Various SMA actuators such as wire,

Various SMA actuators such as wire, compression and tension springs and cantilever had been used in both
electrical and thermal actuation systems. Utilizing direct I
2
R heating of electrical current, one of the earliest
volume application was for the remote opening and closing of louvers on automobile fog lights which
provided protection against damage from road debris. Using indirect heating, an SMA device, the
Frangibolt, is used for space deployment [7]. The bolt employs a pre-compressed cylinder which surrounds
the bolt, and when heated, fractures the bolt at a machined notch. Deployment using Frangibolt avoids the
use of explosive devices which are vulnerable to premature activation from electrical storms.
Thermal actuators of SMA are used as both sensors and actuators. An example now in production is a
NiTiCu spring for controlling the opening of the door in a self-cleaning oven. For a period the Daimler
Benz company used a similar spring to control the flow of transmission fluid in an automatic transmission
during the period of initial warm up.
SMA thermal actuators are also used in domestic safety devices. One of the most frequent causes of injury
in the household and in hospitality buildings such as hotels is excessively hot water in the sink, tub and
shower. An antiscald valve is now being produced which employs a small cantilever NiTiCu element
(Figure 10) which, when heated to 48°C, the temperature above which scalding will occur, closes the
valve. The valve automatically reopens when the water temperature is safe [8]. A photograph of an antiscald
shower valve is shown in Figure 11.
An industrial safety valve actuated by a NiTiCu spring is the Firecheck® valve shown in Fig. 12.
Developed originally for the semiconductor industry, the valve when heated to a predetermined
temperature, vents the air valve or manifold which controls the flow of processing gases used in the
manufacture of semiconductors, closing the flow of gases which are either toxic or highly flammable. The
advantage of this design is the ability to check the valve operation and then to reset it for use. In addition
to the semiconductor industry, these valves are finding applications in petroleum and petrochemical plants
where there is constant danger of fire.
Another recent SMA safety device is a thermally activated current interrupt mechanism for protecting high
energy density batteries such as lithium ion cell from uncontrollable temperature increase due to overcharge
or short circuit [9]. As shown in Figure 13, a bent NiTi disc actuator is placed in-between electrical
contacts, which when exposed to over-temperatures regains its flat shape and breaks the electrical pathway.
Although bimetallic actuators can also be used for this application, NiTi actuators offer the advantage for
size miniaturization.