Sheet moulding compound

What is claimed is: 1. A moulding sheet comprising: conglomerates that are selected from a group consisting of a substantially two-dimensional patch of fibre segments in a matrix of polymeric material and a three-dimensional piece of fibre segments in a matrix of polymeric material that are arranged in a geometric plane having a width, a length, and a thickness that is negligible when compared to the width and the length; wherein a first group of the conglomerates has a random orientation of a direction of maximum tensile strength thereof in said geometric plane; and at least one second group of the conglomerates has a prevailing orientation of a direction of maximum tensile strength thereof along a predetermined direction in said geometric plane; said at least one second group of conglomerates being distinguishable from the first group of conglomerates by at least one characteristic other than orientation, and fibres of the fibre segments of the two-dimensional patch and the three-dimensional piece are selected from a group consisting of: carbon fibres, glass fibres, aramid fibres, ceramic fibres, boron fibres, or combinations thereof. 2. The moulding sheet according to claim 1 , wherein each conglomerate comprises unidirectional fibres. 3. The moulding sheet according to claim 1 , wherein said at least one distinguishing characteristic of the conglomerates of the second group compared to the conglomerates of the first group is selected from the group consisting of: nature of the fibre, shape of the conglomerates, size of the conglomerates, arrangement of the fibre segments within the conglomerates, and the fact that they are arranged in different layers parallel to the geometric plane. 4. The moulding sheet according to claim 1 , wherein the density of the conglomerates of the first group is greater than the density of the conglomerates of the second group. 5. The moulding sheet according to claim 1 , wherein the conglomerates of the first and second groups are arranged in interpenetrating layers. 6. The moulding sheet according to claim 1 , wherein the conglomerates are substantially two-dimensional and rectangular. 7. The moulding sheet according to claim 1 , wherein the first group comprises comparatively short conglomerates and the second group comprises comparatively long conglomerates. 8. The moulding sheet according to claim 1 , wherein the conglomerates of the first group have a length/width ratio of less than or equal to 6.5/1 and the conglomerates of the second group have a length/width ratio of less than or equal to 20/1. 9. The moulding sheet according to claim 1 , wherein the conglomerates of the first group have a length within the range 0.5-110 mm and the conglomerates of the second group have a length within the range 30-150 mm. 10. The moulding sheet according to claim 1 , wherein the width of the conglomerates is within the range 2-50 mm. 11. The moulding sheet according to claim 1 , wherein the moulding sheet further comprises a third group of conglomerates of fibre segments and a matrix of polymeric material, the conglomerates of the third group having a random orientation of a direction of maximum tensile strength thereof in said geometric plane, and being distinguishable from the first group of conglomerates by at least one characteristic other than orientation, the conglomerates of the third group having a length/width ratio equal to 1/1. 12. An object moulded from a moulding sheet according to claim 1 , said moulded object having an elongated shape, the conglomerates of the second group being prevailingly oriented with their direction of maximum tensile strength according to the longitudinal direction of the moulded object. 13. The moulded object according to claim 12 , wherein the object is a bicycle crank. 14. A moulding sheet, comprising: conglomerates that are selected from a group consisting of a substantially two-dimensional bundle of fibre segments in a matrix of polymeric material and a three-dimensional bundle of fibre segments in a matrix of polymeric material that are arranged in a geometric plane having a width, a length, and a thickness that is negligible when compared to the width and the length; wherein a first group of the conglomerates has a random orientation of a direction of maximum tensile strength thereof in said geometric plane, and at least one second group of the conglomerates has a prevailing orientation of a direction of maximum tensile strength thereof that extends along a predetermined direction in said geometric plane; said at least one second group of conglomerates being distinguishable from the first group of conglomerates by at least one characteristic other than orientation, and fibres of the fibre segments of the two-dimensional bundle and the three-dimensional bundle are selected from a group consisting of: carbon fibres, glass fibres, aramid fibres, ceramic fibres, boron fibres, or combinations thereof. 15. A moulding sheet, comprising: conglomerates of fibre segments in a matrix of polymeric material arranged in a geometric plane having a width, a length, and a thickness that is negligible when compared to the width and the length; wherein a first group of the conglomerates has a random orientation of a direction of maximum tensile strength thereof in said geometric plane; and at least one second group of the conglomerates has a direction of maximum tensile strength that extends within a predetermined angular range of ±40° with respect to a predetermined direction in the geometric plane; said at least one second group of conglomerates being distinguishable from the first group of conglomerates by at least one characteristic other than orientation, and fibres of the fibre segments are selected from a group consisting of: carbon fibres, glass fibres, aramid fibres, ceramic fibres, boron fibres, or combinations thereof.