DE19540228C2 - Process for the production of foam-like composite materials - Google Patents

Description

The invention relates to a method of manufacture of foam-like composite materials from at least egg filler based on renewable raw materials or of minerals and at least one foam-forming Binder, wherein the filler at least one impregnator added medium and then the filler with the foam the binder mixed and which is in the foaming state mix to a foam-like composite is cured.  

Foam-like composite materials are used in a variety of ways sets, for example as packaging, filling, fixing, pole ster-, heat insulation or sound insulation materials, as Game, hobby and handicraft materials, as materials for making application in floristry, as sporting goods components or the like

Known foam-like composite materials are not recycled can be cleaned and are often environmentally harmful, not decomposing bare substances.  

A method is known from EP 0 587 078 A1 in which Starch polymers with a given water content, vinylal alcohol resins with a given water content, non-ionic surface-active substances, organic and inorganic Fillers and possibly the total water content determining amount of water are mixed together. An im impregnation of the fillers is not intended. This Wed Schung is melted together and then closed Foam expands. Foaming occurs after mixing process. Thereby foam formation and stabilization certain pressure and temperature conditions required.

In US 5 362 776 it is proposed as a filler fiber like cellulose with a plasticizer, water and a Blowing propellant into a mass that is a water solution Lich binder can be supplied. An impregnation the filler is also not provided here. The foam formation occurs in a conventional manner after mixing and Forming the material by heat and blowing agent. On the Blowing agent can also be dispensed with, but then it has finished material no foam structure.

According to WO 95/04 104 A2 for the manufacture of a we substantial biodegradable polymer foam thermopla tical or destructurized starch, biodegradable hy drophobic polymers and biodegradable fiber material with capillary active properties and water. This mixture is then under pressure and temperature, e.g. B. in an extruder, further processed, the company material is released to a capillary-bound water To cause foaming of the polymer. Throughout the whole The process must be very accurate ge pressure and temperature be regulated so that the foaming process is not already at Mixing occurs, but at the earliest follow in one the processing step, such as extrusion or injection to water. In addition, the pressure and the tem temperature-consuming machines necessary, such as extruders or Injection molding machines that require high investments.

In contrast, the present invention has the object reasons to improve a generic method so that foam-like composite materials easier and with one less technical effort can be produced.

According to the invention, this object is achieved in a method of type mentioned in that the impregnating tel in a withdrawal of the species' own stabilizing Liquids of the foam-forming binder during or after the subsequent mixture with the foam-forming bin the amount of inhibitory or hindering amount is added, and that the binder before or during the mixing process in has been or is being brought into a state of foaming, and that the curing takes place without pressure.  

It is therefore provided according to the invention that the composite material is produced from at least one filler based on renewable raw materials or from mineral substances and at least one foam-forming binder, the method having the following process steps:
Supplying at least one impregnating agent to the filler prior to mixing it with the foam-forming binder in an amount which inhibits or prevents the natural stabilizing liquids of the foam-forming binder from being removed during or after the subsequent mixture with the foam-forming binder,
Mixing the filler with the foam-forming binder, the impregnating agent containing filler and / or binder in a sufficient amount, and wherein the foam-forming binder was or is brought into a foaming state before the mixing process and / or during the mixing process, and
Hardening the mixture of impregnating agent, filler and foam-forming binder in the state of foaming to a foam-like composite material.

The method according to the invention basically enables Manufacture of novel foam-like composite materials, which without natural secondary pollutants Chen environment are biodegradable, no polluting Contain pollutants that are reusable if necessary sufficient mechanical strength and chemical resistance have the ability to, for example - depending on the intended Purpose - functional dimensional stability  guarantee or guarantee a required load capacity to be able to. The composite materials according to the invention can sufficiently creep and vibration resistant manufactured who the and a favorable for the respective application Have corrosion and swelling behavior.

A production of foam-like composite materials from the previously mentioned components failed because fillers based on renewable raw materials or minerals high absorption especially due to capillary action possess assets for liquids. Suitable foam-forming Binders (natural binders) have a polymer gelling or other hardening processes considerable amounts of liquid components (especially water and other solvents). When mixing a foam waxing the binding agent with fillers sending raw materials or minerals occurs the problem on that the filler liquid portions of the foam-forming Binder absorbs to a significant extent, with the result that the mixture before foaming its foamy consi stenz loses and forms a flat-like structure falls.

