Selfactuating

Self-actuating describes devices or systems that initiate motion, operation, or response automatically without external actuation commands. In engineering, self-actuation relies on internal energy storage or intrinsic environmental stimuli to trigger actuation. Such systems differ from externally controlled actuators that require signals or power from a controller or operator. Self-actuation can be passive, relying on changes in temperature, pressure, chemical environment, or other conditions, or active, using a built-in energy source or energy conversion element.

Common mechanisms include stored mechanical energy (springs), pressurized fluids or gases, thermal expansion, phase transitions in

Typical examples include safety and relief valves that open when pressure rises above a threshold, thermostatic

Advantages include simplicity, inherent fail-safety, and reduced control complexity; limitations include limited tunability, potential for unintended

See also: Actuator, Self-powered device, Smart material, Autonomous system.