NL1024682C2 - Hard foam material used as e.g. filter, insulation or growth substrate, has open cell structure containing added organic or inorganic materials - Google Patents

Abstract

The foam has a highly open cell structure containing slow release organic and/or inorganic materials which have been added during or after foaming. A Duroplast hard foam, especially one comprising a urea-formaldehyde, melamine-urea-formaldehyde, phenol-formaldehyde or resorcinol-formaldehyde resin or combinations thereof, comprises more than 40 % open cell structure. Organic and/or inorganic materials are mixed with the material, e.g. during or after foaming.

Description

Title:

The simultaneous foaming of Duroplast pre-coridensate (hard foams) with organic and or inorganic solid or liquid substances, including minerals, substrates, residues and liquid or solid fertilizers, whether or not composted. Mixing of organic and inorganic solid or liquid substances during the final condensation process of Duroplast-10 synthetic resins.

Field of the invention

The simultaneous foaming of Duroplast precondensate with organic and inorganic solid or liquid substances, including minerals, substrates, residues and liquid or solid fertilizers, whether or not composted.

The invention also relates to a Duroplast rigid foam that is mixed with organic and or inorganic substances during the final condensation. Both incorporation techniques have proved technically possible by means of mechanical foaming with compressed air, as well as chemical foaming and with both the foaming of the Duroplast synthetic resin and with the foaming of the hardener component.

A) The invention relates to a Duroplast rigid foam that is mixed during the foaming or during the final condensation with activated carbon, peat products and polyacrylamides and or other additives that can be used in air and / or water filtration applications.

10246823 2 B) The invention relates to a Duroplast rigid foam that is mixed with organic and or inorganic substances, solid and or liquid fertilizers or "slow release" and "controlled release" fertilizers during foaming or during final condensation.

C) The invention relates to a Duroplast precondensate that is mixed with fire accelerators or retardants during foaming or during final condensation.

Dj The invention relates to a Duroplast 15 precondensate that is mixed with other organic and or inorganic substrates during foaming or during the final condensation, or a combination of substances, residues, waste and fertilizers, etc.

then not composted, into a usable substrate for use in agriculture and horticulture.

E) The invention relates to a Duroplast precondensate which is mixed with uncoated and / or coated seeds during foaming or during the final condensation, and whether stolons are to be sown or planted or milled into the top layer of the soil.

Background of the invention.

Duroplasts in particular the Urea-Formaldehyde (ÜF), Melamine-Formaldehyde (MF) Urea-Melamine Formaldehyde (MUF) Phenol-Formaldehyde (PF) - resins have the ability to easily foam them many 1024682-3 technical applications were found, in addition, these rigid foams are used in substrate cultivation due to their open cellity and water-absorbing properties.

5

Against the background of the increasing scarcity of natural substrates based on peat products, as well as the social resistance to the unbridled use of these natural resources, as well as the waste spreading discussion arising from the use of mineral wool in greenhouse horticulture, research has been conducted into less environmentally harmful alternatives to substrate cultivation.

15 Residues derived from coconut products, rice chaff, flax shives, mineral wool and other waste materials, whether or not composted, derived from organically stabilized vegetable fruit and garden waste (GFT), have limitations with regard to agricultural reuse. By combining with Duroplast rigid foams, the aforementioned materials can be valorised into an alternative substrate for use in agriculture and horticulture. Thus, an excellent alternative can be obtained for a part of the ever-growing waste and waste stream in our environment.

Verheijen Resins bv, established at 6657 CK Boven-Leeuwen, Ambachtsweg 6, is a producer of urea-formaldehyde (ÜF), melamine-urea-formaldehyde (MUF) and 30 resorcinol formaldehyde (RF) precondensates used by deaf dealers worldwide for the production of Duroplast rigid foams. These rigid foams have a multitude of practical applications.

* Since 1984, or by SVC bv has been one. operating company Van 35 Verheijen Resins bv investigated all kinds of 1024682 “4 properties of ÜF and MUF rigid foams and several foaming techniques as well as applications for ÜF and MUF precondensates.

