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Claims  |
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What is claimed is:
1. A bag for the collection of waste material discharged from an artificial
anus, said bag comprising an opening portion, a sealed portion and a
multilayer packaging material, said multilayer packaging material
consisting of at least three layers, wherein:
(a) an inside layer consists of an oxyalkylene group-containing vinyl
alcohol copolymer film layer which is soluble in water only at a
temperature not lower than 55.degree. C., having a 10% Young's modulus
value of not more than 2.times.10.sup.3 kg/cm.sup.2 as measured at
20.degree. C. and 50% relative humidity, and wherein the oxyalkylene
group-containing vinyl alcohol copolymer has an oxyalkylene group content
of 1-80 percent by weight;
(b) a middle layer consists of a film layer of another polymer, and
(c) an outside layer consists of a nonwoven fabric material.
2. A bag for the collection of waste material discharged from an artificial
anus, said bag comprising an opening portion, a sealed portion and a
multilayer packaging material, said multilayer packaging material
consisting of at least three layers, wherein:
(a) an outside layer consists of a nonwoven fabric;
(b) a middle layer consists of an oxyalkylene group-containing vinyl
alcohol copolymer film layer which is soluble in water only at a
temperature not lower than 55.degree. C., having a 10% Young's modulus
value of not more than 2.times.10.sup.3 kg/cm.sup.2 as measured at
20.degree. C. and 50% relative humidity, and wherein the oxyalkylene
group-containing vinyl alcohol copolymer has an oxyalkylene group content
of 1-80 percent by weight, and
(c) an inside layer consists of a film layer of another polymer.
3. In a bag for the collection of waste material discharged from an
artificial anus, said bag comprising an opening portion, a sealed portion
and multilayer packaging material, wherein said multilayer packaging
material consists of at least three layers, the improvement comprising the
use of a multilayer packaging material consisting of:
(a) an inside layer consisting of an oxyalkylene group-containing vinyl
alcohol copolymer film layer which is soluble in water only at a
temperature not lower than 55.degree. C., having a 10% Young's modulus
value of not more than 2.times.10.sup.3 kg/cm.sup.2 as measured at
20.degree. C. and 50C. relative humidity, and wherein the oxyalkylene
group-containing vinyl alcohol copolymer has an oxyalkylene group content
of 1-80 percent by weight;
(b) a middle layer consisting of a film layer of another polymer, and
(c) an outside layer consisting of a nonwoven fabric material.
4. In a bag for the collection of waste material discharged from an
artificial anus, said bag comprising an opening portion, a sealed portion
and multilayer packaging material, and wherein said multilayer packaging
material consist of at least three layers, the improvement comprising the
use of a multilayer packaging material consisting of:
(a) an outside layer consisting of a nonwoven fabric;
(b) a middle layer consisting of an oxyalkylene group-containing vinyl
alcohol copolymer film layer which is soluble in water only at a
temperature not lower than 55.degree. C., having a 10% Young's modulus
value of not more than 2.times.10.sup.3 kg/cm.sup.2 as measured at
20.degree. C. and 50% relative humidity, and wherein the oxyalkylene
group-containing vinyl alcohol copolymer has an oxyalkylene group content
of 1-80 percent by weight, and
(c) an inside layer consisting of a film layer of another polymer. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
This invention relates to containers for filthy waste matter, in particular
bags for collecting excreta from the artificial anus, which have good
flexibility and odor-retaining property and can be thrown into the flush
toilet bowl without causing troubles.
Immediately after operative treatment of diseases of tubular or cavitary
organs, such as ileum, transverse colon, descending colon, sigmoid colon
and anal fistula, a minute opening (stoma), generally called an artificial
anus, is sometimes formed on the body surface for discharge of filthy
waste matter, such as fecal matter, pus or body fluid, therethrough. Not
only immediately after operations but also during convalescence and even
after return to work, the artificial anus is retained in many instances.
Bags for collecting the waste matter excreted from the artificial anus are
called ostomy bags, colostomy bags, ileostomy bags and so forth depending
of the tubular or cavitary organ to which the stoma is connected.
