DE2162912A1 - Corrugated board - from extruded plastic sheeting contg an inorganic bulking material - Google Patents

Abstract

The plastic sheet surfaces on either side of the corrugated core each consist of a laminate where the outer level is thicker than the inner layer, and also the 20-70 wt.% of inorganic material is at a greater volume than the inner layer of each of the two levels on each side of the board. The corrugated core, of extruded sheeting, also contains inorganic bulking materials. The purpose is to give a durable and resistant board which can be shaped into packing material.

Description

Corrugated sheet material The invention relates to corrugated sheet material, which comprises a plastic laminate as a coating.

So far, corrugated cardboard made of paper was known, waterproof coated Corrugated cardboard, and corrugated plastic sheets, the latter of which there are corrugated sheets, which consist of a plastic core and a paper cover, and corrugated sheets, which consist of a plastic core and a plastic cover. The tenacity however, such known corrugated plastic sheet is low, although excellent in terms of water resistance, impact resistance, etc.

like to be. The toughness of corrugated plastic sheets is well known (corrugated board) by incorporating an inorganic filler into the used To improve plastic material, and a corrugated sheet has been proposed which consists of such a plastic sheet containing an inorganic filler.

However, if a plastic sheet that has a high inorganic Has filler content, is used as a coating for the corrugated sheet, so the Impact resistance and the tear resistance of the plate are greatly reduced. The deficiencies of this type of corrugated sheet are e.g.

such that a container made from the corrugated sheet is easily damaged by a blow or impact, or is easily torn and is scratched when handled by hangers, etc.

A corrugated sheet made from a plastic sheet that is not inorganic Contains filler, consists, apart from its low toughness, has the disadvantage that deforming, bending or the like. The plate for the purpose of producing a Container or during the subsequent use of the container, due to the high elastic resilience is not easy to achieve, and the corrugated sheet can also be easily deformed.

The object of the invention is therefore to provide an improved corrugated sheet without producing the defects mentioned above.

which means that the invention aims to create a corrugated sheet, where as a coating of the corrugated plastic sheet or layered two laminated / plastic sheet layers, each of which contains a different amount of inorganic filler, be used. By using the two laminated plastic plate layers according to the invention As stated above, a corrugated plastic sheet is obtained which in comparison to a corrugated plastic sheet, in which a plastic sheet that does not have any physical Contains filler, used as a coating, has excellent toughness and is ideally suited for the manufacture of containers. In addition, the invention has Corrugated sheet the advantage that they without generating too high a temperature Can be burned if you want to throw away the used plate, so that Damage to the incinerator due to excessive heating can be avoided can.

Furthermore, the impact resistance and the tear strength of the Corrugated plastic sheet by using the two laminated layers described above of plastic sheets are improved compared to conventional plastic corrugated sheets, in which a plastic sheet containing an inorganic filler is used will.

So it has been according to various investigations carried out on the manufacture improved corrugated plastic batts, shown that the above according to The stated purpose of the invention can be realized if as a covering for the corrugated plastic sheet A plastic laminate is used, which is a plastic sheet that is 20 - 70 Contains percent by weight inorganic filler and a plastic sheet that is less than Contains 20% by weight of inorganic filler, and / or a plastic sheet that does not contain such comprises / contains inorganic filler /.- Furthermore, good results are obtained obtained when made from the corrugated plastic sheet according to the invention container will.

The plastic that is responsible for the plastic sheet, which is a high proportion of inorganic filler, and for the plastic sheet, which has a low Contains proportion of inorganic filler or no inorganic filler, such as they are used according to the invention, is used, polypropylene, a copolymer of propylene-ethylene, high or low density polyethylene Copolymer of ethylene-vinyl acetate, impact-resistant modified Polystyrene and plasticized or unplasticized polyvinyl / / chloride. The mentioned Plastics can be used individually or as a mixture of two or more plastics be used. If necessary, the plastic can be in the form of one of these Plastic-made foamed sheet can be used.

All commercially available copolymers can be used as propylene-ethylene copolymers such as a high propylene copolymer or a low propylene copolymer Propylene content can be used according to the invention.

