Seal arrangement with low drag seal gland

The invention claimed is: 1. A seal arrangement, comprising: a first part having a seal gland including a first side surface, a second side surface, and a bottom support surface; a seal located in the seal gland between the first side surface and the second side surface, the seal having an outer sealing surface and an inner support surface that is supported on the bottom support surface of the seal gland, the inner support surface being flat from a first lateral side to a second lateral side of the seal; a second part having a sealing surface against which the outer sealing surface of the seal is pressed; wherein the second part includes a lead-in area configured to compress the seal during assembly of the first and second parts; and a relief area formed in a portion of the bottom support surface of the seal gland, the relief area being configured to receive a resiliently deflected portion of the inner support surface of the seal during assembly, wherein the relief area has a parabolic form in cross-section; wherein the first side surface of the seal gland is positioned adjacent and non-contacting a first side of the seal, the second side surface of the seal gland is positioned adjacent and non-contacting a second side of the seal, and the bottom support surface of the seal gland is positioned adjacent and contacting the inner support surface of the seal. 2. The seal arrangement of claim 1 , wherein the relief area is formed in a medial area of the bottom support surface of the seal gland. 3. The seal arrangement of claim 1 , wherein the inner support surface of the seal extends on both sides of the relief area on the bottom support surface. 4. The seal arrangement of claim 1 , wherein the second part includes a lead-in area configured to compress the seal during assembly of the first and second parts. 5. The seal arrangement of claim 1 , wherein the relief area is formed as a machined cut in the bottom support surface. 6. The seal arrangement of claim 1 , wherein the relief area has a volume that is less than about 15% of a volume of the seal. 7. A method of forming a seal arrangement, the method comprising: providing a first part having a seal gland; forming a relief area in a portion of a bottom support surface of the seal gland; installing a seal in the seal gland, the seal having an outer sealing surface and an inner support surface that is supported on the bottom support surface of the seal gland; installing a second part having a sealing surface against the outer sealing surface of the seal by sliding the first and second parts together relative to one another; and compressing the seal during the installing step such that a resiliently deflected portion of the inner support surface of the seal expands into the relief area during assembly; wherein the second part includes a lead-in-area that compresses the seal during the installing and compressing steps, the lead-in-area is free from contact with the seal after installing the second part on the first part, and the lead-in-area is orientated at a non-perpendicular and non-parallel angle with respect to the sealing surface of the second part; wherein a first side surface of the seal gland is positioned adjacent and non-contacting a first side of the seal, a second side surface of the seal gland is positioned adjacent and non-contacting a second side of the seal, and the bottom support surface of the seal gland is positioned adjacent and contacting the inner support surface of the seal. 8. The method of claim 7 , wherein the relief area is formed in a medial area of the bottom support surface of the seal gland. 9. The method of claim 7 , wherein the inner support surface of the seal extends on both sides of the relief area on the bottom support surface. 10. The method of claim 7 , wherein the relief area has a parabolic form in cross-section. 11. The method of claim 7 , further comprising machining the relief area in the bottom support surface. 12. The method of claim 7 , wherein the relief area has a volume that is less than about 15% of a volume of the seal. 13. The method of claim 7 , wherein the lead-in-area is axially offset from the seal gland after the second part is installed on the first part. 14. The seal arrangement of claim 1 , wherein the seal is a D-ring seal. 15. The method of claim 7 , wherein the seal is a D-ring seal. 16. The seal arrangement of claim 1 , wherein the inner support surface of the seal is located radially between an outside diameter and an inside diameter of the seal gland, and the outer sealing surface is located radially outside the outside diameter of the seal gland. 17. A seal arrangement comprising: a first part having a seal gland including a first side surface, a second side surface, and a bottom support surface; a seal located in the seal gland between the first side surface and the second side surface, the seal having an outer sealing surface and an inner support surface that is supported on the bottom support surface of the seal gland, the inner support surface being flat from a first lateral side to a second lateral side of the seal; a second part having a sealing surface against which the outer sealing surface of the seal is pressed; and a relief area formed in a portion of the bottom support surface of the seal gland, the relief area being configured to receive a resiliently deflected portion of the inner support surface of the seal during assembly; wherein the first side surface of the seal gland is positioned adjacent and non-contacting a first side of the seal, the second side surface of the seal gland is positioned adjacent and non-contacting a second side of the seal, and the bottom support surface of the seal gland is positioned adjacent and contacting the inner support surface of the seal.