Restorable antennae apparatus and system for well logging

What is claimed is: 1. An apparatus, comprising: an antenna assembly having a coil of electrically conductive wire beneath or adjacent to a substantially electrically non-conductive sacrificial element, wherein the sacrificial element is replaceable or restorable by application of a restorative material without removal of the coil from the antenna assembly; a sub on which the antenna assembly is mounted, the sub having an exterior wall and two or more sets of recesses in the exterior wall, wherein each set of recesses is spaced along a longitudinal axis of the sub and each recess within any particular set of recesses is angularly distributed about the axis relative to other recesses of that particular set of recesses; a first set of threaded inserts disposed in a first set of recesses located above the antenna assembly, the first set of recesses being selected from the two or more sets of recesses in the exterior wall of the sub, and each of the threaded inserts in the first set of threaded inserts having external threads; a second set of threaded inserts disposed in a second set of recesses located below the antenna assembly, the second set of recesses being selected from the two or more sets of recesses in the exterior wall of the sub, and each of the threaded inserts in the second set of threaded inserts having external threads; a first retainer ring having internal threads complementary to the threaded inserts in the first set of threaded inserts and releasably joined to the first set of threaded inserts; and a second retainer ring having internal threads complementary to the threaded inserts in the second set of threaded inserts and releasably joined to the second set of threaded inserts; thereby releasably securing the antenna assembly to the sub. 2. The apparatus of claim 1 , wherein the sacrificial element comprises a material selected from a group consisting of an E-glass epoxy composite and an S-glass epoxy composite. 3. The apparatus of claim 1 , wherein the sacrificial element comprises high-strength glass fibers, wherein each glass fiber has a diameter in the range of 5 to 25 micrometers. 4. The apparatus of claim 1 , wherein the coil is embedded in a substantially electrically non-conductive material. 5. The apparatus of claim 4 , wherein the coil is wound in a uniform pitch or in a toroidal structure. 6. The apparatus of claim 1 , further comprising: a first electrically conductive lead connected to a first end of the coil; and a second electrically conductive lead connected to a second end of the coil; wherein the first lead and the second lead connect the coil to at least one of a processor, an amplifier, and a power source. 7. The apparatus of claim 1 , wherein the restorative material is a substantially electrically non-conductive material. 8. The apparatus of claim 1 , further comprising a first wear-resistant band and a second wear-resistant band, wherein the coil is beneath the sacrificial element, and the first wear-resistant band and the second wear-resistant band straddle at least a portion of the sacrificial element. 9. The apparatus of claim 1 , further comprising a substantially electrically conductive shield, wherein the coil is adjacent to the sacrificial element and beneath the shield. 10. The apparatus of claim 1 , wherein the coil is adjacent to the sacrificial element and the sacrificial element comprises two or more mated components. 11. The apparatus of claim 1 , further comprising: a first wear-resistant band adjacent to and between an upper end of the antenna assembly and the first retainer ring; and a second wear-resistant band adjacent to and between a lower end of the antenna assembly and the second retainer ring. 12. A method, comprising: providing an antenna assembly having a coil of electrically conductive wire beneath or adjacent to a substantially electrically non-conductive sacrificial element, wherein the sacrificial element is replaceable or restorable by application of a restorative material without removal of the coil from the antenna assembly; a sub on which the antenna assembly is mounted, the sub having an exterior wall and two or more sets of recesses in the exterior wall, wherein each set of recesses is spaced along a longitudinal axis of the sub and each recess within any particular set of recesses is angularly distributed about the axis relative to other recesses of that particular set of recesses; a first set of threaded inserts disposed in a first set of recesses located above the antenna assembly, the first set of recesses being selected from the two or more sets of recesses in the exterior wall of the sub, and each of the threaded inserts in the first set of threaded inserts having external threads; a second set of threaded inserts disposed in a second set of recesses located below the antenna assembly, the second set of recesses being selected from the two or more sets of recesses in the exterior wall of the sub, and each of the threaded inserts in the second set of threaded inserts having external threads; a first retainer ring having internal threads complementary to the threaded inserts in the first set of threaded inserts and releasably joined to the first set of threaded inserts; and a second retainer ring having internal threads complementary to the threaded inserts in the second set of threaded inserts and releasably joined to the second set of threaded inserts; thereby releasably securing the antenna assembly to the sub; operating the antenna assembly in an erosive environment, thereby eroding at least a portion of the sacrificial element; and replacing the eroded sacrificial element or applying the restorative material to the eroded sacrificial element to produce a restored antenna assembly. 13. The method of claim 12 , further comprising conducting further operations with the restored antenna assembly. 14. The method of claim 12 , further comprising: incorporating the sub into a drill string; wherein the operating the antenna assembly in an erosive environment comprises making measurements while the sub is incorporated into the drill string. 15. The method of claim 14 , further comprising conducting operations with the antenna assembly while drilling a borehole. 16. The method of claim 12 , further comprising: connecting a first electrically conductive lead to a first end of the coil; connecting a second electrically conductive lead to a second end of the coil; and connecting the first lead and the second lead to at least one of a processor, an amplifier, and a power source. 17. An apparatus, comprising: an antenna case having a coil of electrically conductive wire embedded in a signal compatible material; an electrically conductive shield substantially circumferentially surrounding the antenna case; and an electrically non-conductive sacrificial element that is neither disposed in nor integral to the shield, but is axially spaced from the coil and has only one end in abutting alignment with the antenna case and the shield. 18. The apparatus of claim 17 , wherein the sacrificial element is replaceable or restorable. 19. The apparatus of claim 17 , further comprising a retainer ring threaded onto threaded inserts carried on a drill collar, one end of the retaining ring being in abutting alignment with another end of the sacrificial element. 20. The apparatus of claim 17 , wherein the sacrificial element comprises two or more mated elements.