Firing process and method

The invention claimed is: 1. A method of firing a ceramic component within a firing receptacle containing firing powder, the method comprising: using a shaping element to shape and/or define an upper surface of a first portion of firing powder at a first predetermined height within the firing receptacle prior to placing the ceramic component on the upper surface of the first portion of firing powder; using a levelling element to shape and/or define an upper surface of the second portion of firing powder at a second predetermined height within the firing receptacle, the second portion of firing powder covering the ceramic component; and positioning the levelling element within the firing receptacle with the levelling element being supported above a base of the firing receptacle at the second predetermined height using at least one support, wherein the or each support of the levelling element is a strut depending from the levelling element, such that, in use, the base of the or each strut rests on the base of the firing receptacle or wherein the or each support of the levelling element is a hook such that, in use, the hook(s) rest on a rim of the firing receptacle to suspend the levelling element within the firing receptacle, and the shaping element and/or the levelling element is a respective meshed/gridded plate. 2. A method according to claim 1 further comprising positioning the shaping element within the firing receptacle with the shaping element being supported above the base of the firing receptacle at the first predetermined height. 3. A method according to claim 2 further comprising adding the first portion of firing powder such that it abuts the shaping element. 4. A method according to claim 1 wherein the method further comprises removing the shaping element prior to positioning the ceramic component on the upper surface of the first portion of firing powder. 5. A method according to claim 1 wherein the shaping element comprises a protrusion on its lower or upper surface and the method further comprises forming an indentation or protrusion in the upper surface of the first portion of firing powder using the protrusion and positioning the ceramic component in the indentation or on the protrusion. 6. A method according to claim 1 further comprising covering the ceramic component with a second portion of firing powder. 7. A method according to claim 1 wherein the levelling element is the meshed/gridded element and the method comprises adding the second portion of firing powder such that it abuts the levelling element. 8. A method according to claim 7 wherein the method further comprises removing the levelling element prior to firing the ceramic component. 9. A method according to claim 1 further comprising agitating the firing receptacle after addition of the first and/or second portion(s) of firing powder. 10. An apparatus for firing a ceramic component within a firing receptacle containing firing powder, the apparatus comprising: a shaping element, the shaping element being insertable into the firing receptacle, such that, in use, it shapes an upper surface of a first portion of firing powder at a first predetermined height within the firing receptacle prior to placing the ceramic component on the upper surface of the first portion of firing powder; a levelling element, the levelling element being insertable into the firing receptacle, such that, in use, it shapes an upper surface of a second portion of firing powder at a second predetermined height within the firing receptacle, the second portion of firing powder covering the ceramic component; and at least one support for supporting the levelling element spaced from a base of the firing receptacle by the second predetermined height, wherein the or each support of the levelling element is a strut depending from the levelling element, such that, in use, the base of the or each strut rests on the base of the firing receptacle or wherein the or each support of the levelling element is a hook such that, in use, the hook(s) rest on a rim of the firing receptacle to suspend the levelling element within the firing receptacle, and the shaping element and/or the levelling element is a respective meshed/gridded plate. 11. Apparatus according to claim 10 further comprising at least one support for supporting the shaping element spaced from the base of the firing receptacle by the first predetermined height. 12. Apparatus according to claim 11 wherein the or each support of the the shaping element is a strut depending from the shaping element, such that, in use, the base of the or each strut rests on the base of the firing receptacle or wherein the or each support of the shaping element is a hook such that, in use, the hook(s) rest on a rim of the firing receptacle to suspend the shaping element within the firing receptacle. 13. Apparatus according to claim 10 wherein the shaping element comprises a protrusion on its lower or upper surface which, in use, forms an indentation/imprint or protrusion in the upper surface of the first portion of firing powder. 14. Apparatus according to claim 13 wherein the lower or upper surface of the shaping element is convex.