DE19900488A1 - Process for the production of loadable plastic foams - Google Patents

Abstract

The invention relates to a method for producing chargeable synthetic foams. A chemical foaming agent is added to at least one thermoplastic base polymer. The mass is molten and mixed before and/or after melting. The mixture is cooled while a pourable, porous supporting material is produced with the proviso that one extruder or multishaft kneader extruder is used and an inert gas is at least temporarily introduced into the molten material consisting of the base polymer and the chemical foaming agent. Extrusion is carried out in the presence of a nucleation agent.

Description

Field of the Invention

The invention relates to a method for producing loadable plastic foams, with at least one thermoplastic base polymer There is a chemical blowing agent that melts the mass before and / or after mixes, and the mixture to form a pourable gene, porous support material cools, with the proviso that in one Extruder or multi-screw kneader extruder works and at least time assign an inert gas to the melt of the base polymer and chemical Propellant initiates. The extrusion is carried out in the presence of a nu lubricant through.

State of the art

Polymers consist of molecular chains with numerous, practically endless repeating building blocks, which are related to the physical Differentiate properties of low molecular weight compounds. So white Sen polymers compared to low molecular weight compounds, for example have high tensile strength and elasticity.  

In the course of industrial processing, polymerized plastic masses are processing - depending on further processing and purpose - suitable Additives, so-called additives, mixed in. That way you can Base polymers to meet individual needs with regard to the desired Properties can be adjusted.

As a rule, there are basic polymers on the one hand and liquid ones or easily meltable additives, on the other hand, relatively high viscosity differences that can lead to intolerance. Based on these In fact, only small proportions of additives can be found in base poly Mix in mers unless special measures are taken. To avoid dosing problems and to achieve a homogeneous Many plastics processors prefer a concentrate of the respective additives in the base polymers. In each case there is a basic PO lymer or a mixture of several base polymers with one or more heated additives, melted, mixed and poured into a pourable Form transferred, for example in carrier materials loaded with additives in granular form. These are also called additive masterbatches.

To achieve porous or microporous polymer structures are the Numerous manufacturing processes known to those skilled in the art, for example the Pha seninversion, a nuclear bombardment for the storage of microporous solid parts and the sintering together of small microporous particles.

A particularly attractive process for producing additively loaded, porous Water carrier materials is known from EP-A-657 489. With this procedure if you start from thermoplastic base polymers, you add Auf foaming aids, melts and mixes the mass and gets after cooling  a pourable porous carrier material, which is then coated with a ge desired additive is loaded. As suitable foaming aids Azodicarbonamides and citric acid derivatives are disclosed. In one preferred Embodiment is in the melt of base polymers and on Foaming aids, at least occasionally, an inert gas, for example wise nitrogen, introduced to achieve particularly high porosities.

Description of the invention

The object of the present invention was to develop a improved process for the production of loadable plastic foams. Under "plastic foams" - as is common practice in the professional world - To understand plastics that are due to existing internal cavities Additives can be loaded. The loading should be easier Be possible in such a way that the plastic foam according to the invention, which is a porous carrier material, with at least one additive ver is set and with this at a below the melting point of the base poly mers, which were used to manufacture the plastic foam, each but mixed above the melting point of the additive becomes; the additive flows into the inner cavities of the plastic foam, d. H. the plastic foam takes on due to its special Structure the liquid additives like a sponge. Under additives plastic additives are understood in the context of the present invention the. It is clear to the person skilled in the art what is meant by plastic additives. There is extensive literature on this, including a number of special monographs. The book "Taschen book of plastic additives "by R. Gächter and H. Müller (Munich 1983).  

The present invention relates to a method for the production loadable plastic foams, with at least one ther plastic base polymers give a chemical blowing agent, the mass melts, mixes before and / or after melting, and the mixture under Formation of a pourable, porous carrier material cools with the Provided that one in an extruder or multi-screw kneader extruder works and at least temporarily an inert gas in the melt of Ba initiates sispolymer and chemical blowing agent and taking the extru sion in the presence of a nucleating agent.

Those accessible by the method according to the present invention Products are pourable, porous carrier materials and are used in following - as already happened above - be as plastic foams draws. The accessible according to the inventive method Plastic foams have macro pores that are interconnected are. This can be done, for example, by scanning electron microscopy Shots of longitudinal or cross sections of the plastic foams point. The pores have diameters in the order of 100 microns on and are ellipsoidal, with the ratio of the longest to the shortest In nominal diameter is 2: 1 to 5: 1.

