DE4412959A1 - Recycling aluminium@-PVC and other coated film prods. - Google Patents

Abstract

A process for recycling Al-PVC and other coated plastic film scrap (I) comprises granulating in a pulveriser, mixing with waste plastic additives (II) or waste chemical additive(s) (III) together with waste fibre and latex and stone dust, and using the mixt. as a starting material for the prodn. of thermoplastics. Also claimed are plastic prods. in the form of pressed sheet, esp. flooring for panel heating (floating recycled flooring), extruded pallets, building profiles, tubes, bars, strips etc., in which the filler consists of (I) and non-combustible binders. Also claimed is a process for the prodn. of such prods. (see below). Also claimed are filling compsns. contg. coated film granules (I) and plastic binders (resins, acrylic varnish etc.) for making moulds for the prodn. of polyurethane foam mouldings, and adhesives and casting cpds. contg. granulated (I).

Description

The invention relates to the use of waste materials for the production of fillers for plastic bodies. The he invention also relates to the plastic body, which contain such fillers and on processes for the manufacture provision of such plastics.

It is known today that certain fillers are not only cheap and are inexpensive, but also offer purchase premiums, because burning them is far more expensive. Certain plastic bodies can today with a minimal cost of materials are manufactured to save expensive raw materials. But because of special attention must be paid to the use of fillers, that z. B. elasticity, impact strength, weathering durability etc. corresponding plastic bodies without filler adjust shares to a large extent and therefore guarantee their admissibility Afford. The recyclate advantage is particularly in the savings of crude oil and other expensive raw materials.

Such inexpensive plastic bodies include above all plates produced in the pressing process, for. B. floating screed, Floor panels for surface heating, formwork bodies, partitions, plate-shaped components for furniture construction, which have the status "unburned bar ".

For plastic bodies that are manufactured using the extrusion process and contain the fillers, it is e.g. B. round tubes, especially unpressurized protective tubes, rectangular tubes as fan tubes, different types of building profiles, such as. B. edge protection profiles, hand running profiles, such as strips, such as flush-mounted strips, profile strips, Connection profile strips, profile strips for receiving cable harnesses, Curtain strips, skirting boards, also stair stringers and the like more.  

The plastic bodies described in more detail above it is only one, for example, depending on its type of manufacture Selection, however, the scope of the invention in no way be limits. The invention primarily includes such bodies made of art not for which the use of fillers is prohibited is. In other words, the invention relates without limitation those plastic bodies in which the use of fillers is permitted or required.

The object of the invention is to produce with calenders and Pressing machines or extrusion systems, the utilization of which is insufficient and is either itself against filler production residues have to dispose of high costs or waste production residues of others Get companies shipped practically free of charge. In any case an energy-consuming waste disposal is avoided and economic utilization of the existing machines guaranteed.

The use of fillers is not only intended to cost raw materials saved, but also the possibility to be given certain physi Kalische properties of the recycled plastic body improve too can.

The above object is achieved in that the invention it is proposed coated waste films, their disposal causes high costs, with a high proportion by weight for the production of fillers for plastic bodies to use.

The invention further includes plastic bodies that fill such contain substances and processes for producing such plastic body. In this respect, the subclaims and the following Description referred.

It was surprising for the recycling specialist that the coating According to the invention, waste films can be easily reprocessed in order to particularly inexpensive filler for various products available from plastic. For the production specialist, in whose Operation z. B. Alu-PVC waste films as empty blister and punch residues incurred in larger quantities, it is currently particularly costly important that this production waste is an inexpensive Recycling can be supplied.  

After all, it is extremely advantageous for the plastics specialist liable to raw material for particularly inexpensive conditions To obtain a filler obtained by the certain Plastic products manufactured and much cheaper can be brought to the market and because of the coating inclusions and binders have great beneficial properties targets, which in certain product areas are only 1/3 of the Claim manufacturing costs. This does not only include the special one Surface structure, which be the products of the invention give special appearance, but also missing or significantly reduced electrostatic chargeability, increased Thermal conductivity, increased protection against high-energy rays and improved heating and liquefaction properties.

