Shaft assembly for rotary switch

What is claimed is: 1. A shaft assembly for a rotary switch of a propulsion system, comprising: a shaft of the rotary switch, wherein the shaft is made from an electrically non-conductive material, the shaft comprising at least one circumferential groove having a T-shaped cross-section; at least one conductive ring segment made from an electrically conductive material positioned within the circumferential groove, the conductive ring segment having the T-shaped cross-section; and a bonding adhesive positioned between the circumferential groove and the conductive ring segment. 2. The shaft assembly of claim 1 , further comprising at least one non-conductive ring segment made from an electrically non-conductive material, the non-conductive ring segment being positioned within the circumferential groove and having the T-shaped cross-section, wherein the bonding adhesive is positioned between the circumferential groove and the non-conductive ring segment. 3. The shaft assembly of claim 2 , wherein the conductive ring segment and the non-conductive ring segment are circumferentially spaced apart from each other. 4. The shaft assembly of claim 2 , wherein: the conductive ring segment is a first conductive ring segment, the shaft assembly further comprising a second conductive ring segment positioned within the circumferential groove and having the T-shaped cross-section; the non-conductive ring segment is a first non-conductive ring segment, the shaft assembly further comprising a second non-conductive ring segment positioned within the circumferential groove and having the T-shaped cross-section; and the first and second non-conductive rings being positioned between the first and second conductive ring segments on substantially opposing sides of the shaft. 5. The shaft assembly of claim 2 , wherein the shaft further comprises an axial slot extending transversely through the circumferential groove. 6. The shaft assembly of claim 5 , wherein the axial slot is positioned between the conductive ring segment and the non-conductive ring segment. 7. The shaft assembly of claim 1 , wherein the shaft further comprises a first pin receptacle formed in the circumferential groove, and wherein the conductive ring segment comprises a pin configured to engage the first pin receptacle to circumferentially align the conductive ring segment within the circumferential groove. 8. The shaft assembly of claim 7 , further comprising at least one non-conductive ring segment made from an electrically non-conductive material, the non-conductive ring segment being positioned within the circumferential groove and having the T-shaped cross-section, wherein the bonding adhesive is positioned between the circumferential groove and the non-conductive ring segment, and wherein the shaft further comprises a second pin receptacle formed in the circumferential groove, and wherein the non-conductive ring segment comprises a pin configured to engage the second pin receptacle to circumferentially align the non-conductive ring segment in a spaced-apart manner relative to the conductive ring segment. 9. The shaft assembly of claim 1 , wherein the shaft is made solely from the electrically non-conductive material to form a one-piece monolithic construction. 10. The shaft assembly of claim 1 , wherein the shaft is machined from the electrically non-conductive material. 11. The shaft assembly of claim 1 , wherein: the conductive ring segment comprises a radially outer portion and a radially inner portion extending transversely away from the radially outer portion in a radially inward direction to define the T-shaped cross-section of the circumferential groove; the circumferential groove comprising a radially outer portion and a radially inner portion extending transversely away from the radially outer portion of the circumferential groove to define the T-shaped cross-section of the circumferential groove; and the radially outer portion of the conductive ring segment being positioned within the radially outer portion of the circumferential groove and the radially inner portion of the conductive ring segment being positioned within the radially inner portion of the circumferential groove. 12. The shaft assembly of claim 1 , wherein a gap having a uniform thickness is defined between the circumferential groove and the conductive ring segment. 13. The shaft assembly of claim 12 , wherein: the bonding adhesive comprises bond-line control beads; and the uniform thickness of the gap is approximately equal to a diameter of the bond-line control beads. 14. The shaft assembly of claim 1 , wherein the shaft comprises a plurality of circumferential grooves spaced apart axially along the shaft, the shaft assembly comprising a plurality of conductive ring segments each positioned within a respective one of the plurality of circumferential grooves. 15. The shaft assembly of claim 14 , wherein the shaft further comprises a plurality of baffles positioned between the plurality of grooves, the baffles each having a diameter greater than respective diameters of adjacent grooves. 16. The shaft assembly of claim 15 , wherein a first number of the plurality of conductive ring segments comprises a high voltage section of the shaft assembly, and a second number of the plurality of conductive ring segments comprises a low voltage section of the shaft assembly, and wherein a dividing baffle of the plurality of baffles divides the high voltage section and the low voltage section, the dividing baffle having an axial thickness greater than the other of the plurality of baffles. 17. The shaft assembly of claim 16 , wherein the shaft further comprises a circumferential slot formed in the dividing baffle. 18. The shaft assembly of claim 1 , further comprising a first end cap bonded to a first end section of the shaft and a second end cap bonded to a second end section of the shaft, the first and second end caps being made from a metal. 19. An electrical propulsion system, comprising: a rotary switch assembly comprising first, second, third, and fourth electrical contacts and a shaft assembly, the shaft assembly comprising: a shaft machined from an electrically non-conductive material to form a one-piece monolithic construction, the shaft comprising a circumferential groove having a T-shaped cross-section; two conductive ring segments each made from an electrically conductive material, each conductive ring segment being adhesively bonded to the circumferential groove in a circumferentially spaced-apart manner, wherein each conductive ring segment has the T-shaped cross-section; two non-conductive ring segments each made from an electrically non-conductive material, and each non-conductive ring segment being adhesively bonded to the circumferential groove circumferentially between the conductive ring segments, wherein each non-conductive ring segment has the T-shaped cross-section; and wherein the first, second, third, and fourth electrical contacts are electrically contactable with the conductive ring segments and the non-conductive ring segments via rotation of the shaft; a first power supply providing power to the first electrical contact of the rotary switch assembly; a second power supply providing power to the second electrical contact of the rotary switch assembly; a first propulsion system receiving power from the third electrical contact of the rotary switch assembly; and a second propulsion system receiving power from the fourth electrical contact of the rotary switch assembly; wherein the shaft