As to the construction of bags of this kind, various proposals have so far
been made, as mentioned below.
Japanese Kokai Jitsuyo-Shinan Koho (unexamined utility model application
publication) No. 142119/80 discloses bags for artificial anus which have
an adsorbent paper/synthetic resin film structure, with an excessive
amount of an adsorbent contained in the adsorbent as incorporated therein
on the occasion of paper making.
A Japanese patent application filed under PTC and laid open under Kohyo No.
501631/82 discloses bags chiefly intended for medical use which have a
structure such that a vapor barrier layer, such as a vinylidene
chloride-vinyl chloride copolymer layer, lies between two layers made of a
blend of a chlorinated polyolefin and an olefin polymer. In the relevant
specification, mention is made, either as the prior art bags or bags for
comparison, of bags for medical use which respectively have the following
structures: polyethylene film, plasticized polyvinyl chloride film, a
plasticized polyvinylidene chloride film, polyethylene/ethylene-vinyl
acetate copolymer laminate, ethylene-vinyl acetate
copolymer/polyvinylidene chloride/ethylene-vinyl acetate copolymer
laminate, and polyethylene/ethylene-vinyl acetate copolymer/polyvinylidene
chloride/ethylene-vinyl acetate copolymer/polyethylene laminate, among
others.
Japanese Kokai Tokkyo Koho (unexamined patent application publication) No.
1246/85 discloses non-sound-producing films for the manufacture of ostomy
bags which comprise either a layer of a blend of an ethylene-vinyl acetate
copolymer and an elastic polyolefin or two layers of said blend and a
gas/odor barrier layer of a vinylidene chloride copolymer, an
ethylene-vinyl alcohol copolymer, a vinylidene fluoride-vinyl fluoride
copolymer, a polyamide or the like as interposed between said two layers.
Japanese Kokai Tokkyo Koho No. 122527/85 discloses bags for excreta from
the human body which are made of a 3-hydroxybutyrate polymer film or a
laminate derived therefrom. As films usable for lamination to said film,
there are mentioned water-soluble polymer films, such as polyvinyl alcohol
films and polyethylene oxide films.
Japanese Kokai Jitsuyo-Shinan Koho No. 175248/85 discloses films for bags
to be attached to an artificial anus which are produced by three-layer
coextrusion of a blend of a saponified ethylene-vinyl acetate copolymer
and a partially saponified ethylene-vinyl acetate copolymer (as middle
layer) and an ethylene-(meth)acrylic ester copolymer (as sandwiching
layers).
Japanese Kokai Tokkyo Koho No. 31151/86 discloses bags for receiving feces
from the artificial anus which comprise a deodorizing coagulant disposed
on the bag bottom and in the tubular section, where a readily
water-soluble paper species is used.
Bags currently in practical use for collecting filthy waste matter excreted
from the artificial anus have a three-layer construction of ethylene
vinyl-acetate copolymer (inside layer)/polyvinylidene
chloride/ethylenevinyl acetate copolymer (outside layer) or a four-layer
construction derived from said three-layer construction by further
lamination of a nonwoven fabric or a net-like structure.
Japanese Kokai Tokkyo Koho No. 155408/84 (the applicant being the same as
in the present application), which is citable in connection with the
present invention, discloses a method of producing modified polyvinyl
alcohol which comprises saponifying a copolymer of an oxyalkylene
group-containing unsaturated monomer and vinyl acetate. However, no
mentioned is made therein of bags for collecting filthy matter excreted
from the artificial anus.
Bags for collecting filthy matter discharged through the artificial anus
are required to have, among others, the following properties:
(1) The filthy matter collected can be prevented from leaking from them
(water resistance);
(2) No odor can leak out while they are worne (odor barrier property);
(3) They will not produce any sound so that others can never become aware
of the fact of wearing thereof (non-sound-producing property or
flexibility);
(4) They can be thrown into the flush toilet bowl without causing stopping
up of the flush line (disposability in flush toilet);
(5) Their feel and touch are never unpleasant to wearers (acceptability in
touch).
