Electrical Machines

1 - 23 . (canceled) 24 . A stator or a rotor for use in an electrical machine, the stator or rotor comprising a composite element, the composite element comprising a rigid mass suitable for comprising at least one magnetostrictive electrode bar, at least one magnetostrictive electrode bar, piezoelectric material in between said rigid mass material and said magnetostrictive electrode bars, wherein the rigid mass, the at least one magnetostrictive electrode bar and the piezoelectric material are arranged such that applying a voltage between the rigid mass and one or more magnetostrictive electrodes, causes piezoelectric effects in the piezoelectric material inducing stress in the bi-axial plane of the at least one magnetostrictive bar and a change of the permeability of the at least one magnetostrictive bar in a direction perpendicular to the bi-axial stress plane. 25 . A stator or rotor according to claim 24 , wherein the piezoelectric material is applied as piezoelectic layers surrounding the at least one magnetostrictive material. 26 . A stator or rotor according to claim 24 , wherein the piezoelectric materials are mechanically and electrically connected with the magnetostrictive material and the rigid mass or wherein the piezoelectric materials are any of ceramics or electro-active polymers. 27 . A stator or rotor according to claim 24 , wherein the rigid mass is a single piece rigid mass wherein at least one magnetostrictive element is used. 28 . A stator or rotor according to claim 24 , wherein the at least one magnetostrictive bar is a plurality of magnetostrictive bars arranged in an array or wherein the at least one magnetostrictive electronde comprises a plurality of magnetostrictive electrodes whereby some or all of the magnetostrictive electrodes are electrically interconnected or, wherein the at least one magnetostrictive bar is a cylindrical bar or wherein the at least one magnetostrictive bar is an elongated bar having a triangular shaped cross-section or wherein the at least one magnetostrictive bar is an elongated bar having a rectangular shaped cross-section or wherein the at least one magnetostrictive bar is an elongated bar having a hexagonal shaped cross-section. 29 . A stator or rotor claim 24 , wherein the composite material is designed such that the distance between the rigid mass and adjacent magnetostrictive bars is equal to or smaller than half the distance between two adjacent magnetostrictive bars. 30 . A stator or rotor according to claim 24 , wherein rigid mass and/or the piezoelectric materials are non-magnetic or wherein the rigid mass comprises a material that is electrically conducting and mechanically rigid. 31 . A stator or rotor according to claim 24 , wherein the stator or rotor furthermore comprises electrical connectors for alternatingly connecting different magnetostrictive bars to outside electrical sources. 32 . A stator or rotor according to claim 24 , wherein some of the electrical connectors are grouped such that, in use, the magnetostrictive electrodes under positive voltage and under negative voltage form a checkerboard pattern. 33 . A stator or rotor according to claim 24 , wherein the stator or rotor furthermore comprises insulation plates for insulating the magnetostrictive material from the rigid mass. 34 . An electrical machine comprising a stator or rotor according to claim 24 . 35 . An electrical machine according to claim 34 , wherein the electrical machine is a permanent-magnet variable reluctance machine. 36 . A composite element comprising a rigid mass suitable for comprising at least one magnetostrictive electrode bar, at least one magnetostrictive electrode bar, piezoelectric material in between said rigid mass material and said at least one magnetostrictive electrode bar, wherein the rigid mass, the at least one magnetostrictive electrode bar and the piezoelectric material are arranged such that applying a voltage between the rigid mass and one or more magnetostrictive electrodes, causes piezoelectric effects in the piezoelectric material inducing stress in the bi-axial plane of the magnetostrictive bars and a diminished permeability of the magnetostrictive bars in a direction perpendicular to the bi-axial stress plane. 37 . A method for altering the reluctance of a composite element according to claim 24 , wherein the method comprises applying a voltage between the rigid mass and one or more magnetostrictive bars thus inducing shrinking of the piezoelectric material and inducing stress in a bi-axial plane of the magnetostrictive bars and a change of the permeability of the magnetostrictive bars in a direction perpendicular to the bi-axial stress plane. 38 . A method of inducing motion or actuation of an element, the element being in connection with an electrical machine comprising a stator and a rotor, one of said stator and rotor being according to claim 24 , the method comprising subsequently controlling different relative positions between the stator and the rotor by subsequently altering a voltage between the rigid mass and one or more magnetostrictive bars so as to induce a relative motion thus inducing shrinking of the piezoelectric material and inducing stress in a bi-axial plane of the at least one magnetostrictive bar and a change of the permeability of the magnetostrictive bars in a direction perpendicular to the bi-axial stress plane.