability but notably decrease the creep strength. The com-ponent (b) ~haractexistically performs as a processing ald ln melt-coextruslon at a hlgh temperature of 17 to 240C, whlle the creep ~tr~ngth thereof does not decrease at the service temperatures o the formed product, namely 10 to 40C. Accordingly, a common softener can be secondarily used together with the component (b) wlthin a range where the creep strength ls not lowered.
The component (c) to be used in the present invention contributes to an adequate shrinkage pres-sure and, in other words, an adequate hysteresis loss as well as an improvement in creep strength.
The blendin~ amount of the component ~c) can be chosen wlthln a range of 50 parts by welght or less per 100 part~ by weight of the component (a) in accordance with speciflc levels of hysteresis loss 3~

and creep strength desired in specific end use application. When the blanding amount of the com-ponent (c) exceeds 50 parts by weight, the flexibility and stretchability are notably decreased with a notable increase in permanent strain. When it is up to 25 parts by weight, the increase in permanent strain is slow while an increase in hysteresis loss and an improvement in creep strength can be attained.
When it is between 25 and 50 parts by weight, an increase in hysteresis loss, an improvement in creep strength, and an increase in permanent strain are observed. In the use of the resulting product as, for example, a fastener tape of a disposable diaper, the preferred blending amount is 20 to 30 parts by weight. Preferred resins include a low-density polyethylene having a density of 0.917 to 0.935 or its modified products. Particularly preferred resins include a low-density polyethylene having a M.F.R.
(ASTM D 1238) value of 0.25 to 2.5 and its modified products.
Needless to say, a pigment, a filler, a stabi-lizer, etc., which are usually used for a thermoplas-tic polymer, may be added to a composition of the elastic material if desired.
The component ~d) to be used in the non-elastic ~35 ~i~3 material in the present invention is a thermoplastic resin selected from among polyethylene, polypropylene, poly(ethylene-propylene), poly(ethylenevinyl acetate), and poly(styrene-butadiene) and having an Olsen rigid-ity (ASTM D 747) of 600 to 15,000, preferably 900 to

6,000, used alone or as a composite resin thereof, which has a stress in 10~ elongation of twice or more, preferably 5 times or more, that of the elas-tomer to be combined therewith.
The non-elastic material portion of a fastener tape has a fastening agent layer provided on one surface thereof, which layer serves to fix articles to each other. Although a higher rigidity is desired from the viewpoint of easiness in application of the tape, a lower rigidity and a higher softness are preferred for giving a soft touch. The flowability and adhesion of the component (d) in a molten state thereof must have some approximation to those of the elastic material composition from the viewpoint of melt-coextrusion processability of the component (d) with the elastic material composition. The composi-tion (d) was chosen as the one satisfying these three requirements. Needless to say, a pigment, a filler, a stabilizer, etc., which are usually used for a thermoplastic polymer, may be added if desired.

1'7 The most desirable method of forming a multi-row composite sheet having an elastic material and a non-elastic material integrally bonded to each other in end portions thereof through boundary re-gions is a melt-coextrusion method. Two extruders respectively feed a thermoplastic elastic material composition and a non-elastic material composition into one die. The compositions are delivered from a die lip and cooled with cooling rolls to form a multi-row composite sheet having an elastic material portion and a non-elastic material portion alternately aligned, namely a base material for a stretchable fastener tape according to the present invention.
The forming temperature is preferably 170 to 240C.
The shear rate of the molten resins in the die lip is 5 x 101 to 9 x 10~ for both of the elastic material and the non-elastic material.
A fastening agent layer is provided on at least one surface of the non-elastic material of the ob-tained multi-row composite sheet as the base material according to a customary method, and if desired, the back surface is treated with a release agent, followed by slitting to a desired width. Thus, a fastener tape is obtained. Although the fastening agent layer should be basically provided on the surface of the 3S~3 non-elastic material in order for the fastener tape to manifest the above-mentioned various performances, there may be an overcoated fastening agent layer extending on the surface of the elastic material portion in so far as the stretchability of the elastic material portion is not obstracted.
The base material for the fastener tape according to the present invention is effective in fixing an article worn on a human body and involving movement and especially effective in fixing a disposable diaper. When.the base.material for the fastener tape according to the present invention is used in fixing a disposable diaper, it is desired to satisfy the following conditions (a) to (c):
(a) the thickness.of the base material for the fastener tape is 100 ko 350 ~;
tb) the tenacity in 200% elongation of the elastic material is 3.0 kg or lower per width of the fastener tape formed; and (c) the ratio ~Ll/Lo) of the len~th Ll in the longer direction of the elastic material to the total length Lo of the fastener tape is 0.05 to 0.25.
~Example~
The following Examples will now more specifically illustrate the stretchable fastener tape according to the present invention.
Examples l to 8 as against Comparative Examples 1 to 5 show embodiments of the elastic material por-tion which plays an important role in the present inven~ion, while Examples 9 to 13 as against Com-parative Examples 6 and 7 show embodiments of the base material for the fasten~r tape which uses an elastic composition having favorable properties.
Examples l to 8 and Comparative Examples l to 5 Components as listed in Tables l and 2 were knead~d with 8-inch rolls, followed by pulverization.
A sheet made of only an elastic material and having a thickness of 300 ~ was formed with a Labo Plasto-mill (manufactured by Toyo Seiki K.K.), followed by measurement of its physical properties.
The results are shown in Tables 1 and 2. The values of physical properties are ones measured per 25 mm in width.

