JPS5970566A - Laminate - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a laminate, and more particularly to a laminate having excellent physical properties such as strength and water resistance, which is obtained by laminating two types of high-density polyethylene layers having significantly different melt indexes.

Conventionally, in fields that require moisture resistance, such as food packaging bags and copy paper packaging bags, high-density polyethylene and low-density R
A film made of sx polyethylene is used.

However, low-density polyethylene films do not have sufficient mechanical strength or moisture resistance, and have the drawback that these properties cannot be improved without increasing the thickness. For this reason,
Attempts have been made to reduce the thickness by using high-density polyethylene, which has excellent strength. However, ordinary high-density polyethylene for film having a high side impact strength and a low melt index has a large directionality during molding and does not have sufficient tear strength. Moreover, it has insufficient moisture resistance and gloss, and its uses are limited. On the other hand, high-density polyethylene with a high melt index ratio of Ilt has poor film formability and the resulting film has an impact strength of IltIgt1.

Since both tear strength and tear strength are low, it is not suitable for film production.

The object of the present invention is to eliminate the drawbacks of the prior art as described above, and to provide a film or sheet-like laminate that has good strength balance even when the thickness is reduced, and has excellent moisture resistance.

t, that is, the present invention has a melt index (Ml) of 2.1
To provide a laminate comprising a layer (A) made of high-density polyethylene of ~30 f/10 minutes and a layer (B) made of high-density polyethylene of 0.01 to 0.59710 minutes. It is. Here, the layer (A) is M
2.1 to 30 y/10 minutes, preferably 3 to J,
The layer is made of A-density polyethylene with O'i/10 minutes. Furthermore, the high density polyethylene constituting the layer (A) usually has a density of 0.945 to 0,975 f/7'l.
The melt flow ratio (M1?lR) is 10-60, preferably 15-50.

In addition, this MFR is the ratio of the load 21.6 V40M work and the load 2.16F4 M work, that is, M F R = M
Engineering. 1. It is defined as eKg/M engineering 2.16 to 9, and is an index of molecular weight distribution. Such high-density polyethylenes include not only ethylene homopolymers, but also copolymers of ethylene and Ike's α-olefins (ethylene-propylene copolymers with α-olefin unit content of 1, ethylene-butene copolymers, etc.). -1
Copolymers, etc. can be fully used.

Although it has excellent properties, its moldability is somewhat poor.
In addition, mechanical strength IW, particularly impact strength, is extremely low. Therefore, in the present invention, the layer (B) shown below and the layer (A) are used in a stacked manner to achieve the above-mentioned object.

/# (B) is M-work 0. The layer is made of high-density polyethylene with O2N2, 5f/10 minutes, and a phantom resistance of 0.02 to 0.2 710 minutes. Furthermore, the high density polyethylene constituting layer (B) usually has a density of 0.945 to 0.
．． 970f/i and MFR is 70 or more, preferably 80 to 200.

The high-density polyethylene constituting such a layer (B) may include ethylene homopolymers, copolymers of ethylene and α-olefin, such as ethylene-propylene copolymers, ethylene-butene-1 You can open Chaos Amalgamations, etc.

This layer (B) made of high-density polyethylene has excellent mechanical strength such as tensile strength and tear strength, and by using a laminated layer (A) and this layer (B) f: A laminate with excellent moisture resistance and strength balance 7 can be obtained. Furthermore, the high-density polyethylene constituting the layer (B) has excellent moldability and has sufficient strength even when the thickness is reduced.

In the present invention, as mentioned above, basically the above 412
Layer (A) and layer (B) are laminated to form a laminate, but if necessary, these layers can be further laminated to form a laminated film of three or more layers. (4).

A layer of low density polyethylene or the like may also be provided as the outer layer or intermediate layer of (B). Examples of the low-density polyethylene resin used for the outer layer or intermediate layer include ethylene homopolymers, copolymers of ethylene and α-olefins, and acrylic esters.

In addition, as mentioned above, when laminating layers (A) and (Bl) or further layers, it is preferable to select layers so that the difference in MFH between layers (A) and (J3) is 30 or more, particularly 50. It is also preferable for leeches to have the above conditions.

However, the high-density polyethylene constituting the layers (A) and (B) of the present invention may optionally contain flexible resins and rubbers, as well as pigments, dyes, stabilizers, and the like. A nourishing agent or the like may be added.

Various methods can be applied to produce a laminate of wood spirit IJIJ using the high-density polyethylene constituting the above layers (A) and (B). For example, a blow ratio of 1.5 to 5, Coextrusion inflation molding with 0,
Alternatively, it can be made into a film using a coextrusion T-die molding method.

A sheet-like laminate can be obtained.

There is no particular restriction on the ratio of the thicknesses of layer (A) and layer (J3) in this laminate, but usually 7 layers (A) and 7 layers (B) = e
/ Should be 1 to 4/6. Moreover, the present invention pfR
When the layered product is used as a packaging bag, either layer (A) or (B) may be placed on the inner layer or the outer layer, but in general, layer (A) with excellent moisture resistance is used as the outer layer. Ru.

As described above, since the laminate of the present invention is composed of two or more polyethylene layers having different physical properties, it has excellent moisture resistance and mechanical strength, such as GK impact strength and tear strength. etc. are good. □In particular, tear strength greater than the tear strength IK of either single layer film can be obtained. In addition, this laminated carcass has excellent moldability. In this way, since the material has sufficient mechanical strength, it is possible to reduce the thickness and save resources.

Therefore, the laminate of the present invention can be formed into a desired shape and effectively used for food packaging bags, copy paper packaging bags, and the like.

Next, the present invention will be explained in more detail with reference to Examples.

Examples Specified raw material resins shown in Table 1 are melt-kneaded using an extruder, introduced into an in-die adhesive type circular die, and then subjected to inflation molding at a blow ratio of 2 to form a two-layer or three-layer structure with a thickness of 40 μm. A laminated film was obtained. The measurement results of various physical properties of the obtained film are shown in Table 1 along with the moldability.

Comparative Example 1.2 The same measurements as in Examples 1 to 7 were carried out on partial layer films of predetermined resins shown in Table 1. The results are shown in Table 1.

1 Indicates the ratio of inner layer/outer layer or inner layer/middle layer/outer layer.

Compliant with 12 J Engineering S Z 1702 3 Film impact method (The film was fixed in a ring shape, and the film was punched with a pendulum with a 1-inch impact head, and the energy required was measured. *4 Compliant with A8TM D 523 #5
, TIS Z 0208 (40C, 90%RH)-s
Mxo, o5y/1o min, density o, o+s5y/
cm” *M F R1 (7 out of 10 M I O, 049710 minutes, density o, 960
1//cm” +M F I (130 ・8 M work 5,89/10 minutes, density 0.967 f/
/cm”.

M'F R25 $ 9 Mx5. of//lo minute, dense 1i 0.96
89 /cm” +M F R30 skewer 1 (IM work (1.3y / 10 minutes, density 0.920
97 cm”.

Middle 11 M work 2.49/10 minutes, density 0.923 f
/cm”.

(contains gwt) Here, M-work, density and MFR were based on J-work 5K6760.

Patent applicant: Idemitsu Petrochemical Co., Ltd.

Claims (2)

[Claims] (1) Melt index, 7.2.1~30ri71
A laminate comprising a layer (A) made of high-density polyethylene with a melt index of 0.0 min and a layer (B) made of high-density polyethylene with a melt index of 0.01 to 0.5 f//10 min. (2) The melt flow ratio is 10 to 601 in layer (A) (
B) The laminate according to claim 1, which has a particle size of 70 or more.