The bags disclosed in the above-cited references cannot meet all the
requirements mentioned above. Even those bags currently in practical use
which have an ethylene-vinyl acetate copolymer/polyvinylidene
chloride/ethylene-vinyl acetate copolymer three-layer structure or a
four-layer structure derived therefrom by further lamination of a nonwoven
fabric or a net-like material may possibly cause stopping up of the flush
line if they are thrown into the flush toilet bowl, although they are
fairly satisfactory in respect of water resistance, odor barrier property,
flexibility and feel and touch.
It is no doubt that artificial anus bearers are increasing in number year
by year. The number of those artificial anus bearers that have returned to
work is also increasing. Under these circumstances, it has earnestly
waited for the advent of bags capable of meeting all the requirements
mentioned above.
Accordingly, it is an object of the invention to provide bags which can
meet such requirements as mentioned above.
SUMMARY OF THE INVENTION
The invention provides a container for filthy matter which is essentially
made of a single-layer or multilayer packaging material comprising an
oxyalkylene group-containing vinyl alcohol copolymer film layer.
BRIEF DESCRIPTION OF THE DRAWINGS
In the accompanying drawings,
FIG. 1 is a plan view of an example of the container for filthy matter as
provided by the invention; and
FIG. 2 and FIG. 3 each is a partial sectional view of an example of the
container according to the invention, where the container is essentially
made of a three-layer packaging material.
In the figures, the reference numeral 1 indicates a single-layer or
multilayer packaging material comprising an oxyalkylene group-containing
vinyl alcohol copolymer film layer, and 1a, 1b and 1c denote the
oxyalkylene group-containing vinyl alcohol copolymer film layer, another
polymer film layer and a nonwoven fabric, respectively. The numeral 2
indicates a sealed portion, and 3 an opening portion.
DETAILED DESCRIPTION OF THE INVENTION
The oxyalkylene group-containing vinyl alcohol copolymer to be used in
accordance with the invention is preferably a saponification product
derived from a copolymer of an ethylenically unsaturated monomer
containing an oxyalkylene group of the formula
-[CHR-CHR'-O-].sub.n H
wherein R and R' each independently is H or an alkyl group (in particular a
methyl or ethyl group) and n is a positive integer, and vinyl acetate.
Specific examples of the oxyalkylene group-containing, ethylenically
unsaturated monomer are polyoxyethylene (meth)acrylate, polyoxypropylene
(meth)acrylate, polyoxyethylene (meth)acrylamide, polyoxypropylene
(meth)acrylamide, polyoxyethylene (1-(meth)acrylamido-1,1-dimethylpropyl)
ester, polyoxyethylene (meth)allyl ether, polyoxypropylene (meth)allyl
ether, polyoxyethylene vinyl ether and polyoxypropylene vinyl ether. In
each case, the number of moles of oxyalkylene units added, namely n, is
about 1 to about 300, preferably about 5 to about 50. Among the examples
given above, polyoxyethylene allyl ether is most practicable.
The oxyalkylene group-containing vinyl alcohol copolymer can be prepared by
copolymerizing an oxyalkylene group-containing, ethylenically unsaturated
monomer such as mentioned above and vinyl acetate and then saponifying the
resulting copolymer in an alcohol, such as methanol, ethanol or butanol,
in the presence of an alkali catalyst.
The degree of saponification of the vinyl acetate component should be at
least 10 mole percent. Since, however, a higher degree of saponification
is more advantageous for the utilization of the properties of the vinyl
alcohol group, the degree of saponification should generally be not less
than 50 mole percent, preferably not less than 70 mole percent, more
preferably not less than 90 mole percent.
The oxyalkylene group-containing vinyl alcohol copolymer obtained by
saponification should preferably have an oxyalkylene group content of 1 to
80 percent by weight, more preferably 2 to 60 percent by weight, most
preferably 5 to 50 percent by weight. When said content is too small, the
flexibility will be damaged upon heat treatment of the film and
conversely, when said content is excessive, the odor barrier property of
the vinyl alcohol-based copolymer will be decreased.
