Guiding deformation in seated hydraulic metering devices

The invention claimed is: 1. A hydraulic valve arrangement comprising: a system chamber including a manifold and a poppet, the manifold including a manifold body defining a first port and a second port leading to a bore, the manifold body defining a bleed surface that is a single/one-piece unitary integral uniform material construction with the manifold body throughout an entire body of the bleed surface as the bleed surface extends from the manifold body, the manifold defining a bleed ring that surrounds the bore and has an angled contact surface that extends between the bleed surface and the bore, the manifold body also defining an annular recess around the bleed ring that is recessed relative to the bleed surface, the annular recess having an inner radius that is radially spaced outwardly from the bore a first distance and having an outer radius that is radially spaced outwardly from the bore a second distance that is greater than the first distance, and the poppet being slidably disposed within the bore between a plurality of positions, the poppet being structured to close a main flow path between the first and second ports when the poppet is in a first position and the poppet being structured to at least partially open the main flow path when the poppet slides away from the first position, the poppet defining an angled contact surface that is configured to engage the angled surface of the bleed ring when the poppet is in the first position; the bleed ring being sufficiently low so that a portion of the poppet extends into the bore beyond the annular recess when the poppet is in the first position. 2. The hydraulic valve arrangement of claim 1 , wherein the hydraulic valve system further comprises a pilot chamber including a pilot valve having an inlet and an outlet, the inlet of the pilot valve being in fluid communication with a variable volume region of the manifold, the variable volume region being located within the manifold relative to the first and second ports to counteract system pressure on the poppet, the pilot valve being configured to selectively drain the variable volume region of the manifold to move the poppet to a selected one of the plurality of positions, wherein the poppet defines a fluid passage extending therethrough to provide fluid communication between the variable volume region and the main flow path. 3. The hydraulic valve arrangement of claim 1 , wherein the annular recess has a depth that is greater than a height of the angled contact surface of the bleed ring. 4. The hydraulic valve arrangement of claim 1 , wherein the angled contact surface of the poppet differs in angle from the angled contact surface of the bleed ring. 5. The hydraulic valve arrangement of claim 4 , wherein the difference in angle ranges from about 1 degree to about 5 degrees. 6. The hydraulic valve arrangement of claim 1 , wherein the poppet has a greater material hardness than the manifold. 7. The hydraulic valve arrangement of claim 6 , wherein the poppet is formed from hardened steel. 8. The hydraulic valve arrangement of claim 1 , wherein the poppet includes a main body and a nose, wherein the angled contact surface of the poppet extends between the nose and the main body of the poppet, and wherein the nose extends into a narrowed section of the bore towards one of the ports. 9. The hydraulic valve arrangement of claim 1 , wherein a depth of the annular recess ranges from about 0.02 inches to about 0.15 inches; wherein the outer radius of the annular recess ranges from about 1.4 inches to 1.7 inches; and wherein an outer radius of the bleed ring ranges from about 1.2 inches to about 1.5 inches. 10. The hydraulic valve arrangement of claim 9 , wherein the depth of the annular recess ranges from about 0.025 inches to about 0.12 inches; and wherein the outer radius of the bleed ring ranges from about 1.3 inches to about 1.4 inches. 11. The hydraulic valve arrangement of claim 10 , wherein the depth of the annular recess is about 0.025 inches; wherein the outer radius of the annular recess is about 1.55 inches; and wherein the outer radius of the bleed ring is about 1.35 inches. 12. The hydraulic valve arrangement of claim 10 , wherein the depth of the annular recess is about 0.05 inches; wherein the outer radius of the annular recess is about 1.55 inches; and wherein the outer radius of the bleed ring is about 1.35 inches. 13. A valve manifold for use with a poppet to selectively open a fluid pathway between a first port and a second port, the valve manifold comprising: a body defining a first opening and a second opening connected through an internal bore, the second opening not being axially aligned with the first opening, the internal bore defining a first section having a first radius and a second section having a second radius that is smaller than the first radius; and a bleed surface that is defined by and is a single/one-piece unitary integral uniform material construction with the body throughout an entirety of the bleed surface, the bleed surface being located within the body so that hydraulic fluid flows over the bleed surface when the fluid flows between the first and second ports, the bleed surface defining an annular recess around the bore, the annular recess being recessed relative to the bleed surface, the annular recess having a depth that extends along an axis of the internal bore and the annular recess having an inner radius that is spaced at a radial offset from the bore to provide a bleed ring, the bleed ring being located between the first and second sections of the bore, and the bleed ring having an angled contact surface facing towards the bore, the bleed ring being about level with the bleed surface. 14. The valve manifold of claim 13 , wherein the annular recess has a depth that is greater than a height of the angled contact surface of the bleed ring. 15. The valve manifold of claim 13 , wherein the depth of the annular recess ranges from about 0.02 inches to about 0.15 inches; wherein the outer radius of the annular recess ranges from about 1.4 inches to 1.7 inches; and wherein the outer radius of the bleed ring ranges from about 1.2 inches to about 1.5 inches. 16. The valve manifold of claim 15 , wherein the depth of the annular recess ranges from about 0.025 inches to about 0.12 inches; and wherein the outer radius of the bleed ring ranges from about 1.3 inches to about 1.4 inches. 17. The valve manifold of claim 16 , wherein the depth of the annular recess is about 0.025 inches; wherein the outer radius of the annular recess is about 1.55 inches; and wherein the outer radius of the bleed ring is about 1.35 inches. 18. The valve manifold of claim 16 , wherein the depth of the annular recess is about 0.05 inches; wherein the outer radius of the annular recess is about 1.55 inches; and wherein the outer radius of the bleed ring is about 1.35 inches. 19. A hydraulic valve arrangement comprising: a valve manifold having a main body defining a first port and a second port leading to a bore that extends along a central bore axis, the manifold defining a main flow path that extends through the bore between the first and second ports, the manifold also defining a bleed ring that surrounds the bore and has an angled surface, the manifold also defining an annular recess around the bleed ring, the bleed ring being a single/one-piece, integral, uniform material construction with the main body of the valve manifold throughout an entirety of the bleed ring as the bleed ring extends from the manifold body; and a poppet slidably di