Seal and method of manufacturing and/or using same

What is claimed is: 1. A seal configured for placement in a gland having an axial gland end formed by a stationary gland surface adapted to seal a dynamic surface that is movable in an axial direction, the seal comprising: a seal body having a first axial seal surface adapted for placement adjacent to the dynamic surface during use, a second axial seal surface, a first radial seal surface, and a second radial seal surface, the seal body being a one piece member comprising a ring, a primary seal, and a loading element each of which forms a non-detachable component of the seal body; the ring having an outer ring surface including a first axial ring surface, the first axial ring surface forming part of the first axial seal surface; the primary seal disposed on the outer ring surface and forming part of the first axial seal surface and forming part of the second axial seal surface, the primary seal forming a dynamic seal configured to engage the dynamic surface during use; the loading element non-detachably disposed on the primary seal and forming part of the second axial seal surface, the loading element being configured to form a static seal on the stationary gland surface formed by the axial gland end when the seal is inserted into the gland, wherein the loading element, in combination with the primary seal, is adapted to continuously maintain the dynamic seal when the seal body is positioned about the dynamic surface, wherein the primary seal comprises an abrasion resistant material that is not elastomeric, the ring is formed of rigid material, and the loading element is formed of a chemically resistant elastomeric material; wherein the loading element forms a saw tooth profile along the second axial seal surface when the seal body is viewed in radial cross section. 2. The seal of claim 1 , wherein the loading element is separated from the second radial seal surface by the primary seal. 3. The seal of claim 1 , wherein at least one channel is defined by the primary seal along the first axial seal surface. 4. The seal of claim 1 , wherein the primary seal includes an elongated portion that extends generally axially away from the ring and terminates in an enlarged head to form the dynamic seal. 5. The seal of claim 4 , wherein a first channel is defined by the primary seal along the first axial seal surface that does not form part of the elongated portion nor the enlarged head and a second channel is defined by the elongated portion of the primary seal along the first axial surface. 6. The seal of claim 1 , wherein a plurality of channels are formed in the loading element along the second axial seal surface. 7. The seal of claim 1 , wherein the seal body is configured such that when the seal is under axial compression, the loading element exerts an increased pressure on the static seal and on the dynamic seal. 8. The seal of claim 1 , wherein a first volume of the cavity is preferably between approximately five percent (5%) and approximately twenty percent (20%) of a second volume of a remainder of the seal body. 9. The seal of claim 8 , wherein the first volume of the cavity is preferably between approximately seven percent (7%) and approximately twelve percent (12%) of the second volume of the remainder of the seal body. 10. A seal configured for placement in a gland having an axial gland end formed by a stationary gland surface adapted to seal a dynamic surface that is movable in an axial direction, the seal comprising: a seal body having a first axial seal surface adapted for placement adjacent to the dynamic surface during use, a second axial seal surface, a first radial seal surface, and a second radial seal surface, the seal body being a one piece member comprising a ring, a primary seal, and a loading element each of which forms a non-detachable component of the seal body; the ring having an outer ring surface including a first axial ring surface, the first axial ring surface forming part of the first axial seal surface; the primary seal disposed on the outer ring surface and forming part of the first axial seal surface and forming part of the second axial seal surface, the primary seal forming a dynamic seal configured to engage the dynamic surface during use; the loading element non-detachably disposed on the primary seal and forming part of the second axial seal surface, the loading element being configured to form a static seal on the stationary gland surface formed by the axial gland end when the seal is inserted into the gland, wherein the loading element, in combination with the primary seal, is adapted to continuously maintain the dynamic seal when the seal body is positioned about the dynamic surface, wherein the primary seal comprises an abrasion resistant material that is not elastomeric, the ring is formed of rigid material, and the loading element is formed of a chemically resistant elastomeric material; wherein the loading element and the dynamic seal of the primary seal are configured to jointly form a cavity in the seal body along part of the first axial seal surface and the first radial seal surface, the cavity being configured to provide room for thermal expansion of the loading element during use; wherein a cutout is formed in the loading element between the first radial seal surface and the second axial seal surface, the cutout and the cavity being configured such that when the seal is viewed in radial cross section both the cutout and the cavity have approximately the same diameter. 11. The seal of claim 10 , wherein the static seal is formed by a first lip surface and a second lip surface that meet at an apex to form an initial engagement point of contact for the static seal, the static seal being configured such that an angle between the first lip surface and the second lip surface is between approximately fifty-five degrees (55°) and approximately eighty-five degrees (85°) when the seal is viewed in radial cross section. 12. The seal of claim 10 , wherein the loading element is separated from the second radial seal surface by the primary seal. 13. The seal of claim 10 , wherein at least one channel is defined by the primary seal along the first axial seal surface. 14. The seal of claim 10 , wherein the primary seal includes an elongated portion that extends generally axially away from the ring and terminates in an enlarged head to form the dynamic seal. 15. The seal of claim 10 , wherein a first channel is defined by the primary seal along the first axial seal surface that does not form part of the elongated portion nor the enlarged head and a second channel is defined by the elongated portion of the primary seal along the first axial surface. 16. The seal of claim 10 , wherein a first volume of the cavity is preferably between approximately five percent (5%) and approximately twenty percent (20%) of a second volume of a remainder of the seal body. 17. The seal of claim 10 , wherein the first volume of the cavity is preferably between approximately seven percent (7%) and approximately twelve percent (12%) of the second volume of the remainder of the seal body.