Among other things, the following techniques were used and investigated: 1) foaming of the resin precondensate with an injection of the hardener component, 2) foaming of the hardener component with injection of the resin condensate, foaming of the above techniques with compressed air or pentane or freon, 3 ) foaming by means of the above techniques by mechanical beating, 4) foaming by means of the above techniques by static mixing techniques, (pearl bed, sponges or slat mixers) 5) self-foaming UF and MUF precondensates (chemical damage, polyurethane technique). ...................

metal oxides, hydrogen peroxide, and proteins).

20

All techniques described by us have been implemented in temperature ranges of 5 ° C to 45 ° C.

Foaming techniques can be controlled on pH, temperature, viscosity, variety in foaming agent and catalyst.

25 UF and MUF hard foam polymer is already described in the literature in the 1950s. It is by nature essentially open-cell hard foam.

The open-celledness can be influenced by the foaming and in the after-treatment, because more or more. to a lesser extent the membranes between the cells do or do not open due to drying, shrinkage and temperature influences. However, it is emphatically stated that "this essentially operational

35 is visible in all mentioned foaming techniques. It is precisely 1024682 _______ έ this open-celledness is of crucial importance for the absorption and adsorption properties of UF and MOF rigid foams, similar rigid foams are ideally suited for water absorption and thus 5 general application possibilities are opened in hydroponics and as substrate in the land and horticulture.

This is clearly visible in the accompanying SEM images of OR hard foam polymers that have been foamed according to the above-mentioned methodologies (1 to 4). The OR

rigid foam polymer always has a freely exchangeable air transport in the cell structure and in the intercellular spaces through the membrane openings in the cells due to its open cellularity.

Until now, of the Duroplast hard foams mentioned, it has been published that substrate mixtures for hydroponics, land and; horticulture are made from flakes of shredded rigid foam (s) mixed with another organic and or inorganic substrate (s).

As far as the applicant is aware, producers have hitherto been unable to mix time and / or shortly after the foaming process of the aforementioned rigid foams or during which final condensation but also another product into the foamed Duroplast final condensation process. With the understanding that a complete final condensation leads to a hard foam with an open cell structure, so that the water absorption properties and. The filtration properties of the original rigid foam have largely been retained or controlled to be directed to specific characteristic features.

A mixing substrate with both substrates or a mix of different substrates integrated and or 1024682. 6 incorporated into the cell structure of the original Duroplast rigid foam.

Duroplast polymers are mainly foamed in an aqueous environment.

Several techniques are used for foaming mixed substrates and hard foam mixed products, namely: 10 * Foaming of synthetic resin and injection of the hardener into the foam column, * Foaming of the hardener and injection of synthetic resin, * Foaming of the above-mentioned techniques with compressed air or pentane or freon / 15 * Foaming of the above techniques by mechanical whipping, * Foaming of the above techniques by ....... chemical foaming, ........ ..... * ....... .............

* Foaming of the above techniques with 20 static mixers.

A) The invention consists in that the applicant has become technically possible to mix a Duroplast rigid foam with and / or mix in, residues, and / or waste materials using the state of the art of the aforementioned foaming methods during foaming or during the final condensation. a practically usable substrate for use in agriculture and horticulture.

The invention also consists in that the applicant has become possible to mix DuropTast hard foam with organic content in the range of 20 to 99.9 ................. .................

35 and inorganic substances, substrates, residues, 1024682 7 waste materials and fertilizers into practically usable substrates for use in agriculture and horticulture.

B) The invention consists in that it has become possible for applicant to mix a Duroplast rigid foam before and during foaming or during final condensation with activated carbon, water-absorbing or hydrophilic polymers such as polyacrylamide, peat products and or other additions that do have combinations.

Said hard foam mixtures with a hard foam amount of 20 to 99.99 volume% can be used in air and / or water filtration applications.

C) The invention consists in that the applicant is "adapted" to mix a Duroplast rigid foam during the foaming or during the final condensation with solid and / or liquid fertilizers using the aforementioned foaming techniques. or "slow release or controlled release" fertilizers.

Said hard foam mixtures with a hard foam amount of 20 to 99.9 volume%.

