Elongate tape element and method

The invention claimed is: 1. Flexible pipe body for transporting fluids from a subsea location comprising: a fluid retaining layer; and an armour layer comprising a collapse resistant tape helically wound around the fluid retaining layer wherein adjacent windings of the tape interlock such that a gap is present between adjacent windings, and an elongate tape element alternately wound with the collapse resistant tape in a helical manner to form the armour layer such that the elongate tape element is located at least partially within said gap and configured to span the gap, and arranged in an abutting relationship with said fluid retaining layer; wherein a body portion of the elongate tape element is configured to have regular slits or slots, or contain a wave, along its length. 2. Flexible pipe body as claimed in claim 1 , wherein the elongate tape element comprises a body portion positioned between windings of the collapse resistant tape such that the body portion lies at least partially in a gap between the windings, and at least one wing portion extending from an end region of the body portion, the at least one wing portion configured to span the gap and respectively abut with a surface of the fluid retaining layer. 3. Flexible pipe body as claimed in claim 2 , wherein the at least one wing portion forms a substantially flat surface for abutting with the fluid retaining layer. 4. Flexible pipe body as claimed in claim 1 , wherein the armour layer has a substantially Z-shaped cross-sectional profile, the profile having a substantially rectangular main body and a leading edge and a trailing edge. 5. Flexible pipe body as claimed in claim 1 , wherein the elongate tape element has a cross sectional profile of a substantially inverted T shape. 6. Flexible pipe body as claimed in claim 2 , wherein the body portion comprises two or more prongs extending from the wing portions. 7. Flexible pipe body as claimed in claim 2 , wherein the body portion abuts a respective side wall of each adjacent collapse resistant tape winding. 8. Flexible body as claimed in claim 2 , wherein a wing span of the wing portions is about 3 times a maximum gap width between the collapse resistant tape windings. 9. Flexible pipe body as claimed in claim 1 , wherein the elongate tape element comprises a metal, a non-metal, a polymer, an elastomer, a rubber, a foam, a composite, an alloy of different materials, or coated materials, and wherein the body portion extends at least 2% along a radial length of the gap. 10. Flexible pipe body as claimed in claim 1 , wherein the elongate tape element comprises a metal, a non-metal, a polymer, an elastomer, a rubber, a foam, a composite, an alloy of different materials, or coated materials, and wherein the body portion is at least partly discontinuous or varies its radial length along the elongate tape element. 11. An elongate tape element for forming a helically wound layer of windings in a flexible pipe body, the tape being configured for alternate winding with a collapse resistant tape in a helical manner to form a collapse resistant layer, wherein the tape element has a cross-sectional profile comprising: a body portion for being positioned between collapse resistant tape windings such that the body portion lies at least partially in a gap between adjacent collapse resistant tape windings; and at least one wing portion extending from an end region of the body portion, the at least one wing portion configured to span the gap and respectively abut with a radially inner surface of an adjacent collapse resistant tape winding; wherein the body portion of the elongate tape element is configured to have regular slits or slots, or contain a wave, along its length. 12. The elongate tape element as claimed in claim 11 , wherein the at least one wing portion forms a substantially flat radially inner surface for abutting with an underlying fluid retaining layer. 13. The elongate tape element as claimed in claim 11 , wherein the tape is configured for alternate winding with the collapse resistant tape comprising an elongate band of material having a substantially Z-shaped cross-sectional profile, the profile having substantially rectangular main body and a leading edge and a trailing edge. 14. The elongate tape element as claimed in claim 11 , wherein the tape element cross-sectional profile is substantially an inverted T shape. 15. The elongate tape element as claimed in claim 11 , wherein the body portion comprises two or more prongs extending from the at least one wing portion. 16. The elongate tape element as claimed in claim 11 , wherein a wing span of the wing portion is about 3 times a maximum gap width between the collapse resistant tape windings. 17. The elongate tape element as claimed in claim 11 , wherein the elongate tape element comprises a metal, a non-metal, a polymer, an elastomer, a rubber, a foam, a composite, an alloy of different materials, or coated materials, and wherein the body portion extends at least 2% along a radial length of the gap. 18. The elongate tape element as claimed in claim 11 , wherein the elongate tape element comprises a metal, a non-metal, a polymer, an elastomer, a rubber, a foam, a composite, an alloy of different materials, or coated materials, and wherein the body portion is at least partly discontinuous or varies its radial length along the elongate tape element. 19. A flexible pipe comprising a collapse resistant layer having an elongate tape element as claimed in claim 11 , the tape being alternately wound with a collapse resistant tape in a helical manner. 20. A method of manufacturing flexible pipe body, comprising: providing a fluid retaining layer; and helically winding an elongate tape element and a collapse resistant tape over the fluid retaining layer to form alternate windings, wherein the elongate tape element is located at least partially within a gap between adjacent collapse resistant tape windings and configured to span the gap so as to abut with a radially inner surface of each adjacent collapse resistant tape winding; whereby a body portion of the elongate tape element is configured to have regular slits or slots, or contain a wave, along its length before it is wound around the fluid retaining layer.