* Trade Mark -~;
.

~5~3~ - `

Table l Composition and Physical Properties of Elastic Material Portion Ex. No. 1 2 34 5 6 7 8 _ _ __ _ _ _ (a) Kraton G-1652 100100 100 100 100 100 100 100 ~b) Clearon P105 30 30 50 50 70 _ _ _ Arkon P100 _ _ _ _ _ 30 50 80 _ - -~~ *4 ~- ~ _ _ . _ _ _ (c) L-LDPE _ 10 _ 20 _ _ _ _ _ Elongation at break, % 500 500 530 510 430 500 510 470 Ter.acity at 200~ 1.3 2.1 1.3 2.6 2.0 1.4 1.6 1.9 _ _ __ _ Creep strength, hr 6 >10 4 9 3 6 3 2 _. .
Note) ~1 Shell Chemical; hydrogenated derivative of styrene-butadiene copolymer *2 Yasuhara Yushi Kogyo; hydrogenated terpene resin, softening point: 105C
~3 Arakawa Kagaku Kogyo; alicyclic saturated hydrocarbon resin, softening point: 100C
B *4 Mitsui Petrochemical Industries, Ltd.; Ultzex 3021F

** Trade Mark Table 2 Composition and Physical Properties of Elastic Material Portion _ -- . . .
Com. Ex. No. 1 2 3 4 5 ~ _ Kraton G-1652 _ _ _ 100 Xraton G-1650 _ _ _ _ 100 Solprene 406 1 _ 100 100 _ ~R 460C~2 100 _ _ _ _ _ __ Shellflex 371J 3 _ _ 30 30 30 Ca~O3 25 _ 30 _ 25 Elongation at break600 750 830550 550 _ _ ~enacity at 200& elongation 1.52.4 1.0 2.3 1.4 __ _ _ .
Creep strength <0 1 ~10 ~10<0.1 0.4 ote) *l Asahi Chemical Industry Co., Ltd.; styrene-butadiene block copolymer *2 Aron Chemical ~ogyo; styrene-butadiene block copolymer compound *3 Shell Chemical; naphthenic extender oil *4 Average particle slze: 1 ~, surface-treated grade ** Trade Mark 2~

