Arun Kumar Ramanathan successfully defended his Ph.D. dissertation titled “Flexible piezoelectric sensing systems for large bandwidth surface-mounted and embedded applications” on July 14, 2021. Arun’s committee consisted of Profs. Marcelo Dapino (advisor), Hanna Cho, and Renee Zhao.
Month: August 2021
>>”Metal structures embedded with piezoelectric PVDF sensors using ultrasonic additive manufacturing” appeared in Manufacturing Letters
Abstract
Traditional manufacturing approaches to embed active materials, such as piezoelectrics, into metals can be problematic due to their high process temperatures or long curing times of the adhesives utilized to bond the active component to the metal. This paper presents the development and characterization of
aluminum embedded with a piezoelectric polyvinylidene fluoride (PVDF) sensor using a low temperature, solid-state metal joining process called ultrasonic additive manufacturing (UAM). The embedded sensor is subjected to a pre-compression that is empirically optimized by varying the depth of the pocket and tape foils welded above the sensor, thus eliminating reliance on a bonding medium to mechanically couple the metal and the sensor. The technology presented in this study could enable rapid fabrication of functionalized metal structures that can be used in non-destructive testing, energy harvesting, and load monitoring applications<
A. RAMANATHAN, M.B. GINGERICH, L.M. Headings, and M.J. Dapino, “Metal structures embedded with piezoelectric PVDF sensors using ultrasonic additive manufacturing,” Manufacturing Letters, 2021, ISSN 2213-8463. https://doi.org/10.1016/j.mfglet.2021.08.001