Stress reduction in hydrostatic cradle bearing

What is claimed is: 1. A cradle bearing for use with a swash plate in a piston pump assembly, the cradle bearing comprising: a bearing outer end surface; a bearing inner end surface disposed opposite the bearing outer end surface and spaced from the bearing outer end surface by a bearing width; a bearing concave inner surface extending from the bearing outer end surface to the bearing inner end surface; and a bearing convex outer surface disposed opposite the bearing concave inner surface and extending from the bearing outer end surface to the bearing inner end surface, the bearing convex outer surface comprising: a housing engaging surface extending from the bearing outer end surface toward the bearing inner end surface, wherein the cradle bearing has an engagement thickness from the bearing concave inner surface to the housing engaging surface of the bearing convex outer surface; an undercut surface extending from the bearing inner end surface toward the bearing outer end surface to a point of transition with the housing engaging surface, wherein the cradle bearing has an undercut thickness from the bearing concave inner surface to the undercut surface of the bearing convex outer surface that is less than the engagement thickness of the cradle bearing; wherein the swash plate has a swash plate outer end surface and a swash plate convex surface extending inwardly from the swash plate outer end surface to a swash plate inner edge and having a complimentary shape to the bearing concave inner surface for receipt therein to facilitate rotational motion of the swash plate relative to the cradle bearing; wherein the swash plate convex surface has a convex surface width from the swash plate outer end surface to the swash plate inner edge, the housing engaging surface has a housing engaging width from the bearing outer end surface to the point of transition, and the undercut surface has an undercut width from the bearing inner end surface to the point of transition; and wherein the housing engaging width and the undercut width are determined relative to the convex surface width so that the swash plate inner edge engages the bearing concave inner surface at a point opposite the undercut surface of the bearing convex outer surface. 2. The cradle bearing of claim 1 , wherein the housing engaging width has a value that is approximately equal to 85.4% of the bearing width. 3. The cradle bearing of claim 1 , wherein the engagement thickness is constant across the housing engaging width from the bearing outer end surface to the point of transition. 4. The cradle bearing of claim 1 , wherein the undercut thickness is constant across the undercut width from the bearing inner end surface to the point of transition. 5. The cradle bearing of claim 1 , wherein the bearing convex outer surface comprises a transition portion at the point of transition between the housing engaging surface and the undercut surface, wherein the transition portion extends from the housing engaging surface to the undercut surface and perpendicular to the housing engaging surface and the undercut surface. 6. The cradle bearing of claim 1 , wherein the bearing convex outer surface comprises a transition portion at the point of transition between the housing engaging surface and the undercut surface, wherein the transition portion has a transition curved surface as the transition portion extends from the housing engaging surface to the undercut surface. 7. The cradle bearing of claim 1 , wherein the bearing concave inner surface and the bearing convex outer surface are circular arcs having a common center of curvature. 8. A piston pump assembly for a piston pump, comprising: a piston housing having a pair of oppositely disposed housing concave surfaces; a swash plate having a pair of oppositely disposed swash plate convex surfaces, each of the pair of oppositely disposed swash plate convex surfaces corresponding to one of the pair of oppositely disposed housing concave surfaces; a pair of cradle bearings with each of the pair of cradle bearings corresponding to and disposed between one of the pair of oppositely disposed swash plate convex surfaces and a corresponding housing concave surface to facilitate rotational motion of the swash plate relative to the piston housing, each of the pair of cradle bearings having a bearing concave inner surface having a complimentary shape to the pair of oppositely disposed swash plate convex surfaces, a housing engaging surface disposed opposite the bearing concave inner surface by a cradle bearing thickness and having a complimentary shape to the pair of oppositely disposed housing concave surfaces, and an undercut surface disposed opposite the bearing concave inner surface by an undercut thickness and extending from a bearing inner end surface toward a bearing outer end surface to a point of transition with the housing engaging surface, wherein the undercut thickness is less than the cradle bearing thickness to define a gap between the undercut surface and the corresponding housing concave surface; wherein each of the pair of oppositely disposed swash plate convex surfaces extends inwardly from a corresponding swash plate outer end surface to a corresponding swash plate inner edge; wherein each swash plate convex surface has a convex surface width from the corresponding swash plate outer end surface to the corresponding swash plate inner edge, the housing engaging surface of each cradle bearing has a housing engaging width from the bearing outer end surface to the point of transition, and the undercut surface of each of the pair of cradle bearings has an undercut width from the bearing inner end surface to the point of transition; and wherein the housing engaging width and the undercut width are determined relative to the convex surface width so that the corresponding swash plate inner edge engages the bearing concave inner surface at a point opposite the undercut surface. 9. The piston pump assembly of claim 8 , wherein the bearing concave inner surface and the housing engaging surface for each cradle bearing are circular arcs having a common center of curvature. 10. The piston pump assembly of claim 8 , wherein each cradle bearing has a bearing width from the bearing outer end surface to the bearing inner end surface, and wherein the housing engaging width has a value that is approximately equal to 85.4% of the bearing width. 11. The piston pump assembly of claim 8 , wherein the cradle bearing thickness for each of the pair of cradle bearings is constant across the housing engaging width from the bearing outer end surface to the point of transition. 12. The piston pump assembly of claim 8 , wherein the undercut thickness for each cradle bearing is constant across the undercut width from the bearing inner end surface to the point of transition. 13. The piston pump assembly of claim 8 , wherein each cradle bearing comprises a transition portion at the point of transition between the housing engaging surface and the undercut surface, wherein the transition portion extends from the housing engaging surface to the undercut surface and perpendicular to the housing engaging surface and the undercut surface. 14. The piston pump assembly of claim 8 , wherein each cradle bearing comprises a transition portion at the point of transition between the housing engaging surface and the undercut surface, wherein the transition portion has a transition curved surface as the transition portion extends from the housing engaging surface to the undercut surface. 15. A cradle bearing for use with a swash plate in a piston pump assembly, the crad