A fixture assembly includes an inner diameter wall displaced from a main body by a first end wall with a convex surface and a second end wall with a concave surface. A method of machining a gas turbine engine component with an Abrasive Flow Media (AFM) process includes restricting a flow of media adjacent to an outer sidewall of an outer airfoil to be generally equal between each of a multiple of airfoils of the component.

Invention is a cleaning assembly for cleaning a tire curing mould comprising a turntable (20) mounted on a base plate (12); a cleaning arm (50) extending on the turntable (20) in a movable manner and configured to blow dry ice, and an insulation hood (60) surrounding the cleaning arm (50) wherein the base plate (12) is having an adapter support (16) configured to be gradually widen or narrow for being adapted to the insulation hoods with different diameters on the base plate.

Invention is a cleaning machine for tire curing sidewall (80) that comprises a basket (10), a rotational base (20) which mounted into thereof, a nozzle (60) provided in a movable manner on the rotational base (20), of extending towards the open side of the basket (10) and having an intake (63) connected to inlet (62) in a fluid transferrable manner. The cleaning machine comprises a rotating joint (40) which mounted radially to the outward direction on the rotational base (20) and a telescopic arm (50) which carrying the nozzle (60) at the free end thereof and which of fastened on a rotational base (20) with the rotating joint (40).

A method of removing a conformal coating from a circuit board coated with said conformal coating, the method comprising: subjecting the circuit board to a jet comprising dry-ice ejected from a nozzle, to remove said conformal coating from said circuit board.

Apparatus for treating parts to remove imperfections in the parts includes: a chamber; a rotatable basket within the chamber; a source of liquified cold fluid; a source of dry ice particles; a programmed controller to control rotation of the basket, activation of the liquified cold fluid, cycle times and activation of the dry ice particles. The controller is programmed to activate rotation of the rotatable basket, activate the source of liquified cold fluid and activate the dry ice particles to treat parts in the rotatable basket.

Apparatus for treating parts to remove imperfections in the parts includes: a chamber; a rotatable basket within the chamber; a source of liquified cold fluid; a source of dry ice particles; a programmed controller to control rotation of the basket, activation of the liquified cold fluid, cycle times and activation of the dry ice particles. The controller is programmed to activate rotation of the rotatable basket, activate the source of liquified cold fluid and activate the dry ice particles to treat parts in the rotatable basket.

A method of post processing a laser peened component to remove a laser remelt layer is proposed. The post processing includes a series of steps including grit blasting, chemical etching and mechanical finishing the component. This will ensure that the mechanical property (i.e., damage tolerance) benefit of laser peening is restored to the surface of the component.

A method of post processing a laser peened component to remove a laser remelt layer is proposed. The post processing includes a series of steps including grit blasting, chemical etching and mechanical finishing the component. This will ensure that the mechanical property (i.e., damage tolerance) benefit of laser peening is restored to the surface of the component.

A sublimating and abrasive media blasting system including an air compressor, a sublimating blasting unit operably connected to the air compressor and configured to supply a sublimating material, and an abrasive media container operably connected to the air compressor and configured to supply an abrasive media. The blasting system also includes a blasting applicator assembly operably connected to the abrasive media container and to the sublimating blasting unit such that the blasting applicator receives the sublimating material and the abrasive media. The blasting applicator assembly includes an applicator operably connected to the sublimating blasting unit, a first trigger configured to control a flow of the sublimating material and a second trigger configured to control a flow of the abrasive media, an injector, and a nozzle.

A sublimating and abrasive media blasting system including an air compressor, a sublimating blasting unit operably connected to the air compressor and configured to supply a sublimating material, and an abrasive media container operably connected to the air compressor and configured to supply an abrasive media. The blasting system also includes a blasting applicator assembly operably connected to the abrasive media container and to the sublimating blasting unit such that the blasting applicator receives the sublimating material and the abrasive media. The blasting applicator assembly includes an applicator operably connected to the sublimating blasting unit, a first trigger configured to control a flow of the sublimating material and a second trigger configured to control a flow of the abrasive media, an injector, and a nozzle.