A crystallization accelerator is placed under a nucleating agent stood. A synonym for the term nucleating agent is in the field literature also uses the term nucleating agent. Nucleating agents are especially useful for processing plastics interpretation because they are the crystal growth rate of polymers influence. By adding nucleating agents to the base polymer the number and size of the spherulites formed are determined. this has consequence that nucleated polymers have a finer grain structure than  not nucleated what is in their physico-chemical properties noticeable; for example, roughly spherulitic plastics with the same crystalline content brittle and less transparent or trans lucent as such with a fine spherulitic structure.

In the context of the present invention, the nucleating agent, which can consist of one or more connections, in addition causes the lamellar structure of the Ver available plastic foam is particularly fine and even. In one embodiment, the nucleating agent is used in an amount from 0.001 to 5.0% by weight, based on the base polymers. It is the range from 0.1 to 0.8% by weight is particularly preferred. The training of the nucleating agent is preferably done before extrusion, i. H. the nucleating agent is suspended in a melt of base poly mers and chemical blowing agent and then subjects this mixture eats the extrusion.

Substances which are particularly suitable as nucleating agents are: are wettable or absorbable by the base polymer in the base polymer are insoluble, have a melting point above the enamel point of the base polymer and which is as fine as possible particulate form - usually with particle sizes in the range of about 1 to 10 µm - are homogeneously dispersible in the polymer melt. In a be preferred embodiment, inorganic nucleating agents are used Substances such as talc, silica or kaolin. Examples of suitable or ganic compounds which are suitable as nucleating agents are salts of mono- or polycarboxylic acids.  

The chemical blowing agent is used in an amount of 0.01 to 5 wt .-% and especially in an amount of 0.1 to 2 wt .-% - based on the base polymers - used. You can either use one or more sub use punching as a chemical blowing agent. Preferably you choose that chemical blowing agents from the group of the diazo compounds, N-Ni troso compounds, sulfohydrazides, urea derivatives, guanidine derivatives, Borohydride / water systems, citric acid and its esters, carbonates and Hydrogen carbonates. In a preferred embodiment of the present The present invention is set as a chemical blowing agent carbonate, hydro gene carbonates, citric acid and their esters or mixtures of these ver bindings.

In one embodiment, the extruder is in a temperature range of 100 to 265 ° C, a pressure range of 50 to 100 bar and a Schnec speed from 50 to 100 rpm. The optima are aligned len extrusion temperatures essentially according to the type of used Base polymers, especially their melt flow indices (MFI). Unless as Base polymer, an ethylene-vinyl acetate copolymer is used, one makes in the feed zone of the extruder preferably a temperature in the range from 100 to 120 ° C and in the nozzle area a temperature in the range of 160 to 180 ° C. If polypropylene is used as the base polymer, a temperature is preferably set in the feed zone of the extruder a temperature in the range of 130 to 150 ° C and in the nozzle area Range from 235 to 265 ° C. If you use LDPE (low density polyethylene) is used, it is placed in the feed zone of the extruder preferably a temperature in the range of 120 to 140 ° C and in Nozzle area a temperature in the range of 180 to 210 ° C.  

As already said, one leads in the course of the method according to the invention at least temporarily an inert gas in the melt of base polymer and chemical blowing agent. The inert gas is in the extruder, in which is the melt of base polymer and chemical blowing agent takes place. The inert gas is preferably introduced during the entire extrusion process. The gas in particular finely sprayed, the amount of gas in particular according to the type of base polymer, the proportion of chemical blowing agent as well as the temperature and the total amount of the melt. Before In addition, gas pressures are set to values which are 5 to 30 bar above of the extrusion pressure. The amount of gas is preferably increased to a value in the range of 50 to 100% by volume - based on the Volume of extruded polymers - adjusted; is under "volume" the throughput of the polymer per time (volume output in liters per Hour) to understand.

The chemical blowing agents mentioned are compounds gene that split off gases by chemical reactions and in the polymer Matrix of the base polymer (s) can create internal cavities. The gases released are, for example, carbon dioxide or nitrogen and contain no explosive components. The spin-off is preferred wise in a relatively small temperature interval, namely the decomposition temperature range of the chemical blowing agent used medium, carried out and the processing temperature of the used Base polymers adapted.