The invention consists in that it has become possible for the applicant to mix a Duroplast hard foam before and / or during the foaming or during the final condensation fire accelerators or fire retardants using the aforementioned foaming techniques.

The invention also consists in that the applicant * * ·· ........ is possible in the range of 20 "to 99, -9 -...

1024682: 8 volume% Duroplast rigid foam to be mixed with fire accelerators or fire retardants.

E) The invention consists in that applicant 5 has become possible to obtain a good and homogeneous incorporation of one or more other substrates such as peat products and coconut into a Duroplast hard foam using the above-mentioned foaming techniques. A completely new substrate with specific chemical, physical and biological properties is hereby obtained.

The invention also consists in that the applicant has become possible to mix Duroplast hard foam in the range of 20 to 99.9% by volume with other substrates or substrate mixtures. F) The invention consists in that the applicant is able to obtain a good and homogeneous incorporation of uncoated and / or coated seeds, and / or stolons using the above-mentioned foaming techniques.

These can be sown or planted and milled into the top layer of the soil.

The invention also consists in that the applicant has become possible to mix Duroplast hard foam in the range of 20 to 99.9 volume% of hard-foam with one or more uncoated and / or coated seeds, and / or stolones.

G) The invention consists in that the applicant has become able to achieve a good and homogeneous incorporation of polyurethane hard foam waste flakes and / or a polystyrene hard foam flakes and / or waste flakes "in a Duroplast insulating hard foam" using the above-mentioned foaming techniques. ------------ "" ....... - 1024682: 9

The invention also consists in that the applicant has become possible to mix Duroplast hard foam with polyurethane hard foam waste flakes and / or a polystyrene hard foam flakes and / or waste product in the range of 20 to 99.9 volume% Duroplast hard foam.

The applicant has furthermore found that the invention is not limited by the specific mass of the organic or inorganic substances to be mixed or mixtures thereof.

That the invention is not limited by physical and biological properties of the substrates or mixtures thereof to be mixed.

That the invention relates to the foaming of Duroplast precondensate or to the foaming of the hardener component, which are pH controlled, thereby influencing the concentration. or limited by the pH '"· ...........

of the substances to be mixed. This pH range can be both alkaline and acidic since the Duroplast precondensates can be both acidic and alkaline-adjusted for the purpose of final condensation.

That the mixing of the foamed Duroplast precondensates with other substrates can be a mechanical and / or pneumatic foaming, but also a mixing in the pre-end condensation of the hard foams by means of static mixers in the spout. All this to the current state of the art.

30

Brief description of the figures:

Figure 1. Scanning electron microscopic (SEM) image of. . opericelli.g Duropla.st hard foam (MUF), .. with it, indicating: ........: z. .

35 labyrinth composition of the cell structure without mixing of substances and the open cell volume.

/ 1024682 · 10

Figure 2. SEM image of a liquid-saturated open-cell UF rigid foam.

Figure 3. Mechanical mixing machine with which Duroplaste hard foams are mixed with a multitude of organic and inorganic substances during the final condensation.

Figure 4. Test production of a peat product mixing with urea formaldehyde rigid foam during the final condensation.

Figure S. Flakes of incorporated coconut product in UF hard foam.

Figure 6. Incorporated peat product in UF hard foam.

Figure 7. Plant remains in composted UF hard foam.

Figure 8. Active carbon incorporated in UF hard foam.

15. Figure 9 ,. GFT compost incorporated in UF rigid foam. .

Figure 10. Coconut product 1: 1 incorporated in UF hard foam.

Figure 11. Sand / cement mixture incorporated in MUF hard foam. Figure 12. Sand / cement mixture incorporated in UF hard foam. Figure 13. Chemical foaming of silver sand with UF-20 precondensate.

Figure 14. Incorporated chicken manure in UF rigid foam.

Figure 15. Incorporated PUR waste in UF rigid foam.

