Non-linear temperature-dependent curvature of a phase change composite bimorph beam
Files
Accepted manuscript
Date
2017
Authors
Blonder, Greg
Version
Published version
Accepted manuscript
Accepted manuscript
OA Version
Citation
Greg Blonder. 2017. "Non-linear temperature-dependent curvature of a phase change composite bimorph beam." Materials Research Express, v. 4, Issue 6, pp. 065704 - 065704. https://doi.org/10.1088/2053-1591/aa7662
Abstract
Bimorph films curl in response to temperature. The degree of curvature typically varies in proportion to the difference in thermal expansion of the individual layers, and linearly with temperature. In many applications, such as controlling a thermostat, this gentle linear behavior is acceptable. In other cases, such as opening or closing a valve or latching a deployable column into place, an abrupt motion at a fixed temperature is preferred. To achieve this non-linear motion, we describe the fabrication and performance of a new bilayer structure we call a 'phase change composite bimorph (PCBM)'. In a PCBM, one layer in the bimorph is a composite containing small inclusions of phase change materials. When the inclusions melt, their large (generally positive and >1%) expansion coefficient induces a strong, reversible step function jump in bimorph curvature. The measured jump amplitude and thermal response is consistent with theory, and can be harnessed by a new class of actuators and sensors.