DE1930824U - COMPOSITE RESERVOIR MADE OF PLASTIC. - Google Patents

Description

Description . . _ ■ - .: ■■■

The present innovation "relates to a composite container made of plastic" ΐ ^ Ώ-d although a two-layer composite container with a Inner layer made of high density polyethylene and an outer layer made of low density polyethylene. .- ". -

Two-layer hollow bodies with an outer layer made of polyethylene and an inner layer made of polyamide are known. Compared to such composite hollow bodies, the present. Due to their new inner layer, the two layers have the advantage that, due to the same chemical structure of the materials on which they are based, they have a significantly higher bond strength and a largely similar coefficient of thermal expansion. The present composite containers therefore show excellent resistance to thermal shock loads, so that even a sharp temperature change cannot lead to the composite becoming detached. This is an important factor when using them e.g. as a reaction% * efJLß_e ^ an increased "" ~ ^r ~ "

Acid resistance is added compared to polyamides. - With the same layer thickness and the same volume, the composite containers have a lower weight than those with a polyamide layer _? - which is particularly important for transport containers of larger dimensions, - since polyamides have a density of approx. 1.03 to 1.05 g / ccm, whereas low-pressure polyethylenes usually have a density of approx. 0.95 g / ccm.

While polyamides as a result of their underlying, only on relatively cumbersome disposable starting materials are relatively expensive plastics, the comparatively low price of the low-pressure polyethylenes results, which is only about a third up to a quarter of this, as a further advantage.

Rhein-Chemie GmbH, Mannheim, September 28, 1965

Allied) it is made of plastic

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3 more are hollow bodies, such as containers that are open on one side consist in their entirety of high-density polyethylene or in their entirety of low-density polyethylene / - known. A low-density polyethylene that can be produced by the known high-pressure process is generally understood to be one that which has a specific gravity of 0.93 g / onr or less, while the specific gravity of a high-density polyethylene, which can be produced by the known low-pressure process is, theoretically can reach about 1 g / cm * With the higher the density, the higher the crystallinity of the products. So For example, a density of 0.93 corresponds to a crystalline proportion of approx. 60 ^.

These two types of polyethylene differ in their mechanical-technological Properties, both in the solid and in the also considerable when processed in the plasticized state ^ 7 / as is due to the different crystalline content. - _ ■ "■ -

In general, the ductility of high density polyethylene (hereinafter referred to as "low pressure polyethylene"), e.g. in injection molding, extrusion or the like, comparatively difficult. This can also be used, for example, for lorming according to the known special process only Biederdruekpolyäthylene use whose average molecular weights are below about 80,000. As a result of the high crystallinity the hollow bodies produced from this have a greater brittleness and thus a lower break resistance and shock resistance than those made of low-density and therefore lower polyethylenes

Rhein-Chemie GmbH, Mannheim. -; September 28, 1965

Composite container made of plastic

Crystallinity (hereinafter referred to as "high pressure polyethylene") are produced. In addition, low-pressure polyethylene zeigt- a slightly higher volume shrinkage during cooling _s, which increases the density proportional. This has a disadvantageous effect during the sintering process in that the hollow bodies produced warp during cooling because it is practically impossible to cool them down evenly at all points. For example, bulges often occur on the shaped bodies during cooling. '-

In addition to the disadvantages outlined above, however, low-pressure polyethylene, on the other hand, has numerous compared to high-pressure polyethylene Advantages, such as a higher heat resistance and tensile strength, a higher hardness, abrasion resistance and solvent resistance 5 and lower gas permeability. - ... . -

The present innovation is based on the task. respective advantages of high pressure polyethylene and of low pressure polyethylene for the construction of a single container ^ s to combine optimally. This is achieved by the fact that, according to the innovation Container A composite container with an inner layer made of low-pressure polyethylene and an outer layer made of high-pressure polyethylene is. "'." ■ - ■

The layer boundary of the two materials, which in the inner Zones can largely merge into one another, you can in the cut Make it visible if at least one of the two materials is colored with dyes or pigments before shaping. In this way, it is also possible to produce two-tone composite containers, e.g. gray on the outside and white on the inside or similar. like. are. If necessary, one can use the outer layer Incorporate U.V. absorbent, reducing the contents of the

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Rhein-Chemie GmbH, Mannheim - September 28, 1965

Composite container made of plastic

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Container can be protected from UV radiation without the inside of the container absorbs the relevant U «V.

Substance needs to contain. ^;

The layer thickness of the outer layer is as a rule expediently at least 2 mm, that of the inner layer at least 1 mm, they However, if necessary, they can be varied within wide limits. The two layers can contain the usual additives, e.g. Contain fillers, stabilizers, lubricants, as well as dyes and pigments or the like »,

In a particular embodiment, the inner layer of the container consists of polyethylene with a density of about 0.94 g / μm up to about 0.96 g / cm "'and the melt index (determined according to ASTMD 1238-59T) from about 2 to 20 and the outer layer of greater thickness made of polyethylene with a density of about 0.915 g / ear to about 0.935 g / cm and the melt index from about 1 to about 10.

Due to the properties of their inner layer made of low-pressure polyethylene, the composite container according to the present furnace can advantageously be used as a standing container for chemicals, e.g. for galvanic baths, even in the heat, or as a container for e.g. oil and fat-containing substances or the like, which are used on their inside also mechanically, for example by means of brushes including ₉ as well as under. Using hot liquids, e.g. water, can be cleaned in a simple manner. In the case of containers made of high-pressure polyethylene, this is only possible if the surface is scratched and roughened or if the container warps when exposed to heat. -. .

Due to the properties of their outer layer, the containers have good break resistance and shock resistance, so that they can be used with advantage as a transport container, which are largely insensitive to robust treatment

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Rhein-Chemie GmbH, Mannheim, September 28, 1965

Composite container made of plastic

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are borrowed.

In the drawing are two embodiments of the subject of the innovation shown, namely shows

Fig.1a a rectangular composite container open on one side Fig 1b. a circular cylindrical, one-sided open composite

container .

Fig.1c shows an enlargement of a section through this container, which shows the layer structure that characterizes the innovation. ■ -. ..-_.-

Here A = the inner layer made of low-pressure poly-

ethylene.

B = the outer layer made of high pressure polyethylene ■ ■ ■ "-

However, the illustrated embodiments in no way limit the subject of the innovation, since other embodiments of containers with the layer structure characterizing the innovation are also possible. For example, two-sided open pipe sections of circular or rectangular cross-section may be mentioned, which have flange-like reinforcing edges at the top and bottom. Such pipe sections can be of any length, e.g. by screwing _? be put together. This leads to very large containers that are open on one side or closed on all sides if their ends are fitted with corresponding fittings with flange-like edges, such as ZoB. Plates, domes and the like, _{5 closed} on one or * - both sides. . ._ ·.

Claims (3)

Sc hut ζ demanding 1. He keeps Yerbund out. Plastic, characterized that on the inside of the container a layer of high density polyethylene (A) and on the outside of the A layer of low density polyethylene (B) is arranged in the container. ■. - 2. Composite container according to claim 1, characterized in that that the two layers A and B merge into one another. 3. The composite container according to claim 1 and 2, characterized by an inner layer made of polyethylene, which has a density of about 0.94 to 0.96 and a melt index of about. 2 to 20 and further characterized by an outer layer of greater thickness made of polyethylene which has a density of about 0.915 to about 0.935 and a melt index of about 1 to about 10. . ■ - ** // RHEIN-CHEMji GmbH Chemical factory lanj / heim