It is well known that many large-area plastics, such as foils and floor coverings, due to electrostatic charges caused by friction Avoid largely.

The increased due to aluminum inclusions in the plastics Thermal conductivity is particularly important for the construction of floor slabs Surface heating systems are particularly advantageous because they heat better transfer.

Another advantage is that the aluminum particles heat for the production of plastic products particularly quickly and evenly is distributed, and that just on the contact surfaces of the aluminum Particle temperature peaks occur, which ensure that they form an intimate bond with the melted plastic.

More conventional compared to corresponding plastic products Kind without such aluminum inclusions shows that with these too their liquefaction requires a higher energy consumption than in plastic products according to the invention with aluminum conclude.

The invention is based on exemplary embodiments in more detail NEN described.

Plastic bodies according to the invention are characterized in that the filler consists of shredded, coated waste films.  

For the production of pressed panels, especially floor panels for surface heating or floating screed, the percentage of shredded aluminum PVC waste films or other coated waste films be up to about 90% by weight as a filler. The plates can e.g. B. have a thickness of about 20 to 35 mm. More advantageous be the aluminum PVC filler or other coated Ab Fallfolien the plastic waste listed with at least at least 8 to 10% by weight, mixed as a binder.

It was amazing for the experts, with such a high percentage of up to 90% by weight of aluminum PVC filler or other coated Film waste and only 8 to 10% by weight of a thermal binder plastes for floor heating as a replacement for the conventional one to get floating screed, taking the slabs at low Manufacturing costs have a high thermal conductivity. The zer smaller coated waste films are advantageous placed on a 6 to 8 mm sieve. The sieve pass with about 3 to 4 mm particles are mixed with the polyurethane and other waste Plastics mixed intensively and then with a calender closing press pressed to plates, the pressing process with or can take place without elevated temperature. The sieve passage of appropriately larger-meshed screens can also be up to 10 mm carry.

A largely homogeneous mixing of the shredded coated Waste films with the binders (with the waste PVC paste a is of importance) is for void-free quality of the pressed Plate essential.

The press plates are ideal for recycled screed or using other plate inserts.

The above plate making can do even more be modified that additionally inorganic fillers, such as Rock powder etc. with chemical additives can be added.

Crushed aluminum PVC and other coated waste films can according to the invention also wood chips or wood or fiber flour position chipboard. The on a press bed layered chips with the admixed crushed coated Waste films are hot pressed between press plates. Because of the The high thermal conductivity of the aluminum foil particles is the major factor PVC granulate melted between the wood chips etc. and ver  binds intensively with the wood shavings etc. to a firm chip plate mass, due to the refractory admixed chemical Shares an addition of formaldehyde is unnecessary. Here too, the aluminum Foil sections between the wood shavings, etc. that with right relatively little heat required to melt the PVC safely becomes. If the PVC of the waste films is not sufficient, a will Original PVC granulate added as an additional binder.

For the production of extruded building profiles, such as pipes, rods, Moldings (skirting boards, connection profiles, flush-mounting strips, hand Running profiles, butt edges, edge protection profiles, curtain strips, plinth can afford) the proportion of coated waste fillers up to 60% by weight can be selected.

Pipes can e.g. B. with 100 mm diameter and rectangular profiles e.g. B. extruded with dimensions 50 × 20 min. Mixtures of Aluminum PVC waste films to PVC binder (PVC hard) in the ratio of 50: 50 parts by weight can be processed well. By change of lubricants and processing aids, the content of aluminum PVC filler can also be increased to about 60 parts by weight. Here may have to be increased by adding a component Impact resistance the drop in notched impact strength can be countered.

The use of extruded tubes is e.g. B. in agriculture possible as pressureless protective pipes for irrigation and the like. The rectangular tubes can be used to build fan systems.

As already mentioned, as binders come, in particular, except PVC PVC hard, polyurethane, polyester, polyethylene, polystyrene base etc. in question.

Any film production takes place in a known manner, filling substance, binder, stabilizer and plasticizer in one The premixer can be mixed hot and then cooled. By subsequent mixing preparation with kneading and rolling mill takes place in known way a compounding with final film formation in the roll calender.