As ethylene-vinyl-acetate copolymer, copolymer with more than 80 moles of ethylene are used. As impact-resistant modified polystyrene can Styron 475D (trade name, product of Asahi Dow Co.), Diarex HT 500, Diarex HT 190, Diarex RT 88A (trade names, products of Mitsubishi Monsanto Co.), Flow Bright 500S (trade name, product of Sumitomo Chemical Industries Co.), Estyrene H-65 and Estyrene S-61 (Yawata Chemical Co.), T'pporex 830 (Mitsui Toatau Chemical Co.) and Esblite 400 (trade name, product of Nippon Polyester Co.). Examples of preferably used mixtures of two or more plastic materials according to the invention are a mixture of polypropylene and 3-20 wt.% polyethylene, a mixture of Polypropylene and 3-20 wt.

% impact-resistant modified polystyrene, a mixture of polypropylene and 3-10% by weight of an ethylene-vinyl acetate copolymer, a mixture of polyethylene high density and 3-20 wt.% impact-resistant modified polystyrene, a mixture of High density polyethylene and 3-20% by weight low density polyethylene - a mixture of high-density polyethylene and 3-10% by weight of an ethylene-vinyl acetate copolymer, one Mixture of the impact-resistant modified polystyrene and 3-10 Weight percent low density polyethylene, and a blend of thermoplastic polyvinyl chloride and 3-10 wt% low density polyethylene.

An example of ~ according to the invention preferably used foamed plastic material is a foamed polymer, which by foaming of low-density polyethylene «~ ~ using azo-di-carbonamide or p-Uoluenesulfonylhydrazone or 4-4-oxy-bis-benzenesulfonyl as a friction agent hydrazine and the like, of high density polyethylene using the same blowing agent and from polypropylene using azobisformamide or diazoaminobenzene or N-N-dinitrosopentamethylene tetramine etc., is obtained.

The plastic laminate, which according to the invention is used as a coating used for the corrugated sheet can be made by laminating the same type of plastic compound as mentioned above or made from various types of plastic compounds. The plastic laminate can z.3. by laminating the combination of the two or three plastic sheets, such as the plastic sheets that contain inorganic filler, or the plastic sheets containing no filler as in the following Table I shown 'can be produced.

Table 1 Layer with high layer with never layer without filler content The third filler-bulking component contains polypropylene copolymer of ethylene-propylene Ethylene-propylene-ethylene-vinyl copolymer acetate copolymer non-soft ethylene-vinyl made Polyvinyl tat copolymer chloride impact resistant modi-polyethylene Notified polydriger density styrene ethylene propylene ethylene vinylace polyethylene Copolymer Tat Copolymer Low Density Impact Resistant Mod- Ethylene-Vinylace- Polypropylene fied Poly- tat Copolymeres styrene The ... according to the invention Material used as the core can be freely selected from commonly used panels such as polypropylene sheets, high-density polyethylene sheets, sheets made of Impact-resistant modified polystyrene, panels made from non-plasticized polyvinyl chloride and the same; the above-mentioned panels after the addition of an inorganic filler and the low-foamed panels made from the above-mentioned polymers. With regard to on the suitability for the manufacture of containers, which is one of the objects of the invention is, it is desirable to use the above-mentioned plastic sheet with a proportion of Use 2o-70% by weight of inorganic filler.

Furthermore, as core material for the corrugated plastic sheet according to according to the invention also laminated plastic sheets or laminated papers or further a paper coated with a polymer can be used.

Furthermore, each of the plastic sheets that have a high proportion of inorganic filler and each of the plastic sheets that have a small Containing proportion of inorganic filler, made of a plurality of plastic sheets each of which has a different inorganic filler content.

Examples of inorganic fillers used according to the invention are talc, calcium carbonate, asbestos, clay, titanium oxide, gypsum, magnesium oxide, Diatomaceous earth, barium sulfate, zeolite, vermiculite, aluminum silicate, etc., and them can be used singly or as a suitable mixture of each other.

If the filler content in the plastic sheet that has a high Part thereof contains at least (less) 20 wt.

% is, it will have a sufficiently good effect to improve the Toughness of the corrugated plastic sheet and to improve its suitability for manufacture achieved by containers, while if the filler content is more than 70% by weight, it becomes impossible to make the plastic sheet itself from such a mass. This means when the proportion of inorganic filler in the plastic compound is too high cracks or cracks form in the mass during the manufacture of the panel, which makes the manufacture of panels impossible.