In carrying out the polymerization mentioned above, one or more other
monomers may be present in an amount of not more than about 30 mole
percent, for example one or more monomers selected from among vinyl esters
other than vinyl acetate, alkyl vinyl ethers, alkyl allyl ethers,
ethylenically unsaturated carboxylic acids, esters, salts and acid
anhydrides of such acids, .alpha.-olefins, vinyl chloride and so forth.
In some instances, the oxyalkylene group-containing vinyl alcohol copolymer
may also be prepared by reacting polyvinyl alcohol with an alkylene oxide
or by graft polymerization of vinyl acetate on a polyoxyalkylene glycol
followed by saponification of the polymerization product.
A film of such oxyalkylene group-containing vinyl alcohol copolymer can be
produced, for example, by casting an aqueous solution of said polymer, by
melt extruding the polymer under aqueous conditions, or by melt extruding
the polymer.
The thus-obtained film as such is apt to have insufficient water
resistance. Therefore, when the film is to be used alone as the unilayer
packaging material or as the inside layer of the multilayer PG,11
packaging material, the film should desirably be heat-treated at a
temperature of about 120.degree. to 260.degree. C., preferably about
130.degree. to 240.degree. C., so that it can become such that it is
soluble in water only at temperatures not lower than 55.degree. C. and has
a 10% Young's modulus value of not more than 2.times.103.sup.3 kg/cm.sup.2
as measured at 20.degree. C. and 50% RH (relative humidity).
The lowest temperature at which the film is soluble in water is defined as
a temperature at which the dissolution of a film specimen, 3 cm .times.3
cm in size and 25.+-.2 .mu.m in thickness, reaches not less than 99
percent by weight when said specimen is put in 2,000 ml of cold water in a
beaker and the temperature is then immediately raised at a rate of
2.degree. C. per minute.
The container for filthy matter according to the invention may be
constructed with the above-mentioned oxyalkylene group-containing vinyl
alcohol copolymer film layer alone. From the utility viewpoint, however,
said container should desirably be constructed by using a multilayer
packaging material consisting of at least two layers resulting from
combination of said copolymer film layer with another polymer film layer,
an entangled fiber layer or a thin metal layer.
Suitable as the polymer film layer to be combined with the specific
copolymer layer are film layers of olefin-based polymers, such as
polyethylene, ethylene-propylene copolymers, ethylene-vinyl acetate
copolymers, ethylene-acrylic ester copolymers and ionomers because of
their being flexible and having water resistance. Furthermore, film layers
of polymers having gas barrier property, such as polyvinylidene chloride
and ethylene-vinyl alcohol copolymers, as well as film layers of such
polymers as polyvinyl chloride, polyesters, polyamides and polyurethanes
may also be used.
As the entangled fiber layer, there may be mentioned nonwoven fabrics,
woven fabrics, knitted fabrics, paper sheets and net-like structures,
among others.
The thin metal layer is, for example, a vapor deposited metal layer or a
metal foil layer.
When the container is made of a multilayer packaging material consisting of
at least three layers, a particularly preferred constitution thereof
comprises, as shown in FIG. 2 and FIG. 3, said oxyalkylene
group-containing vinyl alcohol copolymer layer as the container inside
layer or the middle layer, a film layer of another polymer as the middle
or inside layer, and a nonwoven fabric as the outside layer.
The multilayer packaging material can be produced, for example by
lamination of films, coating of a layer with another layer, extrusion
coating of a layer with another layer, coextrusion of layers and/or vapor
deposition on a layer.
The container according to the invention generally has a bag-like shape. As
desired, however, it may also have a bottle-like, tray-like, box-like or
tube-like shape, for instance.
The container for filthy matter which has the above-mentioned constitution
in accordance with the invention is particularly useful as a bag for
collecting filthy matter extruded through the artificial anus.
Furthermore, it can be used as a container for receiving various kinds of
filthy matter as well as human or animal excrement.
The oxyalkylene group-containing vinyl alcohol copolymer film layer has the
above-mentioned odor barrier property, flexibility and disposability in
flush toilet at the same time.
