Protective armour element

The invention claimed is: 1. A body armour element comprising a strike layer comprising concave outer surfaces and convex inner surfaces opposite the concave outer surfaces; and a support layer comprising reinforcing fibers embedded in a flexible polymer matrix that adjoins the convex inner surfaces of the strike layer, at least some fibers being arranged in such a way that inward distortion of the convex inner surfaces of the support layer results in tensile stress to the fibers, whereby inward distortion of the strike layer under an impact at a concave outer surface is resisted by tensile strength of the fibers. 2. The body armour element of claim 1 where the strike layer comprises a ceramic. 3. The body armour element of claim 1 where the strike layer comprises a metal. 4. The body armour element of claim 1 where the strike layer comprises a ceramic and a metal. 5. The body armour element of claim 1 where the strike layer and the support layer have an average combined thickness, and the strike layer concave outer surfaces have arcuate contour with radii of curvature greater than the average combined thickness. 6. The body armour element of claim 1 where the strike layer is a unitary layer. 7. The body armour element of claim 1 where the strike layer further has convex outer surfaces in gaps between concave outer surfaces. 8. The body armour element of claim 7 where the convex outer surfaces are in a tessellating pattern. 9. The body armour element of claim 1 where the concave outer surfaces are on an outer side of the strike layer having an overall convex contour. 10. The body armour element of claim 1 where the support layer has an inner side with an overall concave contour. 11. The body armour element of claim 1 where the strike layer and the support layer comprise a vest insert plate and the support layer has an inner side with an overall concave contour conforming to a torso. 12. The body armour element of claim 1 where the strike layer and the support layer comprise a helmet and the support layer has an inner side with an overall concave contour conforming to a head. 13. A body armour element comprising a strike layer comprising a unitary material having concave outer surfaces with gaps therebetween, convex outer surfaces in the gaps between the concave outer surfaces, and convex inner surfaces opposite the concave outer surfaces, and a support layer comprising reinforcing fibres embedded in a flexible polymer matrix that adjoins the convex inner surfaces of the strike layer, at least some fibres being arranged in such a way that inward distortion of the convex inner surfaces of the support layer results in tensile stress to the fibres, whereby inward distortion of the strike layer under an impact at a concave outer surface is resisted by tensile strength of the fibres. 14. The body armour element of claim 13 where the unitary material comprises a ceramic. 15. The body armour element of claim 13 where the unitary material comprises a metal. 16. The body armour element of claim 13 where the unitary material comprises a ceramic and a metal. 17. The body armour element of claim 13 where the strike layer and the support layer have an average combined thickness, and the concave outer surfaces have arcuate contours with radii of curvature greater than the average combined thickness. 18. The body armour element of claim 13 where the concave and convex outer surfaces are on an outer side of the strike layer having an overall convex contour. 19. The body armour element of claim 18 where the support layer has an inner side with an overall concave contour. 20. The body armour element of claim 19 where the strike layer and the support layer comprise a vest insert plate and the overall concave contour at the inner side of the support layer conforms to a torso. 21. The body armour element of claim 19 where the strike layer and the support layer comprise a helmet and the overall concave contour at the inner side of the support layer conforms to a head.