Fluid end assembly

The invention claimed is: 1. A fluid end, comprising: a fluid routing plug having a first annular shoulder and an outer intermediate surface, wherein a stress relief cutout is defined on a surface of the fluid routing plug between the first annular shoulder and the outer intermediate surface; a housing disposed adjacent to the fluid routing plug and having a second annular shoulder; and a insert defining a front surface abutting the first annular shoulder and a rear surface abutting the second annular shoulder, wherein the front surface and rear surface are interconnected by an inner intermediate surface and an outer intermediate surface, the front surface and the inner intermediate surface connected by a first beveled surface, wherein the first beveled surface is disposed proximate the stress relief cutout. 2. The fluid end of claim 1 , wherein: the stress relief cutout is defined by: an initial contact point between the front surface of the hardened insert and the first annular shoulder; an angled section, extending away from the hardened insert from the initial contact point; and a radiused section extending from the angled section to the outer intermediate surface. 3. The fluid end of claim 2 in which the angled section extends away from the front surface at an angle of five degrees. 4. The fluid end of claim 2 in which each of the outer intermediate surface and the angled section are tangent to a circle defined by the radiused section. 5. The fluid end of claim 2 in which the first beveled surface of the hardened insert is defined by: a linear cross-sectional portion; a first radiused portion disposed between the inner intermediate surface of the hardened insert and the linear cross-sectional portion; and a second radiused portion disposed between the front surface of the hardened insert and the linear cross-sectional portion. 6. The fluid end of claim 5 in which the second radiused portion is defined by a larger radius than the first radiused portion. 7. The fluid end of claim 1 in which the outer intermediate surface of the fluid routing plug defines an annular groove, and comprising: a seal disposed within the annular groove, the seal abutting the inner intermediate surface of the hardened insert. 8. The fluid end of claim 2 in which the outer intermediate surface of the fluid routing plug defines an annular groove, and comprising: a seal disposed within the annular groove, the seal abutting the inner intermediate surface of the hardened insert. 9. The fluid end of claim 8 in which no contact occurs between the hardened insert and the fluid routing plug between the initial contact point and the seal. 10. The fluid end of claim 1 , wherein the housing is characterized as a second housing section, wherein fluid end is defined by a longitudinal axis and opposed front and rear surfaces joined by an outer intermediate surface, and comprising: a first housing section joined to the second housing section by a plurality of fasteners; wherein: a horizontal bore interconnects the front and rear surfaces, the horizontal bore extending along the longitudinal axis of the fluid end; a discharge bore interconnects the horizontal bore and the outer intermediate surface of the fluid end; and an intake bore interconnects the horizontal bore and the outer intermediate surface of the fluid end; in which the first housing section surrounds at least a portion of the fluid routing plug. 11. The fluid end of claim 1 in which: the stress relief cutout is defined by: an initial contact point between the front surface of the hardened insert and the first annular shoulder; a first radiused section, extending away from the hardened insert from the initial contact point; a planar section, extending from the first radiused section; and a second radiused section, extending from the planar section to the outer intermediate surface. 12. The fluid end of claim 11 in which the first radiused section is convex and the second radiused section in concave. 13. The fluid end of claim 11 in which the outer intermediate surface is tangent to the second radiused section. 14. The fluid end of claim 1 in which: the stress relief cutout is defined by: an initial contact point between the front surface of the hardened insert and the first annular shoulder; a first radiused section, extending away from the hardened insert from the initial contact point; and a second radiused section, extending from the first radiused section to the outer intermediate surface; in which the first radiused section is convex and the second radiused section is concave. 15. The fluid end of claim 14 in which the outer intermediate surface is tangent to the second radiused section. 16. The fluid end of claim 14 further comprising a third radiused section, in which the third radiused section is convex and defines a transition between the second radiused section and the outer intermediate surface. 17. The fluid end of claim 1 in which: the stress relief cutout is defined by: an initial contact point between the front surface of the hardened insert and the first annular shoulder; a first linear section, perpendicular to the first annular shoulder and extending away from the hardened insert at the initial contact point; a second linear section, extending from the first linear section; a third linear section, extending from the second linear section at an angle, wherein the third linear section transitions from the second linear section at a first radiused section and wherein the third linear section transitions from the outer intermediate surface at a second radiused section. 18. The fluid end of claim 17 in which the angle is 45 degrees. 19. The fluid end of claim 1 in which: the stress relief cutout is defined by: an initial contact point between the front surface of the hardened insert and the first annular shoulder; a first bevel disposed on the hardened insert, wherein the first bevel is disposed at an angle from the front surface. 20. The fluid end of claim 19 in which the angle is 5 degrees. 21. The fluid end of claim 19 in which the outer intermediate surface of the fluid routing plug defines an annular groove, and comprising: a seal disposed within the annular groove, the seal abutting the inner intermediate surface of the hardened insert. 22. The fluid end of claim 21 in which no contact occurs between the hardened insert and the fluid routing plug between the initial contact point and the seal.