Containers, for example bags, formed from a multilayer packaging material
consisting of said layer and another polymer film layer, an entangled
fiber layer and/or a thin metal layer can have disposability in flush
toilet since, even when the other layer or layers are lacking in
disposability in flush toilet, the oxyalkylene group-containing vinyl
alcohol copolymer film layer with which said other layer or layers are
laminated is swelled and deformed, so that the whole container can be
deformed and thus become disposable in flush toilet.
Particularly when the inside or middle layer of the container is the
oxyalkylene group-containing vinyl alcohol copolymer film layer, the
middle or inside layer is another polymer film layer and the outside layer
is a nonwoven fabric, the filthy matter collected and the odor thereof are
prevented from leaking and the container as a whole is flexible and will
not produce sound and therefore never allows others to become aware of the
fact of wearing thereof. Such container is disposable in flush toilet and
has favorable feel and touch because of the nonwoven fabric side coming
into contact with the skin. Said container thus shows optimal performance
characteristics as a bag for collecting filthy matter discharged from the
artificial anus and therefore persons with an artificial anus can wear it
without worrying about wearing it.
The following examples are further illustrative of the present invention.
EXAMPLE 1
Polyoxyethylene monoallyl ether with about 25 moles of oxyethylene added
per mole thereof and vinyl acetate were copolymerized in methanol in the
presence of azobisisobutyronitrile and the copolymer obtained was then
saponified in the conventional manner.
Thus was obtained a polyoxyethylene group-containing vinyl alcohol
copolymer having a degree of saponification of the vinyl acetate component
of 99 mole percent and a polyoxyethylene content of 30 percent by weight.
A 4% aqueous solution of the polymer had a viscosity of 10 cps as measured
at 20.degree. C.
A 25% (by weight) aqueous solution of this polymer was prepared, cast onto
a stainless steel endless belt and passed through a drier to give a
25-.mu.m-thick film.
This film was soluble in water at a temperature of 12.degree. C. and had a
10% Young's modulus value of 0.4.times.10.sup.3 kg/cm.sup.2.
This film was then heat-treated in a hot air drier at a temperature of
170.degree. C. for 1.5 minutes.
The heat-treated film thus obtained was soluble only at temperatures not
lower than 59.degree. C. and had a 10% Young's modulus value of
1.2.times.10.sup.3 kg/cm.sup.2. Thus it had water resistance and
flexibility.
Bags of the type shown in FIG. 1 were made of this heat-treated
single-layer film and evaluated for their performance characteristics.
EXAMPLE 2
The heat-treated film obtained in Example 1 was laminated on one side
thereof with a 25-.mu.m-thick low density polyethylene film by means of an
adhesive. Bags of the type shown in FIG. 1 were made of the thus-obtained
laminate with the polyethylene film layer as the outside layer.
EXAMPLE 3
The heat-treated film obtained in Example 1 was provided on one side
thereof with a 10-.mu.m-thick polyvinylidene chloride coating layer and
further a nonwoven fabric having a weight of 20 g/m.sup.2 was laminated
with the composite (on the coating layer). Bags of the type shown in FIG.
1 were made of the thus-obtained three-layer composite with the nonwoven
fabric layer serving as the outside layer.
EXAMPLE 4
The heat-treated film obtained in Example 1 was laminated on one side
thereof with a 30-.mu.m-thick ethylene-vinyl acetate copolymer (ethylene
content 70 mole percent) film, followed by further lamination of a
nonwoven fabric having a weight of 20 g/m.sup.2. Bags of the type shown in
FIG. 1 were made of the resultant composite with the nonwoven fabric side
directed outward.
EXAMPLE 5
The heat-treated film obtained in Example 1 was laminated on one side
thereof with a 30-.mu.m-thick ethylene-vinyl acetate copolymer (ethylene
conent 70 mole percent) film, followed by further lamination of a nonwoven
fabric weighing 20 g/m.sup.2 on the other side of said heat-treated film.
Bags of the type shown in FIG. 1 were made of the resultant composite.
