Composite tube

The invention claimed is: 1. A composite tube comprising a first tube section and a second tube section, at least one of the tube sections being of fibre reinforced composite form, a mating interface being provided on each of the first and second tube sections, each of the respective mating interfaces having an interfering portion and a clearance portion to respectively create an interference fit and a clearance fit between the first and second tube sections when the composite tube is assembled, each of the mating interfaces being configured with a recess, the recesses being arranged between the respective interfering portion an clearance portion on each mating surface, and being alignable with one another, during assembly, to define a combined recess when the composite tube is assembled, into which a settable compound can be disposed during assembly to form an internal locking element that assists the interference fit by mechanically securing together the first and second tube sections. 2. A composite tube according to claim 1 , wherein the settable compound is an adhesive. 3. A composite tube according to claim 1 , wherein each interfering portion is circumferential, and extends substantially parallel to the axis of its respective tube section. 4. A composite tube according to claim 1 , wherein the interference fit and/or the settable compound is arranged to provide a fluid seal between the first and second tube sections. 5. A composite tube of according to claim 4 , wherein the recess of each mating interface extends continuously around the circumference of each mating interface. 6. A composite tube according to claim 1 , wherein at least one mating surface is provided with a chamfer to assist in assembling the first and second tube sections. 7. A composite tube according to claim 1 , where at least one of the first and second tube portions has a stop feature that defines a maximum extent of axial engagement between the first and second tube sections. 8. A composite tube according to claim 1 , wherein the second tube section has an electrical resistance within a predetermined range. 9. A composite tube according to claim 8 , wherein the fibres of the second tube section are non-conducting, and the second tube section comprises a predetermined amount of a conductive additive distributed therein. 10. A composite tube according to claim 9 , wherein the conductive additive is carbon black. 11. A composite tube according to claim 1 , wherein a hole is provided in the first and/or second section for fluid communication with the recess of the assembled tube. 12. A method of forming the composite tube of claim 11 , comprising assembling the first and second tube sections, and subsequently injecting the settable compound into the recess via the hole. 13. A composite tube according to claim 1 , wherein the first tube section is of metallic form and the second tube section is of fibre reinforced composite form. 14. A composite tube according to claim 1 , wherein the first tube section is of polymeric or fibre reinforced composite material form and the second tube section is of fibre reinforced composite form. 15. A composite tube according to claim 1 , wherein the combined recess is substantially circular in cross-section. 16. composite tube according to claim 1 , wherein the combined recess has a substantially dog-bone shaped profile. 17. A method of forming the composite tube of claim 1 , comprising assembling the first and second tube sections with a settable compound disposed on at least one mating interface thereof, thereby providing lubrication of the mating interfaces and at least partly filling the recess during assembly, and wherein during assembly the settable compound is displaced into the recess to fill the recess.