Furthermore, in the case of lamination of the plastic plate, one high percentage of inorganic filler and the plastic sheet having a low Share of it, the order can be selected at will, but it is better to use the plastic plate, which contains the high proportion of inorganic filler to be arranged on the outside, since in this case the toughness of the corrugated plastic sheet can be improved more effectively can and also the acceptability for printing inks and adhesives can be improved can.

After the practice of the invention the following examples were made the laminated panels, which are used as coverings, by means of a known one Method produced, such as by means of the coextrusion method, the extrusion melt lamination method or the lamination method using an adhesive.

The invention is illustrated below by Example 5, which is shown in the table below as a typical example of the invention, although the manufacturing method of the corrugated sheet according to the invention is not based on this Example is limited.

As shown in Figure 1 of the accompanying drawings, molten material was melted Propylene (melt index 2 and specific gravity 0.90, manufactured by Mitsubishi Petrochemical Co. Ltd.) through a nozzle 2 of an extrusion machine 1 of a 0.05 mm thick plate (B) extruded. The plate (B) thus obtained was covered with a plate (A) (0.12 mm thick) made of polypropylene (melt index 2 and specific Weight 1.1), which contained 35 parts by weight of talc with a grain size of 3-20, by means of a pressure roller 3 and 4 laminated, whereby a laminated plate (a) is obtained which was then wound onto a winder (not shown).

became.

On the other hand, polypropylene was 35: parts by weight talc from a grain size of 3-20 through a nozzle of an extrusion machine (not shown) and a 0.15 mm thick plate (b) was obtained. Then became how Shown in Fig. 2 of the accompanying drawings, the plate (b) one of winder (not shown) unwound and between the embossing rollers (7, 8) with the help of Guide Pi - rolls 5 and 6. The plate (b) was coated with an adhesive (p), which consisted mainly of an ethylene copolymer and wax, by means of a coating roller 9, and was then pressurized by means of a pressure roller 10 on the above (a) mentioned laminated plate-laminated, which by a Winders (not shown) unwound and introduced by means of a guide roller 11 became, whereby a plain corrugated plate (c) was obtained.

The single-sided corrugated plate manufactured as described above (c) was also done with the same adhesive as described above using a coating roller 9 'is coated on the side with no coating plate, and then under pressure by means of a pressure roller 12 and 12 'on the one produced as described above laminated plate (a) laminated, whereby a plastic corrugated plate (e), which in 3 and 3 'is obtained.

Furthermore, the laminated plate in the previous example was through produced an extrusion melt lamination method, but can also'by a Coextrusion method using a die shown in Fig. 4 or Fig. 5 of the accompanying drawings Drawings are shown.

In Table III the results of the container manufacture are shown below Use of different coatings shown.

In Table II are the results of the container fabrication using represented by polypropylene as a coating material.

The results of Example 1, 2 and 3 show that the suitability for Container manufacture is not good if a layer is used as a coating on the corrugated sheet serves. The results * of Examples Nos. 4 and 7 show that a good container is obtained when multilayer boards with a suitable filler content can be used as a coating.