In contrast, by applying the Ver driving achieved in an advantageous manner that by the feed tion of an appropriate impregnating agent Filler before mixing it with the foam-forming binder is achieved that no uncon trolled and the foaming state of the mixture before Hardening process destructive reaction takes place. The foam fabric-like composite therefore remains during and after the mixing process is stable and can be done in this state be hardened so that the result is a new type of foam Substantial composite material is created, which essentially from renewable raw materials or minerals and ge suitable foam-forming binders (e.g. foamed Polymers, starches or the like) is produced. The filler  is preferably an impregnating agent Reaction liquid added, for example water or a suitable solvent or a fission product. Alternatively, will the impregnating agent in sufficient dosage added to the binder or the binder and the filler give. Thanks to the control of the fluid house holds the filler effective control of the poly merization and gelling process. If it is the renewable raw material, for example around straw and the binder is natural rubber is called Impregnant water, preferably deionized water. A fission product is called Impregnant added to the filler when at a fission product is eliminated from the polymerization process becomes. These are primarily such processes in which Excretion of water a polycondensation occurs, for example, polyamide, phenol formaldehyde resin or the like. Thus the behavior of the mixture during the Mixing process and after the mixing process (until completion the curing process) via the filler Impregnating agents are affected. The type and the amount of during or after the subsequent mix with the filler fed, a withdrawal of the species stabilizing liquids of the foam-forming binder inhibiting or hindering impregnating agent is particularly dependent on the type as well as the shape and the Geometry or morphology of the filler and of the Mi ratio and the distribution ratio of the filler with the foam-forming binder.

In a further embodiment of the invention, that the filler before, during or after mixing with the foam forming binder a supporting the curing process and accelerating impregnating agent is added. Here it can be a liquid impregnation material or trade an impregnating substance in a solidified state. Here through the mix can meet different needs for  subsequent processing by casting, spinning, Spraying, injecting, atomizing and. Like. Be adjusted.

A list of possible fillers based on renewable raw materials is given below - without claiming to be complete:
Straw fibers,
Corn straw
reed
Wood fibers
Rape straw
Rice straw
Straw pile
Begin
bamboo
Asplund fiber
Lignite fiber
lignin
Flax
cork
cellulose
jute
cellulose
sunflowers
soy
mustard
flax
hemp
cotton
coconut
Ra mie (from Chinese grass)
Sisal hemp
Manila hemp
Esparto grass
Kapok.

In a further embodiment of the invention it can also be provided that the filler is based on residual materials based on growing raw materials. This can be, for example:
Chips
sawdust
Wood wool
Cotton fiber remnants
Pulp residues
Cork remains or the like

It can also be provided that the filler is based on of recyclable waste products from renewable raw materials is constructed. This can be, for example, up closed waste paper or biomass.

Various substances are used as foam-forming binders settable. Biodegradable binders are mainly used used. If necessary, durable, not ver rotable binders are used. So it can foam forming binders, for example, a substance based of elastomers. This can be, for. B. nature rubber to make polyurethane rubber (as emulsions or sus pensions) or butadiene rubber.

In a further embodiment of the invention, that the foam-forming binder is a substance based of thermoplastics. This can be e.g. B. at: Polyethylene, polypropylene or polystyrene.

In a further embodiment of the invention, that the foam-forming binder is a substance based of thermosets. This can, for example, han asking for water-based paints, e.g. B. Painted oils and Epo xid, alkyl resins, polyesters, acrylic resins and polybutadienes.  

In a further embodiment of the invention, that the foam-forming binder is a substance based of polysaccharides. This is for example wise around cellulose acetate (fibers), around polyactides (fibers), Starch, e.g. B. from potatoes, corn, rice, cereals or Tapioca root to form gel-forming polysaccharides or e.g. B. gelatin, um das - use for biodegradable molded articles dete - Pullulan or around graft copolymer with acrylonitrile, wel ches forms a water-insoluble, water-absorbing film.

In a further embodiment of the invention it can be provided that the foam-forming binder is a substance based of carboxylic acids. This can be, for example Resins are, for example, alkyl resin (adhesive), wel ches from trihydric or polyhydric alcohols with fatty acids, such as linseed oil, coconut oil or soybean oil. It can but also for example to dry oils, such as. B. linseed oil and Tung oil, tall oil (wood oils) or around PHB (polyhydroxybutyric acid) act.

Finally, it can be provided according to the invention that the foam-forming binder a substance based on glue is, both fixed adhesive and Soft glue can be used. Are suitable as fixed adhesive those without crosslinking, such as a dispersion of polyvinyl acetate or starch solutions or solid glue with crosslinking, such as urea resins, phenolic resins, Mela mint resins, epoxy resins or unsaturated polyesters.

