Valve seats and valve assemblies for fluid end applications

The invention claimed is: 1. A valve seat for use in a fluid end comprising: a first section for insertion into a fluid passageway of the fluid end; and a second section extending longitudinally from the first section, the second section having a compressive stress condition and an outer diameter greater than outer diameter of the first section and comprising a frusto-conical valve mating surface, wherein the second section is encased in a ring imparting the compressive stress condition to the second section and the first section comprises an outer surface for engaging the fluid passageway. 2. The valve seat of claim 1 , wherein the ring has a concentric arrangement with an outer surface of the second section. 3. The valve seat of claim 1 , wherein the ring comprises a metal or alloy. 4. The valve seat of claim 1 , wherein the ring is outside the frusto-conical valve mating surface. 5. The valve seat of claim 1 , wherein the second section comprises sintered cemented carbide. 6. The valve seat of claim 5 , wherein the sintered cemented carbide has compressive residual stress of at least 1 GPa. 7. The valve seat of claim 5 , wherein the first section comprises the sintered cemented carbide. 8. The valve seat of claim 5 , wherein the valve seat mating surface is at least partially formed of the sintered cemented carbide. 9. The valve seat of claim 8 , wherein the sintered cemented carbide of the valve mating surface is mechanically worked. 10. The valve seat of claim 8 , wherein the sintered cemented carbide of the valve mating surface is in the form of an inlay ring. 11. The valve seat of claim 1 further comprising a shoulder between the first section and second section. 12. The valve seat of claim 11 , wherein the ring at least partially covers the shoulder. 13. The valve seat of claim 1 , wherein the first section and second section are formed of sintered cemented carbides of differing composition. 14. The valve seat of claim 13 , wherein the sintered cemented carbide of the second section has higher hardness and/or wear resistance than the sintered cemented carbide of the first section. 15. The valve seat of claim 1 , wherein the second section is formed of sintered cemented carbide having a compositional gradient along thickness of the second section. 16. The valve seat of claim 1 , wherein the first section is formed of metal or alloy and the second section is formed of sintered cemented carbide. 17. The valve seat of claim 1 , wherein the first and second sections have an unequal stress condition. 18. The valve seat of claim 9 , wherein the sintered cemented carbide of the valve mating surface has an average surface roughness of 1-15 R a . 19. A valve assembly for use in a fluid end comprising: a valve in reciprocating contact with a valve seat, the valve seat comprising a first section for insertion into a fluid passageway of the fluid end and a second section extending longitudinally from the first section, the second section having a compressive stress condition and an outer diameter greater than outer diameter of the first section and comprising a frusto-conical valve mating surface, wherein the second section is encased in a ring imparting the compressive stress condition to the second section and the first section comprises an outer surface for engaging the fluid passageway. 20. The valve assembly of claim 19 , wherein the first section and the second section comprise sintered cemented carbide. 21. The valve assembly of claim 19 , wherein the first section is formed of metal or alloy and the second section is formed of sintered cemented carbide. 22. The valve assembly of claim 19 , wherein the ring has a concentric arrangement with an outer surface of the second section. 23. A fluid end comprising: a suction fluid passageway and a discharge fluid passageway; and a valve assembly in at least one of the suction and discharge fluid passageways, the valve assembly comprising a valve in reciprocating contact with a valve seat, the valve seat comprising a first section for insertion into the suction or discharge fluid passageway and a second section extending longitudinally from the first section, the second section having a compressive stress condition and an outer diameter greater than outer diameter of the first section and comprising a frusto-conical valve mating surface, wherein the second section is encased in a ring imparting the compressive stress condition to the second section and the first section comprises an outer surface for engaging the fluid passageway. 24. The fluid end of claim 23 , wherein the compressive stress condition of the second section is substantially equal to a compressive stress condition of the first section. 25. The fluid end of claim 23 , wherein the first and second sections comprise sintered cemented carbide. 26. The fluid end of claim 23 , wherein the second section is formed of sintered cemented carbide, and the valve mating surface has surface roughness (R a ) of 1-15 μm. 27. A valve seat for use in a fluid end comprising: a first section for insertion into a fluid passageway of the fluid end; a second section extending longitudinally from the first section, the second section having an outer diameter greater than outer diameter of the first section and comprising a frusto-conical valve mating surface; and a ring encasing only the second section, wherein the second section comprises a compressive stress condition imparted by the ring. 28. The valve seat of claim 27 , wherein the first and second sections have an unequal stress condition.