Examples of foamed substances In the foaming study the following substances are involved, in a variety of granules from substance to conventional fiber: 1024682 11 * Active carbon granulates * Liquid fire retardants * Liquid fire accelerators * Polyurethane rigid foam waste granulates * Cement

However, the finding is not limited to investigated and mentioned substances. By controlling the pH during the final condensation, a plurality of both organic and inorganic products and / or residual materials can be combined and integrated into the foaming process of Duroplast precondensates. · 1024682;

Claims (17)

1. A Duroplast precondensate and / or rigid foam, and in particular the categories of urea-formaldehyde (CJF), the melamine-urea-formaldehyde (MUF) and the phenol-formaldehyde (FA) including the resorcinol aldehyde (RA) and or combinations thereof that before, during or after foaming or at any other time is mixed with organic and or inorganic substances that is more than 10 40% open-cell. The hard foam of claim 1 that has been foamed by foaming the resin precondensate with an injection of the hardener component. 3. Hard foam according to claim 1, which has been foamed by foaming the hardener component with injection of the Duroplast resin precondensate. 4. Hard foam as claimed in claims 1 to 3 which has been foamed by foaming by means of the above techniques by mechanical beating in combination with compressed air. Hard foam according to claims 1 to 4, which has been foamed using the above techniques by static mixing techniques. 6. Hard foam as claimed in claims 1 to 3, which is foamed using the above-mentioned techniques by means of chemical foaming. 7. Hard foam as claimed in claims 1 to 6, which is mixed and / or injected before and or during and or after the final condensation, and / or by means of forced or non-forced absorption with a plurality of raw materials, residues, waste materials, fertilizers of both organic and inorganic origin. (8) Hard foam according to claims 1 to 7 that is mixed before and or during - the final condensation with peat products in a variety of granulates and or 1024682: otherwise reduced, from dust to conventional fiber, rice husks, coconut products in a variety of granules from dust to conventional fiber, VFG, perlite, pumice stone, uncoated and or coated seeds, and or stolones, coated and uncoated fertilizers (NPKs), products in a variety of granulates, and or otherwise reduce ÜF and MOF foam granulates whether or not composted> liquid fertilizers for agricultural applications, in particular substrate applications in agriculture and horticulture. (9) Hard foam according to claims 1 to 7 which is mixed with granulates before and or during the final condensation and / or otherwise reduced polystyrene hard foam waste, polyurethane hard foam waste, of mineral wool, of glass wool, of activated carbon, liquid fire retardants, liquid fire extenders and polyacrylamides. This in all forms and / or granulates in which all said ...... materials can occur. ............... .............. 10. Hard foam according to claims 1 to 9 which is mixed in the range of 20 to 99.9 volume% Duroplast hard foam with organic and inorganic substances mentioned in claims 8 and 9. 11. Hard foam according to claims 1 to 9 which is mixed in the range of 20 to 99.9 volume% of Duroplast hard foam with organic and inorganic substances mentioned in claims 8 and 9 by scattering said substances in the final condensation of the foaming process. 12. Hard foam according to claims 1 to 11, which nevertheless leads to a complete final condensation with an open cell structure whereby the absorption properties and filtration properties of the original hard foam mainly retain its characteristics or ...... - ~ controlled can be controlled on ^ specific characteristic - - 35 characteristics of the original rigid foam. 1024882 ' 13. Hard foam according to claims 1 to 11, which leads to a complete final condensation with an open cell structure and is mixed during the final condensation with activated carbon, water-absorbing or hydrophilic polymers such as polyacrylamides, peat products or other additives that can be used in air and or water filtration. The rigid foam according to claims 1 to 11, which leads to a complete final condensation with an open cell structure 10 and is mixed with polyurethane rigid foam waste and / or a polystyrene rigid foam waste to form a Duroplast insulation rigid foam before and during the final condensation. Hard foam according to claims 1 to 11, which leads to a complete final condensation with an open cell structure and is mixed with polyacrylamides for the agricultural application, in particular substrate applications in ..., before and during the final condensation. ............. 1-a.nd en-horticulture; ...... '..................... ..........................-....................... .................... 16. Hard foam according to claims 1 to 11, which leads to a complete final condensation with an open cell structure and is mixed with cement and / or cement-containing products before and or during and or after the final condensation. 17. Hard foam according to claims 1 to 11, which leads to a complete final condensation with an open cell structure and is mixed with mineral wool before and or during and or after the final condensation. 30 V0246821 35