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A blade retention system for retaining blade roots in slots of a rotor hub disk, the rotor blade having a radially outward blade tip requiring surface material removal by grinding to acquire a finished ground surface, having a blade root retention tab with an elongated web of thickness less than the

A blade retention system for retaining blade roots in slots of a rotor hub disk, the rotor blade having a radially outward blade tip requiring surface material removal by grinding to acquire a finished ground surface, having a blade root retention tab with an elongated web of thickness less than the gap between the slot and blade root and with at least two deformable protrusions extending radially to a height exceeding said gap, the protrusions adapted to deform under compression radially inwardly on sliding engagement with the blade root in the slot and to exert a reaction force radially outwardly on the blade root of a magnitude sufficient to secure the blade tip during surface removal grinding of the blade tip against radial displacement and against rotational displacement.

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1. A blade retention system, for use in a rotor assembly including a rotor hub disk having a thickness, a forward face and a rearward face with a peripheral circumferential array of spaced apart blade retention slots extending between the forward and rearward hub faces at a selected broach angle the

1. A blade retention system, for use in a rotor assembly including a rotor hub disk having a thickness, a forward face and a rearward face with a peripheral circumferential array of spaced apart blade retention slots extending between the forward and rearward hub faces at a selected broach angle thereto, each slot having a radially inward floor and side walls adapted for sliding engagement with a blade root of a rotor blade, the root having lateral sides disposed at said broach angle to forward and rearward root surfaces, wherein the blade root has a bottom surface which when engaged in said slot, is radially spaced from and adjacent the slot floor thus defining a gap extending between the forward and rearward hub faces at said selected broach angle, the improvement characterised in that the blade retention system includes: a blade root retention tab having an elongated web having a thickness less than said gap and including: a preformed transverse flange extending from a first end of the web, the web adapted to be disposed in the gap when the web rests on the slot floor to permit sliding engagement of the blade root in the slot, the preformed flange adapted to engage one of the forward and rearward faces of the rotor hub disk; wherein the web of the tab includes at least two deformable protrusions extending radially to a height exceeding said gap, the protrusions adapted to deform on sliding engagement with the blade root in the slot; and wherein the blade root includes a chamfered leading edge.2. A blade retention system according to claim 1 wherein the chamfered leading edge is oriented transverse said broach angle.3. A blade retention system, for use in a rotor assembly including a rotor hub disk having a thickness, a forward face and a rearward face with a peripheral circumferential array of spaced apart blade retention slots extending between the forward and rearward hub faces at a selected broach angle thereto, each slot having a radially inward floor and side walls adapted for sliding engagement with a blade root of a rotor blade, the root having lateral sides disposed at said broach angle to forward and rearward root surfaces, wherein the blade root has a bottom surface which when engaged in said slot, is radially spaced from and adjacent the slot floor thus defining a gap extending between the forward and rearward hub faces at said selected broach angle, the improvement characterised in that the blade retention system includes: a blade root retention tab having an elongated web having a thickness less than said gap and including: a preformed transverse flange extending from a first end of the web, the web adapted to be disposed in the gap when the web rests on the slot floor to permit sliding engagement of the blade root in the slot, the preformed flange adapted to engage one of the forward and rearward faces of the rotor hub disk; wherein the web of the tab includes at least two deformable protrusions extending radially to a height exceeding said gap, the protrusions adapted to deform on sliding engagement with the blade root in the slot; and wherein the blade root includes a trailing edge with a rotor engagement abutment.4. A blade retention system according to claim 3 wherein the rotor engagement abutment comprises two fingers adapted to straddle a second end of the web in an installed position.5. A blade retention system according to claim 4 wherein the second end of the web includes an installation flange bent parallel to the two fingers.6. A method of grinding tips of turbine blades in a rotor assembly, the rotor assembly including a rotor disk and a plurality of turbine blades, the rotor disk having a forward face, a rearward face and a plurality of peripheral slots extending angularly between the forward and rearward faces, each slot having a radially inward slot floor and adapted receive a blade root of a turbine blade, the blade root and slot floor defining a gap therebetween when the blade root is installed in the slot, the gap extending substantially between the forward and rearward faces, the method comprising the steps of:installing a blade root retention tab in the slot between each blade root and each slot floor of the rotor assembly, the tab having an elongated web having a thickness less than said gap and including a preformed transverse flange extending from a first end of the web, the web adapted to be disposed in the gap when the web rests on the slot floor to permit sliding engagement of the blade root in the slot, the preformed flange adapted to engage one of the forward and rearward faces of the rotor hub disk; the web of the tab including at least two deformable protrusions extending radially to a height exceeding said gap, the protrusions adapted to deform on sliding engagement with the blade root in the slot; and grinding the tips of the blades while the protrusions of the retention tabs exert at least two axially spaced apart reaction forces directed radially outwardly on the blade root of a magnitude sufficient to secure the blade root during surface removal grinding of the blade tip, against radial displacement and against rotational displacement in said slot. 7. A method according to claim 6 wherein the two protrusions are symmetrically spaced apart from a midpoint of the web, whereby the blade root is secured against rotation about said midpoint during grinding.8. A method according to claim 6 wherein the protrusions comprise an undulation of the web having a central portion of constant radius of curvature.