The invention relates to a sound insulating material, especially for automobiles, that is manufactured from thermoplastic rubber and PUR plastic, as well as a method for manufacturing such a material.
In automotive technology heavy layer moldings or heavy layer mats are employed especially for sound insulation in the passenger compartment against engine and driving noises. Moreover, heavy layer moldings and heavy layer mats are used for sound-deadening (body noise damping) of vibrating bodywork. In addition to heavy filler materials the heavy material layers usually contain ethylene propylene diene rubber (EPDM). Amongst others heavy spar barytes (BaSO4) has proved effective.
Conventional heavy layered material which is employed for sound damping in automobiles, especially for absorbing the sounds of bodywork parts, has a relatively high weight. This is a disadvantage with regard to the attempt of reducing the fuel usage of automobiles by lowering the vehicle weight.
It is the object of the present invention to create a sound-insulating material of the type mentioned in the beginning, especially for automobile construction, which has good soundproofing action and a relatively low weight. Moreover, a cost-effective method for manufacture of such material should be provided.
In regard to the material the solution to this task consists, in accordance with the invention, of mixing the rubber and the PUR plastic with each other, so that the rubber forms a matrix, with a plurality of gas-filled elastic hollow bodies embedded therein.
The method in accordance with the invention is essentially characterized in that thermoplastic rubber particles and PUR plastic particles are extruded accompanied by addition of a foaming agent to a foamed-plastic type mix material, wherein the foaming agent is added in the form of micro hollow bodies containing a foaming agent, said micro hollow bodies have a mixed polymer shell which expands under the influence of heat.
A foamed up heavy layer material is created by the invention, and in fact a heavy layer material with a rubber matrix, that contains expanded elastic hollow bodies. The material in accordance with the invention is characterized by having good sound-proofing as well as sound damping properties and also relatively low weight.
An advantageous development of the invention consists of using recycling material as the rubber particles obtained by comminution of old and/or waste material containing PUR plastic particles. Preferably recycling material can also be used for the PUR plastic particles while old and/or waste material having PUR foaming material is comminuted to pellets or flakes or the like. By doing so raw material resources are spared and raw material costs for the manufacture of heavy layer material are decreased.
Other preferred and advantageous developments of the invention are indicated in the dependent claims.
In the following the invention is further explained on the basis of an embodiment example with reference to the attached drawing. Therein:
The sound-insulating material in accordance with the invention can have different forms. It can for example be used in the form of a mat, a molding or a manufactured coating by spray casting, especially back injection.
For the manufacture of material in accordance with the invention, that is represented generally as 1 in
Thermoplastic rubber particles, polyurethane plastic particles and a foaming agent are fed via the filling funnel 4 to the extrusion device 2.
The thermoplastic rubber particles are recycling material in the form of pellets, which are obtained by comminution of EPDM rubber containing material. The EPDM rubber particles fed to the extrusion device 2 preferably have a mean particle size in the range from 2 to 8 mm. The EPDM rubber particles contain heavy spar (BaSO4) or another heavy filling material.
The PUR plastic particles are likewise preferably recycling material. It is obtained by comminution of PUR foaming material and is in the form of pellets or flakes, which preferably have a mean particle size in the range from 1 to 6 mm.
The thermoplastic rubber particles and the polyurethane plastic particles can for example be obtained by comminuting soundproofing composite structural elements of old automobiles, which are usually formed of a multilayered acoustic spring mass system and have a polyurethane foam layer as acoustic spring and a heavy layer of EPDM rubber as acoustic mass.
As foaming agent, microhollow bodies that contain foaming agent are added, which have a gastight highly elastic shell of mixed polymer and expand under the influence of heat. The microhollow bodies are essentially spherically shaped and in the unexpanded state have an average particle size in the range from 8 to 20 μm and a density in the range from 1000 to 1300 kg/m3.
The foaming agent is a liquid or gaseous hydrocarbon, for example with isobutane. The micro hollow bodies expand through the action of heat, wherein their actual volumes can for example achieve more than 40 times their original volume. The expansion of the microhollow bodies is initiated at a specific temperature. Typical expansion temperatures are in the range from for example 80 to 200° C. The expanded microhollow bodies can be easily compressed and are so elastic, that they are able to withstand several load or pressure changes without their shells bursting.
The heating devices 8, 9, 10, 11 in the extrusion device 2 are controlled so that during the extrusion, in the region of the entry zone 3 there is a temperature of 40 to 50° C., in the region of the transition and compression zone 5 a temperature of 110 to 130° C., in the region of the exit zone 6 a temperature of 120 to 150° C. and in the region of the nozzle 7 a temperature of 120 to 150° C.
The thermoplastic rubber particles, PUR plastic particles and microhollow bodies can be fed to the extrusion device 2 together as a mixture. To avoid de-mixing or as the case may be for the production of an as homogeneous extrusion mass as possible it is if necessary however advantageous, if the thermoplastic rubber particles, PUR plastic particles and the micro hollow bodies containing foaming agent are fed to the extrusion device one after the other in separate charges.
The mixture fed to the extrusion device 2, or as the case may be the extruded material, preferably has the following composition:
In
Number | Date | Country | Kind |
---|---|---|---|
102 37 366.3 | Aug 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP03/08905 | 8/11/2003 | WO | 2/4/2005 |