EXAMPLE 6
The heat-treated film obtained in Example 1 was laminated on one side
thereof with an aluminum-deposited polyester film with the vapor
deposition side faced with the heat-treated film, followed by further
lamination of a nonwoven fabric having a weight of 20 g/m.sup.2 thereon.
Bags of the type shown in FIG. 1 were made of the resultant composite with
the nonwoven fabric layer as the outside layer.
EXAMPLE 7
Polyoxypropylene monomethacrylamide (about 15 moles of oxypropylene added)
and vinyl acetate were copolymerized in methanol in the presence of
azobisisobutyronitrile and the copolymer obtained was then saponified in
the conventional manner.
Thus was obtained a polyoxypropylene group-containing vinyl alcohol
copolymer having a degree of saponification of the vinyl acetate component
of 99 mole percent and a polyoxypropylene group content of 30 percent by
weight.
A-25-.mu.m-thick film was produced from an aqueous solution of this polymer
by the casting method and then heat-treated in a hot air drier maintained
at a temperature of 170.degree. C. for 3 minutes.
The film after the heat treatment was soluble in water only at temperatures
not lower than 62.degree. C. and had a 10% Young's modulus value of
1.8.times.10.sup.3 kg/cm.sup.2, hence it had water resistance and
flexibility.
Bags of the type shown in FIG. 1 were made of this heat-treated film in the
same manner as in Example 3 and evaluated for their performance
characteristics.
EXAMPLE 8
Polyoxyethylenepolyoxypropylene monoacrylate (about 10 moles of
polyoxyethylene and about 10 moles of polyoxypropylene added) and vinyl
acetate were copolymerized in methanol in the presence of
azobisisobutyronitrile and the copolymer obtained was then saponified in
the conventional manner.
Thus was obtained a polyoxyethylenepolyoxypropylene group-containing vinyl
alcohol copolymer having a degree of saponification of the vinyl acetate
component of 99 mole percent, a polyoxyethylene content of 15 percent by
weight and a polyoxypropylene content of 15 percent by weight.
A 25-.mu.m-thick film was produced from an aqueous solution of this polymer
by the casting method and then heat-treated in a hot air drier maintained
at a temperature of 170.degree. C. for 3 minutes.
The film after the above heat treatment was soluble in water only at
temperatures not lower than 60.degree. C. and had a 10% Young's modulus
value of 1.3.times.10.sup.3 kg/cm.sup.2. Thus it had water resistance and
flexibility.
Bags of the type shown in FIG. 1 were made of this heat-treated film in the
same manner as in Example 1 and evaluated for their performance
characteristics.
COMPARATIVE EXAMPLE 1
A 25-.mu.m-thick film was produced from polyvinyl alcohol having a
saponification degree of 99 mole percent and a 4% aqueous solution
viscosity of 10 cps/20.degree. C. by the casting method.
This film was soluble in water at temperatures not lower than 65.degree. C.
and had a 10% Young's modulus value of 3.9.times.10.sup.3 kg/cm.sup.2.
This film was heat-treated in a hot air drier maintained at a temperature
of 170.degree. C. for 3 minutes.
The heat-treated film obtained was soluble in water at temperatures not
lower than 91.degree. C. and had a 10% Young's modulus value of
5.1.times.10.sup.3 kg/cm.sup.2.
Bags of the type shown in FIG. 1 were made of this heat-treated
single-layer film and evaluated for their performance characteristics.
COMPARATIVE EXAMPLE 2
The heat-treated film obtained in Comparative Example 1 was laminated on
one side thereof with a 25-.mu.m-thick low-density polyethylene film by
means of an adhesive. Bags of the type shown in FIG. 1 were made of this
laminate with the polyethylene film layer as the outside layer.
COMPARATIVE EXAMPLE 3
The heat-treated film obtained in Comparative Example 1 was provided on one
side thereof with a 10-.mu.m-thick polyvinylidene chloride coating layer,
followed by further lamination of a nonwoven fabric having a weight of 20
g/cm.sup.2 on the coating layer by means of an adhesive. Bags of the type
shown in FIG. 1 were made of the resultant laminate with the nonwoven
fabric layer as the outside layer.
