A wind turbine blade lifting device having a length, a width and a height and is suitable for lifting and handling a wind turbine blade or a part of a wind turbine blade, also having a length, a width and a height, where the lifting device has a chassis with at least one set of connection for coupling to a lifting apparatus, and a mechanism for engaging a wind turbine blade or blade part. Also, a method for installing at least a part of a wind turbine blade, e.g. a full wind turbine blade or an inner blade part for a partial pitch wind turbine blade having an inner blade part and an outer blade part.

A scraper tool for deburring an edge of an aircraft turboshaft engine casing is arranged to be mounted in a milling device. The scraper tool includes a body including, on a first end, a connection for the milling device and, on a second end, a deburring module including a turning lathe platelet including at least one cutting edge arranged so as to deburr the casing edge. The deburring module includes a guide adapted to contact the edge to be deburred so as to follow the profile of the edge to be deburred without modifying the orientation of the turning lathe platelet.

This housing is a cylindrical housing including a bearing-member mounting portion provided at least one position on the inner circumferential surface, on which bearing-member mounting portion a bearing member is mounted; mounting legs provided at least two vertical positions on the outer circumferential surface; and chucking portions to be chucked by a chuck mechanism of a machining apparatus during machining, provided on the outer circumferential surface, at least three positions in the circumferential direction, corresponding to the position where the bearing-member mounting portion is provided.

A containment assembly for use in a turbine engine includes a fan case formed from a composite material. The fan case includes a forward end, an aft end, and an opening defined through the fan case between the forward and aft ends. The containment assembly further includes a structural attachment member formed from a metallic material and coupled to the fan case. The structural attachment member is positioned within the opening in the fan case and is configured to receive at least one fastener to couple a component to the structural attachment member.

Embodiments of a combustor for a gas turbine engine are provided herein. In some embodiments, a combustion chamber for a gas turbine engine comprising may include a combustor having an inner volume defined at least partially by a front wall, wherein the wall comprises a plurality of facets each having a through hole fluidly coupled to the inner volume, and wherein the plurality of facets are oriented such that an axis of each of the plurality of facets is offset from a central axis of the combustor by an angle.

The invention relates to a composite annular casing for a low-pressure compressor of a turbo machine, including a wall of generally circular form or in a circular arc; a mounting flange extending radially from one side of the wall, forming an edge together with the wall; a main fibrous reinforcement (38) extending in a continuous manner along the wall and the flange and forming an angled portion and rounded in the area of the edge; an auxiliary fibrous reinforcement (56) extending along the edge; and a matrix. The auxiliary reinforcement (56) comprises a core extending along the edge in such a way as to occupy the volume between the edge and the angled portion of the main reinforcement (38). The invention also relates to a turbo machine comprising a composite annular casing, as well as to a method of manufacturing a composite annular casing of a turbo machine.

A fan section for a gas turbine engine includes a fan hub having blade slots for receiving a root of a fan blade. A lock ring is configured to move rotatably from an unlocked position to a locked position for securing the blade root in the blade slot. A nose cone is secured to the lock ring, and thereby secured to the fan section.

A turbine rotor includes: a rotor shaft part; a plurality of blades secured to an outer periphery of the rotor shaft part; and a seal plate configured to be fitted into a groove and configured to seal off a flow of gas in an axial direction, the groove being defined in a platform of one of the blades so as to be recessed toward an outer side in a radial direction and to extend in a peripheral direction. A blind tool hole into which a removing tool can be inserted is defined in an outside surface of the seal plate opposite an inside surface that faces a blade root of the one of the blades.

A turbine exhaust case (28) comprises a one-piece fairing (120) defining an air-flow path through the turbine exhaust case, and a multi-piece frame (100). The multi-piece frame is disposed through and around the one-piece vane fairing to support a bearing load, and comprises an inner ring (104), an outer ring (102), a plurality of covers (110), and a plurality of radial struts (106). The outer ring is disposed concentrically outward of the inner ring, and has hollow bosses (114) with strut apertures (SA) at vane locations. The covers are secured to the hollow bosses. The radial struts pass through the one-piece vane fairing and through apertures in the outer angled ring, and are radially fastened to the inner ring and the flat caps.

A method includes providing a ceramic matrix composite (CMC) seal arc segment that has radially inner and outer sides, attaching an abradable layer on the radially outer side of the CMC seal arc segment, providing a carrier to support the CMC seal arc segment, the carrier including a ridge, and sliding the CMC seal arc segment relative to the carrier such that during the sliding the ridge cuts a groove into the abradable layer, the ridge remaining disposed in the groove to thereby provide a labyrinth seal that partitions the cooling cavity between the carrier and the CMC seal arc segment into sub-cavities.