Apparatus and method for locking an acetabular liner to an acetabular cup

The invention claimed is: 1. An orthopaedic implant, comprising: an acetabular bearing having (i) a convex outer surface extending medially from a rim to an apex and (ii) a concave inner surface positioned opposite the outer surface; wherein when viewed in a cross sectional view taken in an anterior-posterior direction, the convex outer surface has a hemispherical surface encompassing the apex and, on each side of the hemispherical surface: (i) a curved lead-in surface, defined by a radius of curvature, connected to the hemispherical surface at a first tangent point and extending laterally away from the hemispherical surface, (ii) a flat flange surface connected to the curved lead-in surface at a second tangent point and extending laterally away from the curved lead-in surface, (iii) a curved relief surface extending laterally away from the flat flange surface, and (iv) a flat tapered surface extending laterally from the curved relief surface to the rim; and wherein (i) a first imaginary line extends along the flat tapered surface and (ii) the curved relief surface is positioned between the concave inner surface and the first imaginary line. 2. The orthopaedic implant of claim 1 , wherein: a third tangent point is defined at an innermost point of the curved relief surface; a first imaginary line segment extends from the first tangent point to the third tangent point; a second imaginary line extends in the anterior-posterior direction and intersects a midpoint of the first imaginary line segment; a first area of cross-section bounded by the first imaginary line segment, the second imaginary line, and the convex outer surface is positioned medially of the second imaginary line; and a second area of cross-section bounded by the first imaginary line segment, the second imaginary line, and the convex outer surface is positioned laterally of the second imaginary line, wherein the second area of cross-section is larger than the first area of cross-section. 3. The orthopaedic implant of claim 1 , wherein the first imaginary line is positioned between the flat flange surface and the concave inner surface. 4. The orthopaedic implant of claim 3 , wherein: the concave inner surface defines a polar axis extending through the apex; the first imaginary line defines a first angle with the polar axis; a second imaginary line extends along the flat flange surface; and the second imaginary line defines a second angle with the polar axis, wherein the second angle is greater than the first angle. 5. The orthopaedic implant of claim 4 , wherein the first angle comprises 5.1 degrees. 6. The orthopaedic implant of claim 4 , wherein the second angle comprises 10 degrees to 14 degrees. 7. The orthopaedic implant of claim 6 , wherein the second angle comprises 12 degrees. 8. The orthopaedic implant of claim 4 , wherein a back edge surface is positioned between the flat flange surface and the curved relief surface. 9. The orthopaedic implant of claim 8 , wherein: a third imaginary line extends along the back edge surface and intersects the second imaginary line; and a right angle is defined between the third imaginary line and the second imaginary line. 10. The orthopaedic implant of claim 1 , further comprising: an acetabular shell component comprising an annular rim and a concave inner wall extending medially from the annular rim, the concave inner wall having a tapered surface configured to engage the tapered surface of the acetabular bearing and a hemispherical surface configured to engage the hemispherical surface of the acetabular bearing; wherein an annular groove is defined in the concave inner wall of the acetabular shell component between the tapered surface and the hemispherical surface, wherein the annular groove is configured to receive the flat flange surface of the acetabular bearing. 11. An orthopaedic implant, comprising: an acetabular bearing having (i) a convex outer surface extending medially from a rim to an apex and (ii) a concave inner surface positioned opposite the outer surface; wherein when viewed in a cross sectional view taken in an anterior-posterior direction, the convex outer surface has a hemispherical surface encompassing the apex and, on each side of the hemispherical surface extending laterally away from the hemispherical surface: (i) a curved lead-in surface connected to the hemispherical surface at a first tangent point, (ii) a flat flange surface connected to the curved lead-in surface at a second tangent point, (iii) a curved relief surface, (iv) a back edge surface connected to the flat flange surface at a third tangent point and to the curved relief surface at a fourth tangent point, and (v) a flat tapered surface extending to the rim; and wherein (i) a first imaginary line extends along the flat tapered surface, (ii) the first imaginary line is positioned between the flat flange surface and the concave inner surface, and (iii) the curved relief surface is positioned between the first imaginary line and the concave inner surface. 12. The orthopaedic implant of claim 11 , wherein: a fifth tangent point is defined at an innermost point of the curved relief surface; a first imaginary line segment extends from the first tangent point to the fifth tangent point; a second imaginary line extends in the anterior-posterior direction and intersects a midpoint of the first imaginary line segment; a first area of cross-section bounded by the first imaginary line segment, the second imaginary line, and the convex outer surface is positioned medially of the second imaginary line; and a second area of cross-section bounded by the first imaginary line segment, the second imaginary line, and the convex outer surface is positioned laterally of the second imaginary line, wherein the second area of cross-section is larger than the first area of cross-section. 13. The orthopaedic implant of claim 11 , wherein: the concave inner surface defines a polar axis extending through the apex; the first imaginary line defines a first angle with the polar axis; a second imaginary line extends along the flat flange surface; and the second imaginary line defines a second angle with the polar axis, wherein the second angle is greater than the first angle. 14. The orthopaedic implant of claim 13 , wherein the second angle comprises 10 degrees to 14 degrees. 15. The orthopaedic implant of claim 14 , wherein the second angle comprises 12 degrees. 16. The orthopaedic implant of claim 13 , wherein the back edge surface is positioned between the flat flange surface and the curved relief surface. 17. The orthopaedic implant of claim 16 , wherein: a third imaginary line extends along the back edge surface and intersects the second imaginary line; and a right angle is defined between the third imaginary line and the second imaginary line.