Add to ORKGA small, compact, lightweight device was developed using shape memory alloy (SMA) in wire form to actuate a pin-puller that decouples the flanges of two shafts. When the SMA is heated it contracts producing a useful force and stroke. As it cools, it can be reset (elongated in this case) by applying a relatively small force. Resistive heating is accomplished by running a current through the SMA wire for a controlled length of time. The electronics to drive the device are not elaborate or complicated, consisting of a timed current source. The total available contraction is 3 percent of the length of the wire. This device, the engineering properties of the SMA, and the tests performed to verify the design concept are described
This paper proposes the design, construction and performance of a single element based tactile displ...
Shape memory alloys (SMAs) are a unique class of multifunctional materials that have the ability to ...
The article of record may be found at http://iopscience.iop.org/article/10.1088/0964-1726/23/11/1150...
A frequently‐used hold‐and‐release mechanism for spacecraft deployables is the “meltwire” or “burnwi...
A report discusses the development of a kit of mechanisms intended for use aboard future spacecraft ...
A computer program has been created which assists an engineer to develop mechanisms which use Shape ...
The figures depict two miniature mechanisms actuated by strips made of shape-memory alloy (SMA). A t...
A boom latch and release mechanism was designed, manufactured and tested, based on a specification f...
Shape memory alloy (SMA) is being widely used to implement smart concepts such as shape control and ...
Shape memory alloy (SMA) based actuators have a number of attributes which make them useful for robo...
The benefits of replacing space and energy consuming actuators and sensors with so-called “active” m...
The continuous advance in mechatronics has long attracted researchers toward the development of new ...
The continuous advance in mechatronics has long attracted researchers toward the development of new ...
Shape memory alloys are new, functional materials used in actuator applications with their high powe...
In the modern age of miniaturisation, Smart Materials, a type of material that reacts mechanically t...
This paper proposes the design, construction and performance of a single element based tactile displ...
Shape memory alloys (SMAs) are a unique class of multifunctional materials that have the ability to ...
The article of record may be found at http://iopscience.iop.org/article/10.1088/0964-1726/23/11/1150...
A frequently‐used hold‐and‐release mechanism for spacecraft deployables is the “meltwire” or “burnwi...
A report discusses the development of a kit of mechanisms intended for use aboard future spacecraft ...
A computer program has been created which assists an engineer to develop mechanisms which use Shape ...
The figures depict two miniature mechanisms actuated by strips made of shape-memory alloy (SMA). A t...
A boom latch and release mechanism was designed, manufactured and tested, based on a specification f...
Shape memory alloy (SMA) is being widely used to implement smart concepts such as shape control and ...
Shape memory alloy (SMA) based actuators have a number of attributes which make them useful for robo...
The benefits of replacing space and energy consuming actuators and sensors with so-called “active” m...
The continuous advance in mechatronics has long attracted researchers toward the development of new ...
The continuous advance in mechatronics has long attracted researchers toward the development of new ...
Shape memory alloys are new, functional materials used in actuator applications with their high powe...
In the modern age of miniaturisation, Smart Materials, a type of material that reacts mechanically t...
This paper proposes the design, construction and performance of a single element based tactile displ...
Shape memory alloys (SMAs) are a unique class of multifunctional materials that have the ability to ...
The article of record may be found at http://iopscience.iop.org/article/10.1088/0964-1726/23/11/1150...