The flow conditions prevailing in the nip and the kneading unit cause a considerable shear of the melt and therefore heat generation. The supply of heat can be used for a material such as PVC Binder with aluminum PVC filler is problematic. Around to the extent that difficulties can be avoided with the calender be reduced. A ge results from this aspect  speed of the downstream winder from approx. 0 to 60 m / min.

For the extrusion of aluminum PVC filler and PVC hard binder a processable dry blend can also be mixed in one Heating-cooling mixers are manufactured.

An S-PVC with a K value of approx. 65 is used as the basic mixture used. The stabilization consists of 3-basic lead sulfate (approx. 1.5-3 parts by weight); 2-basic lead stearate (1-2 Parts by weight); Calcium stearate (up to 1 part by weight) and Montan wax (up to 0.1% by weight).

The proportion of aluminum PVC can be up to 60 parts by weight, being as fine as possible due to the better dispersion verige aluminum PVC should be used. For better disper The filler is only added to the mixer at 80 ° C ben and then mixed until about 120 ° C.

The dry blend obtained in this way can be used on single-screw extruders be working.

At speeds of 10 to 30 rpm there is an output of about 1.5 to 2.0 m / min, being of a simple, rectangular Profile cross section is assumed.

Due to the good heat conduction of the material, the Ex trusion to ensure that the temperatures of the heating zones or the tool should not exceed 160 ° C. The so won Profiles show a pro enriched with aluminum particles cross section, which gives it a metal-like appearance.

Above it was assumed that it was Alu-PVC-Ab falling films that are processed into fillers. in the they are essentially pressed together Aluminum PVC waste films and occasionally also pure aluminum waste films and pure PVC waste films.  

Because of the relatively high sensitivity of PVC to Heat and light, it is necessary to the PVC mass before Verar stabilize processing. This also applies if the PVC-Alu-PVC Filler granulate is added. The PVC of the Alu-PVC-Ab Falling films in the pharmaceutical industry are usually Sn / S-stabili siert. Preferably also for the PVC binder ne Sn / S stabilization selected.

Ca / Zn stabilization is an alternative. The The basic mixture consists of 100 parts S-PVC, 0.3 parts Tin stabilizer, 0.5 parts internal lubricant (Ca base) and 0.2 to 1 part of external lubricant. It can be paraffin or low molecular weight polyethylene with molecular trade weights between 1000 and 3500.

Lead stabilization can be used as another type of stabilization are called, whereby by the in the aluminum PVC filler granulate existing sulfur residues of the Sn / S stabilization a ver Binding lead with sulfur leads to a dark brown discoloration occurs.

Ba / Cd stabilization can also be selected, whereby discoloration due to the formation of BaS or CdS enter.

In addition to aluminum PVC waste films fall in the pharmaceutical industry to a lesser extent also aluminum PVC / PVDC foils. also there are cover foils that are not only made of aluminum, but made of aluminum Glassine or aluminum chrome paper. There is also aluminum Composite films with a kraft paper.

Alu-PVC / PVDC waste films can in small proportions up to about 10% be present in an aluminum PVC filler without that the production of press plates according to the invention suffers. However, paper-containing waste foils are from the aluminum Keep PVC filler away. Aluminum PVC / PVDC waste is in the Connection with extrusion and injection molding processes at one  Aluminum PVC filler cannot be used. It is therefore advisable the aluminum PVC waste films from the other films possible to keep as separate as possible, which in any case only in small Amounts are incurred.