COMPARATIVE EXAMPLE 4
The film not yet heat-treated as obtained in Comparative Example 1 was
laminated on one side thereof with a 30-.mu.m-thick etylene-vinyl acetate
(ethylene content 70 mole percent) film and, on the other side, with a
nonwoven fabric having a weight of 20 g/cm.sup.2. Bags of the type shown
in FIG. 1 were made of the resultant laminate with the nonwoven fabric
layer as the outside layer.
COMPARATIVE EXAMPLE 5
Commercially available ostomy bags of a kind which has an ethylene-vinyl
acetate copolymer (inside layer)/polyvinylidene chloride/ethylene-vinyl
acetate copolymer (outside layer) three-layer structure were evaluated for
performance characteristics.
COMPARATIVE EXAMPLE 6
The film not yet heat-treated as obtained in Comparative Example 1 was
provided on one side thereof with a 15-.mu.m-thick film layer of a
3-hydroxybutyrate copolymer containing 17 mole percent of hydroxybutyl
valerate by applying a methylene chloride solution (containing o,
p-toluenesulfonamide as a plasticizer in an amount of 20% by weight based
on said copolymer). Bags of the type shown in FIG. 1 were made of the
resultant laminate with the coating layer as the inside layer.
The evaluation results obtained with the bags of Examples 1 to 8 and
Comparative Examples 1 to 6 are shown below in Table 1. The evaluation
items and the evaluation criteria are as follows:
Evaluation items and criteria
(1) Water resistance
.circle. : Good
X : Poor
(2) Odor barrier property (a: ammonia; b: trimethylamine; c:
ethylmercaptan)
.circle. : No odor is perceivable.
.DELTA. : Odor is perceivable slightly but there is no problem from the
practical viewpoint.
X : Odor is too strong for the bags to be practicable.
(3) Non-sound-producing property or flexibility
.circle. : Very soft and flexible and good in non-sound-producing
property.
.DELTA. : Non-sound-producing but somewhat unsatisfactory in flexibility,
or flexible but somewhat unsatisfactory in non-sound-producing property.
X : Poor in flexibility and in non-sound-producing property.
(4) Disposability in flush toilet
.circle. : No practical problem.
.DELTA. : May cause some problem.
X : Undisposable.
(5) Feel and touch
.circleincircle. : Very good
.circle. : Good
.DELTA. : Fair
X : Bad
TABLE 1
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2
1 a b c 3 4 5
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Example 1 .circle.
.DELTA.
.circle.
.DELTA.
.circle.
.circle.
.circle.
Example 2 .circle.
.DELTA.
.circle.
.circle.
.circle.
.circle.
.DELTA.
Example 3 .circle.
.DELTA.
.circle.
.circle.
.circle.
.circle.
.circleincircle.
Example 4 .circle.
.DELTA.
.circle.
.circle.
.circle.
.circle.
.circleincircle.
Example 5 .circle.
.DELTA.
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.DELTA.
.circle.
.circle.
.circleincircle.
Example 6 .circle.
.DELTA.
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.circle.
.circle.
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Example 7 .circle.
.DELTA.
.circle.
.DELTA.
.circle.
.circle.
.circle.
Example 8 .circle.
.DELTA.
.circle.
.circle.
.circle.
.circle.
.circle.
Comparative
.circle.
.DELTA.
.DELTA.
.DELTA.
x x .DELTA.
Example 1
Comparative
.circle.
.DELTA.
.circle.
.DELTA.
x x x
Example 2
Comparative
.circle.
.DELTA.
.circle.
.DELTA.
x x .DELTA.
Example 3
Comparative
x x .circle.
x .DELTA.
.DELTA.
.DELTA.
Example 4
Comparative
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.DELTA.
.circle.
.DELTA.
x x .DELTA.
Example 5
Comparative
.circle.
.DELTA.
.circle.
x .DELTA.
.DELTA.x
Example 6
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