Rotor for an electrical machine

The invention claimed is: 1. A rotor comprising a rotor core assembly secured to a shaft, wherein the rotor core assembly comprises a magnet and an end cap secured to an end of the magnet, each of the magnet and the end cap has a bore into which the shaft extends, the end cap forms an interference fit with the shaft, the magnet forms a clearance fit with the shaft and an adhesive is located in the clearance between the magnet and the shaft, and wherein the end cap is formed of plastic. 2. The rotor as claimed in claim 1 , wherein the end cap is secured to the magnet by an adhesive. 3. The rotor as claimed in claim 2 , wherein the end cap is secured to the magnet by an adhesive different to that located between the magnet and the shaft. 4. The rotor as claimed in claim 1 , wherein the rotor core assembly comprises a further end cap secured to an opposite end of the magnet, the further end cap having a bore into which the shaft extends and forms an interference fit. 5. The rotor as claimed in claim 4 , wherein the shaft forms an interference fit with a part only of the bore in the further end cap, and adhesive is located in a remaining part of the bore. 6. The rotor as claimed in claim 4 , wherein the rotor core assembly comprises a sleeve that surrounds the magnet and the end caps. 7. The rotor as claimed in claim 6 , wherein the sleeve forms a clearance fit with the magnet and an interference fit with each of the end caps, and an adhesive is located in the clearance between the magnet and the sleeve. 8. The rotor as claimed in claim 7 , wherein the adhesive located between the magnet and the sleeve is different to that located between the magnet and the shaft. 9. The rotor as claimed in claim 7 , wherein the end caps are secured to the magnet by an adhesive that is different to that located between the magnet and the sleeve and between the magnet and the shaft. 10. The rotor as claimed in claim 4 , wherein the end caps are secured to the magnet such that the outer diameter of the magnet is concentric with the inner diameters of the end caps. 11. A rotor comprising a rotor core assembly secured to a shaft, the rotor core assembly comprising a magnet, a first end cap secured to an end of the magnet, a second end cap secured to an opposite end of the magnet, a sleeve that surrounds the magnet and the end caps, the sleeve forming a clearance fit with the magnet and an interference fit with each of the end caps, and an adhesive located in the clearance between the magnet and the sleeve, wherein the magnet and the end caps each have a bore into which the shaft extends, the end caps form an interference fit with the shaft, the magnet forms a clearance fit with the shaft and an adhesive is located in the clearance between the magnet and the shaft, and wherein the end cap is formed of plastic. 12. The rotor as claimed in claim 11 , wherein the adhesive located between the magnet and the sleeve is different to that located between the magnet and the shaft. 13. The rotor as claimed in claim 11 , wherein the end caps are secured to the magnet by an adhesive that is different to that located between the magnet and the sleeve and between the magnet and the shaft.