Fuel nozzle heat shield

What is claimed is: 1. An aft heat shield apparatus for a fuel nozzle tip, the aft heat shield apparatus comprising: an inner shield comprising: an annular shield wall having a forward cylindrical section with a counterbore formed therein, and an aft conical section; an annular shield flange extending radially outward from an aft end of the aft conical section; and an outer baffle comprising: a conical baffle wall which surrounds the aft conical section of the inner shield, the baffle flange extending from an aft end of the baffle wall, wherein the conical baffle wall includes a plurality of cooling air ports communicating with a cooling air plenum; a thickened forward end which contacts the inner shield; an annular baffle flange surrounding the conical section, and disposed such that an axial gap is defined between the shield flange and the baffle flange, the baffle flange including a radially outer rim extending axially forward therefrom; and a plurality of impingement cooling holes passing through the baffle flange and oriented so as to direct air flow towards the shield flange; wherein the inner shield and the outer baffle are two separate components which are metallurgically bonded to each other; wherein the inner shield includes a raised island which contacts the outer baffle, the raised island having a radial array of slots formed therein; and further wherein the raised island and the thickened forward end cooperatively defining the cooling air plenum between the inner shield and the outer baffle, the cooling air plenum communicating with the axial gap between the shield flange and the baffle flange through the slots in the raised island. 2. The apparatus of claim 1 , wherein a radially inner surface of the counterbore defines a convex-curved land. 3. The apparatus of claim 1 , wherein the shield flange includes opposed, spaced-apart forward and aft faces bounded by an annular outer face, and wherein an intersection of the forward face and the outer face has a radius from the longitudinal axis of the forward and aft faces and the intersection is convexly shaped. 4. The apparatus of claim 1 , wherein a row of cooling holes are disposed at a position on the baffle flange that is radially interior the radially outer rim, the cooling holes oriented to direct cooling air towards a radially outer edge of the shield flange. 5. The apparatus of claim 1 , wherein at least one row of cooling holes in the baffle flange are oriented to direct cooling air perpendicular to a forward face of the shield flange. 6. The apparatus of claim 1 , wherein a plurality of stops extend radially outwardly from the inner shield and engage the thickened forward end of the outer baffle so as to axially position the outer baffle relative to the inner shield. 7. The apparatus of claim 1 , the cooling air plenum being in fluid communication with the axial gap between the shield flange and the baffle flange. 8. The apparatus of claim 7 , wherein the island disposed within the cooling air plenum interconnects the inner shield and the outer baffle, and wherein the radial array of cooling slots extends through the island. 9. The apparatus of claim 1 , wherein a concave inner radius is defined at the juncture of the baffle flange, the aft conical section, and the shield flange. 10. The apparatus of claim 9 , wherein at least one row of cooling holes in the baffle flange are oriented to direct cooling air towards the concave inner radius.