Table II A) Example of coating talc-PP + thickness of the Ermendorf's Train beat no. material proportion of filling layer without tear strength strength (% by weight) fabric or with never (kg / cm) (kg / cm) * 1 thickness of filler (mm) proportion of fabric (mm) 1 Polypropylene ---- 0.2 --- 30.5 / 35.2 210/200 2 Polypropylene + Talc 25 0.2 - 3.2 / 4.8 36/31 3 ditto 35 0.2 - 2.5 / 3.7 29/22 4 polypropylene + talc polypropylene 15 0.12 0.08 14.3 / 16.2 95/73 laminate 5 ditto 35 0.12 0.08 10.0 / 13.0 78/53 6 ditto 50 0.12 0.08 8.5 / 9.2 59/43 7 polypropylene + talc ethylene vinyl acetate copolymer laminate (* 2) 50 0.12 0.08 17.5 / 21.0 110/85 8 Paper (K-220) (* 3) - - - 5.5 / 6.9 58/36 9 Polypropylene + Talc Polypropylene Laminate 75 0.12 0.08 during manufacture of the plate, cracks and cracks formed in the layer of PP + filler, do that it became difficult to manufacture Table II b) Example Art of the apparent field no. Kernes flexible elasticity- container manufacturing suitability city coefficient (kg / cm²) (kg-cm) 1 polypropylene + 4.0 + 4.5x10³ 200 - 250 there was hardly any flexural talc 35% 0.15t edge due to its high elasticity Resilience, and once the plate was bent, it went straight away back to its shape 2 ditto 5.5x10³ 30 - 50 There was hardly any bending edge due to the relatively high elastic resilience 3 ditto 7.0x10³ 20 - 40 a bend formed a slight edge, but it occurred at approx. 10% of the produced plates to cracks and cracks 4 ditto 4.6x10³ 120-140 it formed There is hardly any bending edge due to the high elastic resilience 5 ditto 6.5x10³ 90-120 a bending edge 6 ditto 7.5x10³ 70-100 easily formed ditto 7 ditto 6.5x10³ 110-130 ditto 8 SCP 125 6.5-7.5x10³ 70-90 no difficulties (4 9 Table III Example of coating filler thickness mm Ermendorf ' Pull stroke no. material concentration high-low tensile strength filled filled strength (kg-cm) * 1 * 2 layer layer (kg / cm) 10 propylene copolymer 40 - 0.13 0.07 21.0 / 28.2 135/98 + talc / ethylene vinyl copolymer laminate 11 propylene-ethylene copolymer + Calcium carbonate / ethyl 50 - 0.13 0.07 24.2 / 28.0 130/115 len-vinyl acetate copolymer High Density Laminate 12 Polyethylene + Calcium Carbonate / Polyethylene Layered 50 - 0.13 0.07 23.8 / 27.5 128/109 low density fabric 13 high density polyethylene + Talc / polyethylene lower 40 10 0.13 0.07 18.2 / 22.1 112/88 density + calcium carbonate Laminate 14 polypropylene + talc ethylene-vinyl acetate copolymer / three-50 - 0.12 EVA 0.03 16.5 / 20.7 105/82 layer PE 0.05 made of polyethylene base len low density density 15 HI / PS + calcium carbonate / polyethylene-30 - 0.12 0.08 7.8 / 10.3 62/51 low density laminate Table III Example Coating filler thickness mm Ermendorf 'tensile impact no. material concentration high low tear strength filled filled strength (kg / cm) * 1 * 2 layer Layer (kg / cm) 16 semi-hard PVC + calcium carbonate / ethylene vinyl acetate 30 - 0.12 0.08 17.5 / 26.2 108/91 copolymer laminate 17 polypropylene + talc EVA + titanium oxide / ethy- Talc - 0.12d 0.03 lenvinylacetate / poly- 30 0.05 17.7 / 21.5 103/91 ethylene lower Titanium-PE never-tight laminate with a density of 10 or 18 polypropylene + talc / EVA 0.15 ethylene vinyl acetate three times copolymer / polyethylene 50 - 0.10 foam lower Density tes PE 14.3 / 19.2 72/51 low density laminate example Core material Apparent impact Container position No. Bending elastic strength coefficient efficiency (kg-cm) (kg / cm²) 10 high density polyethylene + 6.0x10³ 130-150 the bending edge It was easy to produce talc 35% 0.15t higher density 11 polyethylene + calcium carbonate 50% 0.17t high density 5.5x10³ 140 - 160 ditto 12 polyethylene + calcium carbonate 50% 0.17t 5.8x10³ 135-160 ditto 13 polyethylene + calcium carbonate 50% 0.17t 6.3x10³ 110-130 ditto 14 polyethylene + calcium carbonate 50% 0.17t 6.5x10³ 105-120 ditto 15 Polyethylene + calcium carbonate 50% 0.17t 7.2x10³ 70-90 ditto 16 polyethylene + calcium carbonate 50% 0.17t 6.3x10³ 100-130 ditto 17 high density polyethylene + calcium carbonate 50% 0.17t 6.4x10³ 110 - 125 ditto 18 high density polyethylene + 6.5x10³ 85 - 110 ditto Calcium carbonate 50% 0.17t (* 1): The concentration of the filler in the layer consisting of polypropylene and the inorganic filler.