Examples 9 to 13 and Comparative Examples 6 and 7 A composition listed as the elastic material composition in Table 3 and another composition also listed as the non-elastic material composltion in Table 3 were fed in a thermally plasticized state thereof from extruders 22 and 21, respectively, to a die 23, which was a coextrusion die having a struc-ture capable of coalescing therein a molten elastic ma~erial composition and a molten non-elastic material composition which structure has a die lip width of 125 mm and a clearence of l mm, and allows a middle elastic material portion to be formed to provide a width of 7 mm. An integrated composite body of the molten elastic material composition and the molten non-elastic material composition was fed through the die 23 to cooling rolls 24, followed by slitting both thick end portions ormed due to neck-in. Thus, a continuous integrated composite sheet as shown in Fig. ~, which had a structure as shown in Fig. l and a total width of 65 mm, was obtained. The forming conditions, and the moldability and properties of the resulting base material for the fastener tape are shown in Tables 4 and 5, respectively~
In Comparative Example 6, an elastic material composition was only intermittently extruded from ~35~3 the die lip, so that integration thereof with a non-elastic material for forming a composite was impossible. It might have been due to insufficient gelation. When the forming temperature was further raised, extrusion became impossible due to the ther-mal deterioration of unsaturated bonds. Such a situation was expressed by a symbol x in the ranks of "thickness" and "width" of the elastic material portion in Table 5.
In CGmparative Example 7, an elastic material composition was extruded in a wavy form from the die lip. Although it was pressed with nip rolls, merely an elastic material having nonuniform thick-ness and width was obtained.
The ratio (Ll/Lo) of the length Ll in the longitudinal direction of the e].astic material to the total lèngth Lo of the fastener tape was 0.11.
Ll and Lo arè shown in Fig. 2.
The elastic material composition was prelimi-narily mixed with a high velocity mixer for plastics and melt-kneaded with a biaxial extruder to form pellets.

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r i73~3 A block copolymer corresponding to the compo-nent (a~ in Comparative Examples 1 to 3 in Table 2 is a styrene-butadiene block copolymer. The creep stength in Comparative Example 1 was so extremely low that it was unsuitable from the viewpoint of practical use, while the basic physical properties were favorable in Comparative Examples 2 and 3. As shown in Comparative Examples 6 and 7 in Table 5, however, moldability of a system using this block copolymer was too poor to orm a composite sheet capable of being put into practical use even when an extender oil was combined therewith as the process-ing aid. Although a block copo:Lymer corresponding to the component (a) according to the present inven-tion was used in Comparative Examples 4 and 5 in Table 2, blending o an extende:r oil therewith for the purpose of improving the processability extremely lowered the creep strength.
On the other hand, th~ basic physical properties were satisfied in Examples 1 to 8 according to the present invention in Table 1, whi~e the base materials for the fastener tape according to the present inven-tion in Examples 9 to 13 had a sheet thickness of 200 to 250 ~, and very good moldability and physical o ~ %~

properties.
Fastener tapes as shown in Fig. 4 which were prepared by treating the back surface 5 of the com-posite base material sheet in Example 10 with a silicone release agent, applying a rubber hot-melt pressure-sensitive adhesive to the surface of the non-elastic material portion 4, and cutting the resulting material to a width of 25 mm and a total length of 65 mm, namely stretchable fastener tapes composed of a middle elastic matrial portion 1 having a length of 7 mm in the longitudinal direction and non-elastic material portions 2 having a length of 29 mm in both ends, were used a3,~ for a baby disposable diaper for the purpose of making evalua-tion based on questionnaires. The diapers well followed the movement of a baby with very good fit.
Improvements were observed in respect of urine leak and leak due to a loose passage. Further, no break in the fastener tape portion occurred during th~ use of the diaper. Thus, very good results were obtained.

Claims (18)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A tape-shaped base material for a stretchable fastening tape, the base material comprising, when seen in cross-section in a width-wise direction:
a middle portion made of an elastic material, and two end portions made of a non-elastic material and integrally bonded through respective boundary regions to said middle portion, wherein the said elastic material is constituted of a composition comprising:
(a) 100 parts by weight of a hydrogenated block copolymer represented by a general formula: A-(B-A)n [wherein A is a polymer block of a monovinyl-substituted aromatic hydro-carbon, B is an elastomeric polymer block of a conjugated diene with a weight ratio of A to B of 20/80 to 40/60, and n is an integer of 1 to 4], the said hydrogenated block copolymer having a number-average molecular weight according to GPC of at least about 20,000; and (b) 10 to 80 parts by weight of a resin having a melting or softening point of 80°C or higher and an average molecular weight of 400 to 2,000;
the said non-elastic material is constituted of:
(d) a resin selected from the group consisting of polyethylene, polypropylene, poly(ethylene-propylene), poly-(ethylene-vinyl acetate), and poly(styrene-butadiene), or a composite resin thereof.

2. A base material for a fastener tape as claimed in claim 1, wherein the composition constituting the elastic material further comprises (c) a thermoplastic polyethylene in an amount of up to 50 parts by weight per 100 parts by weight of the hydrogenated block copolymer (a).