The chemical blowing agents can basically be divided into two groups. Blowing agents with an endothermic decomposition reaction require a constant Heat supply for decomposition and gas elimination. The decomposition begins  Depending on the type of blowing agent, it starts relatively early at 85 ° C and runs slowly and even. It ends as soon as heat is no longer applied and the foamed molding below the decomposition temperature of the Propellant has cooled. The gas pressure of endothermic blowing agents is usually in the range of about 8 to 10 bar. Examples of endothermic Blowing agents are mixtures of carbonates and hydrogen carbonates A particularly attractive representative of this type of blowing agent is Natri umhydrogencarbonate.

Blowing agents with an exothermic decomposition reaction require a starting energy to quasi explosive gas when the decomposition temperature is reached release. The gas pressure of exothermic blowing agents is usually around 12 to 15 bar. Examples of exothermic blowing agents are sulfohydrazides and Semicarbazides. An example in this context is 4,4'-oxybis called benzenesulfohydrazide and toluene-4-sulfonohydrazide.

The plastic produced by the method according to the invention foam, d. H. the porous extrudate is used with known suitable ones Devices converted into granular or pellet-shaped carrier material, for example by strand granulation.

The basic polymers to be used in the course of the method according to the invention, which are thermoplastic materials, can in themselves be chosen as desired. Examples of suitable base polymers are:

• 1. homopolymers of an α-olefin with two to eight carbon atoms, Copolymers of two corresponding α-olefins, preferably Copolymers of ethylene, ethylene homopolymers such as HDPE (high  density polyethylene), LDPE (low density polyethylene), VLDPE (very low density polyethylene), LLEPE (linear low density polyethylene), MDPE (medium density polyethylene), UHMPE (ultra high molecular po lyethylene), VPE (cross-linked polyethylene), HPPE (high pressure polyethylene), isotactic polypropylene, syndiotactic polypropylene, Metallocene-catalyzed polypropylene, impact-resistant modes Defined polypropylene, random copolymers based on ethylene and pro pylene, block copolymers based on ethylene and propylene, homopolymers based on 1-butylene, 1-pentylene, 1-hexylene, 1-octylene, isobutylene, 2- Methyl-1-butylene, 3-methyl-1-pentylene, 4-methyl-1-pentylene, 2,3-di methyl-1-butylene, 2-ethyl-1-butylene and mixtures thereof.
• 2. Copolymers of ethylene with 1-butylene, 1-hexylene, 1-octylene and 4- Methyl 1-pentylene.
• 3. ethylene-vinyl acetate copolymers, ethylene-ethyl acetate copolymers, Ethylene acrylic acid copolymers and mixtures thereof.
• 4. Ethylene propylene rubber (EPDM), also modified with diene (EPR), styrene-but adiene-styrene copolymers (SBS), styrene-ethylene-butylene-styrene-Co polymers (SEBS) and mixtures thereof.

The base polymers used in the course of the method according to the invention in practice are granular or pellet-shaped. they are easy to pour and pour and therefore to mix with chemical blowing agents well suited.

Since the structure of the plastic foams produced according to the invention in to a high degree due to elliptical interconnected macro-pores cha is characterized, it is understandable that loading of the plastic foams is easily possible with any additives. For this he will Plastic foam produced according to the invention with at least one additive  offset and with this at a below the melting point of the at Production of the plastic foam used base polymers, however temperature above the melting point of the additive mixed.

In the context of the present invention, the additives can be obtained from the Additives known to those skilled in the art for processing ther moplastic plastics themselves can be chosen arbitrarily. examples for suitable additives are: antistatic agents, antifoggants, antioxidants, UV Stabilizers, adhesives, calendering aids, mold release agents, lubricants, Release agents, lubricants, plasticizers, fragrances, flame retardants, Fillers, crosslinking agents and agents for increasing thermal stability.

The additive-loaded plastic foams are also called additive masters called batches. These additive masterbatches can be processing of bulk plastics. The Verar processing of these bulk plastics can be done in any way per se; esp special extrusion, calendering, injection molding and blow molding processes ren called.

Another object of the present invention is accordingly the use of the according to the method of the present invention provided plastic foams for the additive of bulk plastics.

Claims (2)

1. A process for the preparation of loadable plastic foams, wherein a chemical blowing agent is added to at least one thermoplastic base polymer, the mass melts, mixed before and / or after melting, and the mixture is cooled to form a pourable, porous carrier material, with the proviso that one works in an extruder or multi-screw kneader-extruder and at least occasionally introduces an inert gas into the melt of the base polymer and chemical blowing agent, characterized in that the extrusion is carried out in the presence of a nucleating agent. 2. Use of plastic foams made according to the procedure according to claim 1 for the additization of bulk plastics.