(* 2): The ratio of ethylene and vinyl acetate of the ethylene-vinyl acetate copolymer was (* 3): Kraft paper coating t4): SCP: Semi Chemical Pulp In the examples, was Mitsubishi Noblen (brand name, manufactured by Mitsubishi Petrochemical Co.

Ltd.) is used as propylene.

In the table above are the Ermendorf's tear strength (ASTM D 1922-67) and tensile impact strength (ASTM D 1822-68) the properties the plates used as coatings and the flexural elasticity coefficient (tear resistance) and the dielectric strength (JIS P8134) the properties of the corrugated sheets that by using the plastic sheets as a coating.

Among the examples shown in the table above, example shows 1 the case where only a plate made of a plastic plate that is not inorganic consists of filler, Examples 2 and 3 show the case where only one plate is used, which contains a high proportion of inorganic filler, example 4 shows the case where a laminate made of a plastic sheet that has a low Contains proportion of inorganic filler, and a plastic sheet that does not contain contains inorganic filler is used, and Example 9 shows the case where a laminate made of a plastic sheet containing an inorganic filler contains in an amount above the range specified in the invention and made of a plastic sheet containing no inorganic filler is used will.

That is, all of these examples are comparative examples, which are of the embodiments of the invention In contrast, the examples show 5-7 illustrate the practical embodiments of the invention. Example 8 is also a common case where corrugated cardboard is used in which paper is used as a covering material is shown.

In addition, when using the corrugated sheets according to the Invention as shown in the table above, containers were manufactured or they were used for packaging purposes, for the manufacture of the containers or time required to complete packaging decreased to about 20% of the time that in the case of using the comparative corrugated sheets that are only using the polypropylene sheet shown in Example 1 of the table above as a coating were made since the manufacture of containers by bending the plate in the Compared to the use of the reference sample was very easy.

As is clear from Table 1 above, the Corrugated sheets according to the invention have excellent toughness and are excellent for the production of containers, compared to the use of the comparison corrugated sheets, those using only a plastic sheet that does not contain any inorganic filler contains, were produced as a coating material, and furthermore have the corrugated sheets according to the invention an excellent impact and tensile strength compared to the comparison corrugated sheets, in which only one plastic sheet, the inorganic Contains filler was used. In addition, in the case of using the Corrugated plastic sheets according to the invention, the manufacture of containers and the Packing with the help of corrugated sheets can be carried out very easily.

Claims (9)

Claims 1. Corrugated sheet, which comprises a plastic film as a cover, characterized in that the laminate consists of a plastic layer with a Content of 20-70% by weight of an inorganic filler and at least one plastic layer With a content of less than 20% by weight of said inorganic filler it and / or a plastic layer that does not contain any inorganic filler, consists. 2. Corrugated sheet according to claim 1, characterized in that said Plastic for. the plastic layers polypropylene, a propylene-ethylene copolymer, High density polyethylene, low density polyethylene, an ethylene-vinyl acetate copolymer, high impact polystyrene, plasticized polyvinyl chloride, non-plasticized polyvinyl chloride or a mixture thereof. 3. Corrugated sheet according to claim 1, characterized in that said Filler talc, calcium carbonate, asbestos, clay, titanium oxide, gypsum (calcium sulfate), magnesium oxide, Is diatomaceous earth, barium sulfate, zeolite, vermiculite or aluminum silicate. 4. Corrugated sheet according to claim 1, characterized. shows that the outside of the plastic laminate comes from the Plastic plate is formed, which contains the greater part of the inorganic filler than the inner plastic plate contains. 5. Corrugated sheet according to claim 1, characterized in that said Plastic polypropylene, and and said inorganic filler Talk is. 6. Corrugated sheet according to claim 1, characterized in that said Plastic for the plastic layer, which has a high proportion of inorganic filler contains, and the plastic for the plastic layer, which has a low proportion of inorganic filler, is an ethylene-vinyl acetate copolymer. 7. Corrugated sheet according to claim 1, wherein said plastic for the plastic layers is a foamed plastic. 8. corrugated sheet according to claim 7, characterized in that the called foamed plastic a polypropylene foam or a polyethylene foam is. 9. Corrugated sheet according to claim 1, characterized in that the core the plate is a plastic plate containing 20-70% by weight of inorganic F1: i'llstoff contains. L e r s e i t e