Gear pump bearing

What is claimed is: 1. A gear pump bearing block having: a bush formed of antifriction alloy, the bush having a cylindrical portion providing a bore adapted to receive a bearing shaft of a gear of the pump, and further having a flange portion extending radially outwardly at an end of the cylindrical portion to provide a thrust face adapted to slidingly engage with a side surface of the gear; a backing layer covering a radially outer surface of the cylindrical portion and a rear face of the flange portion, the backing layer being formed of relatively less dense alloy compared to the antifriction alloy; an annular gallery embedded in the flange portion such that the gallery is spaced from the surface of the bore and from the thrust face, the gallery surrounding the bore; and an inlet to and an outlet from the annular gallery such that, in use, fluid flows from the inlet, through the annular gallery to provide cooling of the thrust face, and then to the outlet. 2. A gear pump bearing block according to claim 1 , wherein the gear pump bearing block further has a recess in the surface of the bore which forms, in use, a hydrostatic pad for the supply of fluid to the interface between the bore surface and the bearing shaft, the outlet from the annular gallery being formed in the recess. 3. A gear pump bearing block according to claim 1 , wherein the inlet to the annular gallery is formed at the thrust face. 4. A gear pump bearing block according to claim 1 , further having a bearing bridge insert at the thrust face partitioning high pressure and low pressure sides of the gear and providing locally increased cavitation erosion resistance, the inlet to the annular gallery being formed on the high pressure side of the bearing bridge insert. 5. A gear pump bearing block according to claim 1 , wherein the annular gallery is located at the same radial position as a gear teeth root circle of the gear which, in use, slidingly engages with the thrust face. 6. A gear pump bearing block according to claim 1 , wherein the annular gallery is located 2% or more and/or 20% or less of the axial length of the bush from the thrust face, as measured in the axial direction of the bore. 7. A gear pump bearing block according to claim 1 , wherein the annular gallery is spaced a distance radially outwards of the surface of the bore, which distance is at least 15% of the radial distance between that surface and the outer radius of the flange portion. 8. A gear pump bearing block according to claim 1 , wherein the annular gallery is formed by partially filling an annular groove formed in the rear face of the flange portion with an annular insert having a depth less than the depth of the groove, thereby forming an enclosed volume constituting the annular gallery between a bottom face of the insert and the floor of the groove. 9. A gear pump bearing block according to claim 8 , wherein the insert is formed of the antifriction alloy. 10. A gear pump bearing block according to claim 1 further having an annular formation of one or more stiffening members, the formation surrounding the bore, the, or each, stiffening member being embedded in the flange portion, and the, or each, stiffening member being formed of a material having a higher elastic modulus than the antifriction alloy. 11. A gear pump having one or more gears with bearing shafts supported by respective gear pump bearing blocks of claim 1 . 12. A fuel supply system of a gas turbine engine having the gear pump according to claim 11 for pumping fuel. 13. A gas turbine engine having the fuel supply system of claim 12 . 14. A method of manufacturing a gear pump bearing block, the method including steps of: providing a bush formed of antifriction alloy, the bush having a cylindrical portion providing a bore adapted to receive a bearing shaft of a gear of the pump, and further having a flange portion extending radially outwardly at an end of the cylindrical portion to provide a thrust face adapted to slidingly engage with a side surface of the gear; forming an annular groove in the rear face of the flange portion and surrounding the bore, the groove being spaced from the surface of the bore and from the thrust face; partially filling the annular groove with an annular insert having a depth less than the depth of the groove, thereby forming an enclosed volume constituting an annular gallery between a bottom face of the insert and the floor of the groove; forming an inlet to and an outlet from the annular gallery such that, in use, fluid flows from the inlet, through the annular gallery to provide cooling of the thrust face, and then to the outlet; and covering a radially outer surface of the cylindrical portion and the rear face of the flange portion of the bush with a backing layer, the backing layer being formed of relatively less dense alloy compared to the antifriction alloy. 15. A method of manufacturing a gear pump bearing block according to claim 14 , wherein the step of covering the radially outer surface of the cylindrical portion and the rear face of the flange portion of the bush with the backing layer is performed by thermally-spraying the relatively less dense alloy onto the bush.