Gas turbine engine combustor apparatus

We claim: 1. A combustor apparatus for a gas turbine engine, the combustor apparatus comprising: an inner support ring including a first mating protrusion extending axially inward; outer support ring including a second mating protrusion extending axially inward; an inner liner connected to the inner support ring by the first mating protrusion, the first mating protrusion extending axially inward into a corresponding recess of the inner liner in an axial direction of the combustor apparatus; an outer liner connected to the outer support ring by the second mating protrusion, the second mating protrusion extending into a corresponding recess of the outer liner in the axial direction; and a bulkhead at an upstream end of the combustor apparatus, the bulkhead including: an inner surface exposed to combustion products and provided on an internal surface of a combustor in use; an outer surface provided on an external surface of the combustor in use; a metering panel formed in the bulkhead by the inner surface and the outer surface, the metering panel including a plurality of apertures, the metering panel having a heat shield coating applied to the metering panel and around the plurality of apertures; an inner mating feature that cooperates with the inner support ring; and an outer mating feature that cooperates with the outer support ring, and in use, the inner mating feature and the outer mating feature prevent axial motion of the bulkhead relative to the inner support ring and the outer support ring. 2. The combustor apparatus as claimed in claim 1 , wherein the inner surface and the outer surface of the bulkhead are either or both of integrally and monolithically formed as opposing surfaces of a single wall structure. 3. The combustor apparatus as claimed in claim 1 , wherein either or both of the inner mating feature and the outer mating feature is configured to permit radial expansion or contraction of the bulkhead and prevent axial movement. 4. The combustor apparatus as claimed in claim 1 , wherein either or both of the inner mating feature and the outer mating feature is aligned in a radial direction. 5. The combustor apparatus as claimed in claim 1 , wherein the inner support ring includes a cooperating mating feature to cooperate with the inner mating feature of the bulkhead. 6. The combustor apparatus as claimed in claim 1 , wherein the outer support ring includes a cooperating mating feature to cooperate with the outer mating feature of the bulkhead. 7. The combustor apparatus as claimed in claim 6 , further comprising a lock ring, wherein the cooperating mating feature of either or both of the inner support ring and the outer support ring includes a first wall, and in use, the first wall combines with a wall of the lock ring to form a recess. 8. The combustor apparatus as claimed in claim 1 , wherein either or both of the inner mating feature and the outer mating feature includes at least one of a projection, a recess, or a wall, extending in a radial direction. 9. The combustor apparatus as claimed in claim 1 , wherein the bulkhead includes a fuel spray nozzle seal provided within at least one of the plurality of apertures. 10. The combustor apparatus as claimed in claim 9 , wherein the fuel spray nozzle seal depends from either or both of the inner surface and the outer surface of the bulkhead. 11. The combustor apparatus as claimed in claim 1 , wherein the bulkhead includes a nickel alloy. 12. The combustor apparatus as claimed in claim 1 , wherein the bulkhead is formed by an additive layer manufacturing process. 13. The combustor apparatus as claimed in claim 1 , wherein the bulkhead includes a ceramic matrix composite. 14. The combustor apparatus as claimed in claim 1 , wherein the bulkhead includes a plurality of adjacent segments each having an inner surface portion and an outer surface portion, the plurality of adjacent segments being aligned such that the inner surface portion and the outer surface portion collectively define the inner surface and the outer surface of the bulkhead. 15. The combustor apparatus as claimed in claim 14 , wherein the plurality of adjacent segments are either or both of aligned in a common plane and arranged to form an annular ring. 16. A gas turbine engine comprising the combustor apparatus as claimed in claim 1 . 17. A method of manufacturing the combustor apparatus as claimed in claim 1 , the method comprising using an additive layer manufacturing process to manufacture the bulkhead of the combustor apparatus as claimed in claim 1 .