Ballistic resistant article with non-uniformly distributed matrix material and method to manufacture said article

The invention claimed is: 1. A ballistic resistant article comprising at least one consolidated composite, wherein the at least one consolidated composite comprises a layer A and a layer B bonded to one another, each layer A and each layer B having a first surface, a second surface opposite to the first surface, and a cross-section extending from the first surface to the second surface, and each layer A and each layer B comprises a network of fibers having a strength of at least 800 mN/tex (1100 MPa) according to ASTM D 7269-07, and the fibers in each layer A and each layer B are impregnated with a matrix material, wherein the matrix material is distributed along the cross-section of each layer in a concentration gradient in which the concentration starts with a maximum value on the first surface, so that the first surface is rich in matrix material, decreases along the cross-section and reaches a minimum value on the second surface, so that the second surface is poor in matrix material, and the matrix material comprises a mixture of 75 to 95 wt. % of a polychloroprene, and 5 to 25 wt. % of a random copolymer of vinyl chloride and an acrylic ester, based on a weight of the mixture. 2. The ballistic resistant article according to claim 1 , wherein the layers A and B were bonded to one another either i) by binding layer A with its first surface rich in matrix material to the second surface poor in matrix material of layer B, or ii) by binding layer A with its first surface rich in matrix material to the first surface rich in matrix material of layer B. 3. The ballistic resistant article according to claim 1 , wherein the article comprises 2 to 100 of the consolidated composites. 4. The ballistic resistant article according to claim 3 , wherein the consolidated composites are fixated to one another by stitching or by lamination. 5. The ballistic resistant article according to claim 4 , wherein the stitching is located at the corners of the composites. 6. The ballistic resistant article according to claim 1 , wherein the network of fibers of each layer A and each layer B is a woven fabric or a non-woven fabric. 7. The ballistic resistant article according to claim 6 , wherein the non-woven fabric is a unidirectional aligned fiber layer. 8. The ballistic resistant article according to claim 1 , wherein the fibers are aramid fibers. 9. The ballistic resistant article according to claim 1 , wherein the matrix material comprises a mixture of 88 to 92 wt. % polychloroprene, and 8 to 12 wt. % of a random copolymer of vinyl chloride and an acrylic ester. 10. The ballistic resistant article according to claim 1 , wherein the matrix material further comprises 1 to 20 wt. % of a tackifier. 11. The ballistic resistant article according to claim 10 , wherein the tackifier is selected from the group consisting of terpene resins derived from terpene feedstocks either from wood sources or from citrus fruit. 12. The ballistic resistant article according to claim 1 , wherein the polychloroprene exhibits a glass transition temperature T g in the range from −60 to −20° C. 13. The ballistic resistant article according to claim 1 , wherein an areal density of each consolidated composite ranges from 50 g/m 2 to 200 g/m 2 . 14. Process to manufacture a ballistic resistant article according to claim 1 , wherein the process comprises the following steps: a) manufacturing at least one consolidated composite which comprises a layer A and a layer B, wherein each layer A and each layer B has a first surface, a second surface opposite to the first surface, and a cross-section extending from the first surface to the second surface, each layer A and each layer B comprises a network of fibers, the fibers having a strength of at least 800 mN/tex (1100 MPa) according to ASTM D 7269-07, by a1) impregnating layer A with a matrix material by distributing the matrix material along the cross-section of layer A in a concentration gradient in which the concentration starts with a maximum value on the first surface, so that the first surface is rich in matrix material, decreases along the cross-section and reaches a minimum value on the second surface, so that the second surface is poor in matrix material, wherein the matrix material comprises a mixture of 75 to 95 wt. % of a polychloroprene, and 5 to 25 wt. % of a random copolymer of vinyl chloride and an acrylic ester, based on a weight of the mixture, a2) impregnating layer B with a matrix material by distributing the matrix material along the cross-section of layer B in a concentration gradient in which the concentration starts with a maximum value on the first surface, so that the first surface is rich in matrix material, decreases along the cross-section and reaches a minimum value on the second surface, so that the second surface is poor in matrix material, wherein the matrix material comprises a mixture of 75 to 95 wt. % of a polychloroprene, and 5 to 25 wt. % of a random copolymer of vinyl chloride and an acrylic ester, based on a weight of the mixture, and a3) binding the layers A and B to one another, and, if two or more consolidated composites are manufactured in step a), b) stacking the two or more consolidated composites obtained in step a3). 15. Process according to claim 14 , wherein the step a3) of binding the layers A and B to one another is performed either i) by binding layer A with its first surface rich in matrix material to the second surface poor in matrix material of layer B, or ii) by binding layer A with its first surface rich in matrix material to the first surface rich in matrix material of layer B. 16. Process according to claim 14 , wherein in step b) the stacked two or more consolidated composites are fixated with one another by stitching them. 17. Process according to claim 16 , wherein stitching is performed at the corners of the composites. 18. A ballistic resistant article comprising at least one consolidated composite, wherein the at least one consolidated composite comprises a layer A and a layer B bonded to one another, each layer A and each layer B having a first surface, a second surface opposite to the first surface, and a cross-section extending from the first surface to the second surface, and each layer A and each layer B comprises a network of fibers having a strength of at least 800 mN/tex (1100 MPa) according to ASTM D 7269-07, and the fibers in each layer A and each layer B are impregnated with a matrix material, wherein the matrix material is distributed along the cross-section of each layer in a concentration gradient in which the concentration starts with a maximum value on the first surface, so that the first surface is rich in matrix material, decreases along the cross-section and reaches a minimum value on the second surface, so that the second surface is poor in matrix material, wherein the matrix material comprises a mixture of 75 to 95 wt. % of a polychloroprene, and 5 to 25 wt. % of a random copolymer of vinyl chloride and an acrylic ester, based on a weight of the mixture, and wherein the ballistic resistant article is made by a process comprising: a) manufacturing the at least one consolidated composite by a1) impregnating layer A with the matrix material by distributing the matrix material along the cross-section of layer A in the concentration gradient, a2) impregnating layer B with the matrix material by distributing the matrix material along the cross-section of layer B in the concentration gradient, and a3) binding the layers A and B t