Claims (20)

1. A process for recycling aluminum PVC and other coated waste films, characterized in that the aluminum PVC waste films granulated in a comminution machine, the granules obtained with several waste plastic additives or with at least one chemical waste additive together with fiber, latex waste and Stone powder is mixed and the mixture is used as the starting material for the production of thermoplastics. 2. The method according to claim 1, characterized in that the aluminum PVC and other waste film granulate with other plastic pipes granules or with chemical production residues is mixed. 3. The method according to claim 3, characterized in that the waste film granulate with hard PVC raw granulate, epoxy resin, glass filled Acrylic resin, latex, fibers and stone powder as production residues is mixed. 4. The method according to claim 3, characterized in that the weight from fall foil share essentially does not exceed 80%. 5. The method according to claim 2, characterized in that the aluminum PVC Waste film granulate with polyester, polyethylene, polystyrene or Raw polyurethane granulate is mixed. 6. The method according to one or more of the preceding claims, characterized in that the grain sizes of the waste granules are essentially in the range of 1.5-3 mm. 7. Processes for recycling aluminum PVC waste films, in particular the pharmaceutical industry, characterized in that the waste films and other production residues in a shredder granulated and the waste mixture granulate in the plastic mold as filler recyclate for the production of incombustible screed or Pallet plates are used, that is, by aluminum Exoxide resin filled with waste and pure sodium water glass.   8. The method according to claim 7, characterized in that the Ab falling film granulate, with a plastic binding and strengthening medium (acrylic resin, polyurethane, acrylic lacquer, epoxy resin, glass filled / acrylic resin, waste latex impregnated with fibers PVC paste and stone powder) is mixed and then pressed, the Festig speed of the filler by the proportion and / or the size reduction degree of plastic waste film granulate (aluminum PVC etc.) is posed. 9. Process for recycling coated waste films, thereby characterized in that the waste films in a shredding machine granulated, the waste granulate obtained with chemical and plastic production residues (see claim 8) and that Mix to screed panels or also to pallet panels a calender and press system is hot pressed. 10. The method according to claim 9, characterized in that the Ab falling film granules mixed with binders (see claim 7) becomes. 11. Process for recycling coated waste films, esp especially from the pharmaceutical and food industries, ge indicates that the waste films in a shredder granulated, the waste film granulate obtained (aluminum PVC, etc.) together with at least one other plastic granulate as a bandage mixed medium and the granulate mixture as a starting material Manufacture of plastics with or without significantly reduced electrostatic charge is used. 12. Process for recycling coated waste films and others Plastic production residues, characterized in that the Waste film granulated in a shredder that he holding waste granules together with at least one other Plastic binder granulate mixed and the granulate mixture as a raw material for the production of plastics with lower Thermal insulation or high heat transfer is used. 13. Process for recycling coated waste films, thereby ge indicates that the waste films in a shredder granulated and the waste granulate mixture obtained as filling material is used for adhesives and casting compounds in the construction industry.   14. Plastic body according to claim 9, in particular in the shape of pressed panels, in particular floor panels for surfaces heaters (floating screed recyclate), in the form of extruded pallet plates, building profiles, pipes, rods, Last and the like, characterized in that the filling consists of waste films and non-flammable binders. 15. Plastic body according to one of the preceding claims, characterized characterized in that at least one additional organic (Latex fiber components, wood flour according to claim 8), inorganic (Rock, quartz or ceramic flour) or metallic filler (Al powder) is present. 16. Process for the production of plastic bodies according to one or several of the preceding claims, characterized in that the Plastic waste production residues crushed, the zer smaller product mixed with at least one binder and the mixture is pressed into plates in a hot or cold press becomes. 17. Process for the production of plastic bodies according to one or several of the preceding claims, characterized in that the coated waste films shredded, the shredded Product with at least one binder, plasticizer (PVC paste) and chemical processing aids mixed and from the Mix a rolled skin is produced, and the rolled skin zer is reduced and then pressed into plates. 18. Process for the production of plastic bodies according to one or several of the preceding claims, characterized in that the coated waste films shredded and the shredded Well homogenized (with or without binder) in the melting phase, is degassed and then granulated, and the waste granules mixed with a binder and the mixture as a raw material for Extruding the plastics is used. 19. Filling compound for mold making for polyurethane foam molds after one characterized in one or more of the preceding claims, that the filling compound coated waste film granulate and art material binders (resins, acrylic paint or the like).   20. Adhesives and casting compounds in the construction industry after one or more of the preceding claims, characterized in that that the adhesives or potting compounds coated waste film granules included.