An airfoil arrangement for a gas turbine engine may include a support device using a shape memory alloy to support and control the airfoil. The support device may be formed as part of a fan blade. The arrangement may be configured to reduce overall weight and dimensions of the gas turbine engine.

A seating assembly comprises a calf rest coupled to a seat base and having a body that comprises a first trough that extends from a first exterior peak to an interior peak and a second trough that extends from a second exterior peak to the interior peak. The seating assembly also comprises a wire that extends across the first trough from the first exterior peak to the interior peak, the wire being operable between an at rest condition and a contracted condition, wherein movement of the wire from the at rest condition to the contracted condition moves a portion of the wire between the first exterior peak and the interior peak away from a bottom of the first trough. The seating assembly further comprises a controller that prompts electrical current to be supplied to the wire to move the wire from the at rest condition to the contracted condition.

A seating assembly comprises a calf rest coupled to a seat base and having a body that comprises a first trough that extends from a first exterior peak to an interior peak and a second trough that extends from a second exterior peak to the interior peak. The seating assembly also comprises a wire that extends across the first trough from the first exterior peak to the interior peak, the wire being operable between an at rest condition and a contracted condition, wherein movement of the wire from the at rest condition to the contracted condition moves a portion of the wire between the first exterior peak and the interior peak away from a bottom of the first trough. The seating assembly further comprises a controller that prompts electrical current to be supplied to the wire to move the wire from the at rest condition to the contracted condition.

An actuator for a vehicle seat can be configured to prevent overstress of a shape memory alloy (SMA) wire. The actuator can include a first body member and a second body member pivotably connected to each other. The actuator can include an overstress post and an overstress contact plate operatively connected to the overstress post. Thus, movement of the overstress post causes movement of the overstress contact plate. The actuator can include an overstress contact pin. The actuator can include an SMA wire operatively connected to one of the body members and to the overstress post. When activated, the SMA wire can shrink, causing one of the body members to pivot relative to the other body member and causing the overstress contact plate to move toward the overstress contact pin. If the overstress contact plate contacts the overstress contact pin, the SMA wire can be deactivated.

An airfoil arrangement for a gas turbine engine may include a support device using a shape memory alloy to support and control the airfoil. The support device may be formed as part of a fan blade. The arrangement may be configured to reduce overall weight and dimensions of the gas turbine engine.

A seating assembly comprises a calf rest coupled to a seat base and having a body that comprises a first trough that extends from a first exterior peak to an interior peak and a second trough that extends from a second exterior peak to the interior peak. The seating assembly also comprises a wire that extends across the first trough from the first exterior peak to the interior peak, the wire being operable between an at rest condition and a contracted condition, wherein movement of the wire from the at rest condition to the contracted condition moves a portion of the wire between the first exterior peak and the interior peak away from a bottom of the first trough. The seating assembly further comprises a controller that prompts electrical current to be supplied to the wire to move the wire from the at rest condition to the contracted condition.

SMA actuators and related methods are described. One embodiment of an actuator includes a base; a plurality of buckle arms; and at least a first shape memory alloy wire coupled with a pair of buckle arms of the plurality of buckle arms. Another embodiment of an actuator includes a base and at least one bimorph actuator including a shape memory alloy material. The bimorph actuator attached to the base.

An actuator for a vehicle seat can be configured to prevent overstress of a shape memory alloy (SMA) wire. The actuator can include a first body member and a second body member pivotably connected to each other. The actuator can include an overstress post and an overstress contact plate operatively connected to the overstress post. Thus, movement of the overstress post causes movement of the overstress contact plate. The actuator can include an overstress contact pin. The actuator can include an SMA wire operatively connected to one of the body members and to the overstress post. When activated, the SMA wire can shrink, causing one of the body members to pivot relative to the other body member and causing the overstress contact plate to move toward the overstress contact pin. If the overstress contact plate contacts the overstress contact pin, the SMA wire can be deactivated.

A shape memory actuator including: a monolithic shape memory alloy; a shape memory effect (SME) section of the alloy, configured for actuation; a pseudo-elastic (PE) section of the alloy, configured as a sensor for enabling position sensing; and a control system configured to control the actuator by controlling a current through at least the SME section based on the sensor results of the PE section. A method of controlling a shape memory actuator, the method including: applying a predetermined current through the actuator; measuring a first resistance of the SME section; measuring a second resistance of the PE section; calculating an estimated position of the actuator based on the first and second resistances; and adapting the current applied to the actuator based on the estimated position. A method of manufacturing a shape memory actuator, the method including: laser processing; thermomechanically treating; and training the shape memory alloy.

The present invention relates in a first aspect to a balanced pressure two-zone fluidic valve (10) with a shape memory alloy control element wherein control of the valve (10) is achieved by deformation of a deformable element (14) upon actuation of a shape memory alloy wire (15) to move a plunger (16), and in a second aspect to the use of said valve for controlling a fluid flow.