3. A base material for a fastener tape as claimed in claim 1, wherein the boundary regions between the middle portion and the two end portions are formed by melt-extrusion of both or either of a mass of the elastic material and that of the non-elastic material.

4. A base material for a fastener tape as claimed in claim 1, wherein the elastic material has a creep strength at 40°C under a load of 1.5 kg of 2 hours or longer per width of the fastener tape formed.

5. A base material for a fastener tape as claimed in any one of claims 1 through 4, wherein the component (a) is a hydrogenated block copolymer of the formula A-(B-A)n [wherein A
is a polymer block of styrene or .alpha.-methylstyrene, B is an elastomeric polymer block of butadiene or isoprene and n is an integer of 1 to 4], the copolymer having a number-average molecular weight according to GPC of 20,000 to 250,000.

6. A base material for a fastener tape as claimed in any one of claims 1 through 4, wherein the component (b) is hydrogenated terpene resin or alicyclic hydrocarbon resin each having a melting or softening point of at least 80°C and an average molecular weight of 400 to 2,000.

7. A base material for a fastener tape as claimed in claim 2, wherein the component (c) is low-density polyethylene having a density of 0.917 to 0.935.

8. A base material for a fastener tape as claimed in any one of claims 1 to 4, wherein the component (d) has an Olsen rigidity (according to ASTM D 747) of 600 to 15,000 and has a stress of 10% elongation of twice or more that of the middle elastomeric portion.

9. A stretchable fastening tape comprising a fastening agent layer provided on at least the non-elastic material portions of one face of the base material as defined in any one of claims 1 to 4.

10. A fastener tape as claimed in claim 8, wherein the elastic material has a creep strength at 40°C under a load of 1.5 kg of 2 hours or longer per width of the fastener tape formed.

11. A stretchable fastening tape comprising [A] a base material which comprises a middle portion made of an elastic material and two end portions made of a non-elastic material and integrally bonded through respective boundary regions to the middle portion, and [B] a pressure sensitive adhesive layer on one face of the base material in at least the end portions, wherein the elastomeric material comprises:

(a) 100 parts by weight of a hydrogenated block copolymer of the formula: A-(B-A)n [wherein A is a polymer block of styrene or .alpha.-methylstyrene, B is a polymer block of butadiene or isoprene, the weight ratio of A (total) to B (total) is 20/80 to 40/60, and n is an integer of 1 to 4], the copolymer having a number-average molecular weight according to GPC of 20,000 to 250,000; and (b) 10 to 80 parts by weight of a hydrogenated terpene resin or alicyclic hydrocarbon resin each having a melting or softening point of at least 80°C and an average molecular weight of 400 to 2,000; and the non-elastic material is selected from the group consisting of polyethylene, polypropylene, poly(ethylene-propylene), poly(ethylene-vinyl acetate) and poly(styrene-butadiene), each having an Olsen rigidity (according to ASTM D
747) of 600 to 15,000 and a stress at 10% elongation of twice or more that of the middle elastomeric portion.

12. A fastener tape as claimed in claim 11, wherein the elastic material further comprises:
(c) low density polyethylene resin in an amount of up to 50 parts by weight of the hydrogenated block copolymer (a).

13. A fastener tape as claimed in claim 11, wherein the boundary regions between the middle portion and the two end portions are formed by multi-extrusion of both or either of a mass of the elastic material and that of the non-elastic material.

14. A fastener tape as claimed in claim 11, wherein the elastic material has a creep strength at 40°C under a load of 1.5 kg of 2 hours or longer per width of the fastener tape formed.

15. A fastener tape as claimed in claim 11, wherein the base material satisfies the following requirements (a) to (c):
(a) the thickness of the tape is 100 to 350 µ;
(b) the tenacity in 200% elongation of the elastic material is 3.0 kg or lower per width of the fastener tape formed; and (c) the ratio (L1/L0) of the length L1 of the elastic material in the longitudinal direction to the total length L0 of the fastener tape is 0.05 to 0.25.

16. A stretchable fastening tape as claimed in any one of claims 11 to 15, wherein the face of the tape other than the face on which the fastening agent is provided has been treated with a release agent.

17. A stretchable fastening tape as claimed in any one of claims 11 to 15, wherein the component (a) is a hydrogenated styrene-butadiene block copolymer.

18. A disposable diaper having attached thereto the stretchable fastening tape as defined in any one of claims 11 to 15.