Filter for molten polymer filtration

The invention claimed is: 1. A filter for gel shearing and particle filtration of molten polymer; comprising a first layer of metal fibers of an average equivalent diameter between 8 and 65 μm; wherein the metal fibers of the first layer have a cross-section, wherein the cross section has two neighboring straight sides with an included angle of less than 90° and one or more irregularly shaped curved sides; and wherein the metal fibers of the first layer have an average length of at least 6mm; wherein the metal fibers of the first layer are bonded to each other by means of metal bonds; whereby the metal of the metal fibers of the first layer is the bonding agent forming the metal bonds; and a second layer of metal fibers; wherein the average equivalent diameter of the metal fibers of the second layer is smaller than the average equivalent diameter of the metal fibers of the first layer, wherein the metal fibers of the second layer of metal fibers have a hexagonal cross-sectional shape. 2. The filter as in claim 1 , wherein the first layer of metal fibers and the second layer of metal fibers are positioned one on top of the other without a physicochemical bonding between the metal fibers of the first layer of metal fibers and the metal fibers of the second layer of metal fibers. 3. The filter as in claim 1 , wherein the first layer of metal fibers and the second layer of metal fibers are bonded to each other by means of metal bonds; wherein the metal of the metal fibers of the first layer and of the second layer is the bonding agent forming the metal bonds. 4. The filter as in claim 3 , wherein the metal bonds are sinter bonds or are welded bonds. 5. The filter as in claim 1 , wherein the filter circumference is surrounded by a clamping element sealing the sides of the filter and clamping the second layer of metal fibers onto the first layer of metal fibers. 6. The filter as in claim 1 , wherein the metal fibers of the first layer of metal fibers have a standard deviation between fibers of the equivalent fiber diameter of less than 25% of the equivalent fiber diameter. 7. The filter as in claim 1 , wherein the filter comprises a metal wire mesh. 8. The filter as claim 1 , wherein the metal fibers of the second layer of metal fibers have a cross-section, wherein the cross section has two neighboring straight sides with an included angle of less than 90° and one or more irregularly shaped curved sides. 9. The filter as in claim 1 , wherein the porosity of the first layer of metal fibers is between 50% and 80%. 10. The filter as in claim 1 , wherein the second layer of metal fibers comprises at least two sub-layers, wherein the metal fibers of the at least two sub-layers differ in average equivalent diameter; wherein a sub-layer closest to the first layer of metal fibers comprises metal fibers of higher average equivalent diameter than a sub-layer further away from the first layer of metal fibers. 11. A spin pack filter comprising a filter as in claim 1 . 12. A leaf disk filter comprising a filter as in claim 1 . 13. The leaf disk filter as in claim 12 , wherein the first layer of metal fibers and the second layer of metal fibers of the filter are bonded to each other by means of metal bonds; wherein the metal of the metal fibers of the first layer and of the metal fibers of the second layer is the bonding agent forming the metal bonds. 14. A method for filtering molten polymer in polymer extrusion, comprising the steps of: using a filter for filtering molten polymer, wherein the filter comprises: a first layer of metal fibers of an average equivalent diameter between 8 and 65 μm; wherein the metal fibers of the first layer have a cross-section, wherein the cross section has two neighboring straight sides with an included angle of less than 90° and one or more irregularly shaped curved sides; and wherein the metal fibers of the first layer have an average length of at least 6 mm; wherein the metal fibers of the first layer are bonded to each other by means of metal bonds; whereby the metal of the metal fibers of the first layer is the bonding agent forming the metal bonds; a second layer of metal fibers; wherein the average equivalent diameter of the metal fibers of the second layer is smaller than the average equivalent diameter of the metal fibers of the first layer; wherein the metal fibers of the second layer of metal fibers have a hexagonal cross sectional shape, and wherein in the method, gels are broken and particles are removed from the molten polymer. 15. A method for filtering molten polymer in polymer extrusion, wherein a spin pack is used as in claim 11 for breaking gels and for removing particles from the molten polymer via filtration. 16. A method for filtering molten polymer in polymer extrusion, wherein a leaf disk filter is used as in claim 12 for breaking gels and for removing particles from the molten polymer via filtration.