Piezoelectric sensors are used in many structural health monitoring (SHM) methods to interrogate the condition of the structure to which the sensors are affixed or embedded. Among SHM methods utilizing thin wafer piezoelectric sensors, embedded ultrasonics is seen as a promising approach to assess condition of space structures. If SHM is to be implemented in space vehicles, it is imperative to determine the effects of the extreme space environment on piezoelectric sensors in order to discern between actual structural damage and environmental effects. The near-Earth space environment comprises extreme temperatures, vacuum, atomic oxygen, microgravity, micrometeoroids and debris, and significant amounts of radiation. Gamma radiation can be used to emulate the space radiation environment. In this contribution, the effects of gamma radiation on piezoelectric ceramic sensors are investigated for equivalent gamma radiation exposure of more than a year on low Earth orbit (LEO). Two experiments were conducted in which cobalt-60 was utilized as the source of radiation. Freely supported piezoelectric sensors were exposed to increasing levels of gamma radiation. Impedance data were collected for the sensors after each radiation exposure. The results show that piezoelectric ceramic material is affected by gamma radiation. Over the course of increasing exposure levels to cobalt-60, the impedance frequencies of the free sensors increased with each absorbed dose. The authors propose that the mechanism causing these impedance changes is due to gamma rays affecting piezoelectric, electric, and elastic constants of the piezoelectric ceramic. A theoretical model describing observed effects is presented.
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February 2018
Research-Article
Investigating Effect of Space Radiation Environment on Piezoelectric Sensors: Cobalt-60 Irradiation Experiment
Mary Anderson,
Mary Anderson
Mem. ASME
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Mary.Anderson@student.nmt.edu
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Mary.Anderson@student.nmt.edu
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Andrei N. Zagrai,
Andrei N. Zagrai
Mem. ASME
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Andrei.Zagrai@nmt.edu
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Andrei.Zagrai@nmt.edu
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David J. Westpfahl,
David J. Westpfahl
Physics Department,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: David.Westpfahl@nmt.edu
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: David.Westpfahl@nmt.edu
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Dale Henneke
Dale Henneke
Materials Department,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Dale.Henneke@nmt.edu
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Dale.Henneke@nmt.edu
Search for other works by this author on:
Mary Anderson
Mem. ASME
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Mary.Anderson@student.nmt.edu
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Mary.Anderson@student.nmt.edu
Andrei N. Zagrai
Mem. ASME
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Andrei.Zagrai@nmt.edu
Department of Mechanical Engineering,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Andrei.Zagrai@nmt.edu
Joshua D. Daniel
David J. Westpfahl
Physics Department,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: David.Westpfahl@nmt.edu
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: David.Westpfahl@nmt.edu
Dale Henneke
Materials Department,
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Dale.Henneke@nmt.edu
New Mexico Institute of Mining and Technology,
Socorro, NM 87801
e-mail: Dale.Henneke@nmt.edu
1Corresponding author.
Manuscript received June 5, 2017; final manuscript received August 10, 2017; published online September 29, 2017. Editor: Tribikram Kundu.
ASME J Nondestructive Evaluation. Feb 2018, 1(1): 011007-011007-11 (11 pages)
Published Online: September 29, 2017
Article history
Received:
June 5, 2017
Revised:
August 10, 2017
Citation
Anderson, M., Zagrai, A. N., Daniel, J. D., Westpfahl, D. J., and Henneke, D. (September 29, 2017). "Investigating Effect of Space Radiation Environment on Piezoelectric Sensors: Cobalt-60 Irradiation Experiment." ASME. ASME J Nondestructive Evaluation. February 2018; 1(1): 011007–011007–11. https://doi.org/10.1115/1.4037684
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