Lattice control cage for a regulator

The invention claimed is: 1. A fluid valve comprising: a valve body having a fluid inlet and a fluid outlet; a fluid passageway connecting the fluid inlet and the fluid outlet; a trim assembly located within the fluid passageway, the trim assembly comprising a valve seat and a cage; and a control member arranged to cooperate with the valve seat to control fluid flow through the fluid passageway, wherein the cage comprises a first cage ring, a second cage ring, and a lattice structure disposed between the first cage ring and the second cage ring, wherein the lattice structure defines a plurality of interconnected flow paths between an internal surface of the lattice structure and an external surface of the lattice structure, and wherein the lattice structure has a non-uniform density that increases or decreases in an axial direction, along a longitudinal axis of the cage, and wherein the non-uniform density of the lattice structure continuously increases or continuously decreases. 2. The fluid valve of claim 1 , wherein the lattice structure is recessed radially inward from an exterior edge of the first cage ring and from an exterior edge of the second cage ring. 3. The fluid valve of claim 1 , wherein the lattice structure includes a plurality of structural elements that form a pattern of openings. 4. The fluid valve of claim 1 , wherein the non-uniform density of the lattice structure changes in a radial direction, along a thickness of the cage. 5. The fluid valve of claim 1 , wherein the non-uniform density of the lattice structure changes in discrete sections, such that a first section of the cage has a first lattice density, a second section of the cage has a second lattice density different from the first lattice density, and a third section of the cage has a third lattice density different from the second lattice density. 6. The fluid valve of claim 1 , wherein the lattice structure has a lattice density gradient that changes across a thickness of the lattice structure or across a height of the lattice structure. 7. The fluid valve of claim 1 , further comprising a bonnet coupled to the valve body, wherein the trim assembly further includes a cage retainer disposed between the bonnet and the cage. 8. The fluid valve of claim 1 , wherein the lattice structure is a monolithic structure. 9. A cage for a fluid valve, comprising: a first cage ring; a second cage ring; and a lattice structure disposed between the first cage ring and the second cage ring, wherein the lattice structure defines a plurality of interconnected flow paths between an internal surface of the lattice structure and an external surface of the lattice structure, and wherein the lattice structure has a non-uniform density that increases or decreases in an axial direction, along a longitudinal axis of the cage, and wherein the non-uniform density of the lattice structure continuously increases or continuously decreases. 10. The cage of claim 9 , wherein the lattice structure includes a plurality of structural elements that form a pattern of openings. 11. The cage of claim 10 , wherein the structural elements are oriented perpendicular to and parallel to the longitudinal axis of the cage. 12. The cage of claim 9 , wherein the non-uniform density of the lattice structure changes in a radial direction, along a thickness of the cage. 13. The cage of claim 9 , wherein the non-uniform density of the lattice structure changes in discrete sections, such that a first section of the cage has a first lattice density, a second section of the cage has a second lattice density different from the first lattice density, and a third section of the cage has a third lattice density different from the second lattice density. 14. The cage of claim 9 , wherein the lattice structure has a lattice density gradient that changes across a thickness of the lattice structure. 15. The cage of claim 9 , wherein the lattice structure has a lattice density gradient that changes across a height of the lattice structure. 16. A method of custom manufacturing a cage for a fluid valve, the method comprising: forming a first cage ring; forming a second cage ring; custom forming a lattice structure between the first cage ring and the second cage ring using an additive manufacturing technique, wherein the lattice structure defines a plurality of interconnected flow paths between an internal surface of the lattice structure and an external surface of the lattice structure, and wherein the lattice structure has a non-uniform density that increases or decreases in an axial direction, along a longitudinal axis of the cage, and wherein the non-uniform density of the lattice structure continuously increases or continuously decreases.