Contact adhesives such as, for example, are suitable as soft adhesives synthetic rubbers as solutions, polychlorobutadiene or Polybutadiene-co-acrylonitrile.

Possible pressure sensitive adhesives are: highly concentrated solutions low molecular weight polymers, polyisobutylene, polyvinyl ether or rubber degradation products.  

In a further embodiment of the invention can be used as a foam-forming Binder a substance based on bio-plastics be seen. This can be, for example, so-called poly act on hydroxyalkanoates (PHA).

The invention is detailed below Embodiment explained in more detail.

The following recipe is intended for the production of a foam-like composite material:
15 g of SE 103 soap, 25%
17 g vulcanization paste VU 421, 59%
200 g filler cork, sawdust or sisal powder
180 g latex Kagetex FA (full ammonia)
14 g of deionized water
2 g gelling agent AD 602, 60%.

workflow

• A) Provide the individual components in weighed Amounts:
• B) Impregnating the filler with an amount of water that is adapted to the moisture content of the filler. The Can be impregnated by steam or liquid humidification tion.
• C) Stirring the components, foam production:
• 1. Mix the latex with the impregnated filler for about five minutes.
• 2. Add soap and vulcanizing paste. The mixture will stirred five more minutes until a suitable one Has formed bubbles.  
• D) Mixing the suspension:
  Using the gelling agent premixed with water, the suspension is foamed with constant stirring until a uniform bubble structure has formed.
• E) Vulcanization:
  The latex mixture thus foamed is poured into a sample mold. After the coagulation has been triggered, the mixture is vulcanized in the oven and dried.

Claims (18)

1. A method for producing foam-like composite materials from at least one filler based on renewable raw materials or minerals and at least one foam-forming binder, the filler being added at least one impregnating agent and the filler then mixed with the foam-forming binder and the Mi in the foaming state Schung is hardened to a foam-like composite material, characterized in that the impregnating agent in a withdrawal of the species-specific stabilizing liquids of the foam-forming binder during or after the subsequent mixture with the foam-forming binder inhibiting or preventing amount is added, and that the binder before or was brought or brought into a foaming state during the mixing process, and that the curing takes place without pressure. 2. Process for the production of foam-like composite materials, according to claim 1, characterized in that the impregnating agent before the foam-forming binder or while mixing it with the filler in one withdrawal of the species' own stabilizing liquid th of the foam-forming binder during or after the subsequent mixture with the filler inhibiting or hindering amount is supplied. 3. Process for the production of foam-like composite materials, according to claim 1, characterized in that the impregnating agent partly the filler, partly the bin is supplied.   4. The method, in particular according to one of claims 1 to 3, characterized in that as an impregnating agent reaction liquid participating in the chemical reaction is fed.   5. The method according to claim 4, characterized in that water is added as a reactant. 6. The method according to claim 4, characterized in that the filler as the impregnating agent the solvent corresponding solvent by means of the foam-forming binder means are supplied. 7. The method according to claim 4, characterized in that the filler as an impregnating agent Spaltpro products are added. 8. The method according to any one of claims 1 to 7, characterized ge indicates that the filler before, during or after the Mi with the foam-forming binder Hardening process supporting and accelerating impr gnierstoff is added. 9. The method according to claim 8, characterized in that a liquid impregnating agent is added to the filler that either remains fluid or in another Physical state passes.   10. The method according to any one of claims 1 to 8, characterized ge indicates that the filler contains an impregnating agent solidified state is added. 11. The method according to any one of claims 1 to 10, characterized ge indicates that the filler is based on the residue is built from renewable raw materials. 12. The method according to any one of claims 1 to 11, characterized ge indicates that the filler is based on recycled materials Cleanable waste products from renewable raw materials is building. 13. The method according to any one of claims 1 to 12, characterized ge indicates that the foam-forming binder Material based on elastomers. 14. The method according to any one of claims 1 to 12, characterized ge indicates that the foam-forming binder Is a material based on thermosets. 15. The method according to any one of claims 1 to 12, characterized ge indicates that the foam-forming binder Is a substance based on polysaccharides. 16. The method according to any one of claims 1 to 12, characterized ge indicates that the foam-forming binder Is a substance based on carboxylic acids. 17. The method according to any one of claims 1 to 12, characterized ge indicates that the foam-forming binder Fabric based on adhesives.   18. The method according to any one of claims 1 to 12, characterized ge indicates that the foam-forming binder Is based on bio-plastics.