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Radial magnetic bearings (125) of a centrifugal gas compressor (100) may lose power and fail to support the shaft (120) resulting in damage to the shaft (120). Auxiliary bearings (135) may be used to support the shaft (120) during such a failure. A landing guard (140) may be installed as a sacrifici

Radial magnetic bearings (125) of a centrifugal gas compressor (100) may lose power and fail to support the shaft (120) resulting in damage to the shaft (120). Auxiliary bearings (135) may be used to support the shaft (120) during such a failure. A landing guard (140) may be installed as a sacrificial piece between the shaft (120) and the auxiliary bearings (135). Landing guard (140) includes slots (144) that may be used with pins (121) in the shaft (120) to prevent an angular displacement between the landing guard (140) and the shaft (120).

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1. An auxiliary bearing landing guard for a shaft of a centrifugal gas compressor with a radial magnetic bearing, comprising: a landing portion with an axially elongated tubular shape and an exterior landing surface configured to contact the auxiliary bearing when the radial magnetic bearing fails;a

1. An auxiliary bearing landing guard for a shaft of a centrifugal gas compressor with a radial magnetic bearing, comprising: a landing portion with an axially elongated tubular shape and an exterior landing surface configured to contact the auxiliary bearing when the radial magnetic bearing fails;an inner surface located radially inward from the landing surface, the inner surface configured to contact the shaft when the landing guard is installed on the shaft; andan annular flange extending from an aft end of the landing portion having an outer diameter located radially outward from an outer diameter of the landing portion, wherein the flange includes threads. 2. The landing guard of claim 1, further comprising a slot located on the inner surface extending axially from an aft end of the landing guard toward a forward end of the landing guard, the slot configured to receive a pin to prevent angular displacement between the shaft and the landing guard when the landing guard is installed on the shaft. 3. The landing guard of claim 2, wherein the slot extends from the forward end of the landing guard to the aft end of the landing guard. 4. The landing guard of claim 3, wherein the slot has a square cross-section. 5. An auxiliary bearing landing guard for a shaft of a centrifugal gas compressor with a radial magnetic bearing, comprising: a landing portion with an axially elongated tubular shape and an exterior landing surface configured to contact the auxiliary bearing when the radial magnetic bearing fails;an inner surface located radially inward from the landing surface, the inner surface configured to contact the shaft when the landing guard is installed on the shaft; andan annular flange extending from an aft end of the landing portion having an outer diameter located radially outward from an outer diameter of the landing portion,wherein the landing guard comprises a non-ferromagnetic material. 6. The landing guard of claim 5, further comprising a slot located on the inner surface extending axially from an aft end of the landing guard toward a forward end of the landing guard, the slot configured to receive a pin to prevent angular displacement between the shaft and the landing guard when the landing guard is installed on the shaft. 7. The landing guard of claim 6, wherein the slot extends from the forward end of the landing guard to the aft end of the landing guard. 8. The landing guard of claim 6, wherein the slot has a square cross-section. 9. The landing guard of claim 5, wherein a nitride coating is applied to the landing surface. 10. The landing guard of claim 5, wherein the landing guard is manufactured as a single piece. 11. A centrifugal gas compressor, comprising: a shaft having a pin;a radial magnetic bearing having a plurality of windings, anda lamination sleeve, wherein the lamination sleeve is installed to the shaft with an interference fit;an auxiliary bearing; anda landing guard installed to the shaft with an interference fit adjacent the lamination sleeve, the landing guard having a landing portion with an axially elongated tubular shape, and an exterior landing surface configured to contact the auxiliary bearings when the radial magnetic bearing fails,an inner surface located radially inward from the landing surface, the inner surface configured to contact the shaft,a slot located on the inner surface extending axially from an aft end of the landing guard toward a forward end of the landing guard, the slot configured to receive the pin to prevent angular displacement between the shaft and the landing guard, anda flange extending from an aft end of the landing portion having an outer diameter located radially outward from an outer diameter of the landing portion. 12. The centrifugal gas compressor of claim 11, wherein the flange includes threads. 13. The centrifugal gas compressor of claim 11, wherein the shaft has multiple pins and the landing guard includes multiple slots located on the inner surface extending axially from an aft end of the landing guard toward a forward end of the landing guard, each slot configured to receive a respective pin to prevent angular displacement between the shaft and the landing guard. 14. The centrifugal gas compressor of claim 12, wherein the shaft has multiple pins and the landing guard includes multiple slots located on the inner surface extending axially from an aft end of the landing guard toward a forward end of the landing guard, each slot configured to receive a respective pin to prevent angular displacement between the shaft and the landing guard. 15. The centrifugal gas compressor of claim 11, wherein the slot extends from the forward end of the landing guard to the aft end of the landing guard. 16. The centrifugal gas compressor of claim 14, wherein each slot extends from the forward end of the landing guard to the aft end of the landing guard. 17. The centrifugal gas compressor of claim 11, wherein the slot has a square cross-section. 18. The centrifugal gas compressor of claim 16, wherein each slot has a square cross-section. 19. The centrifugal gas compressor of claim 11, wherein the auxiliary bearing comprises an angular contact bearing.