Sage Journals: Discover world-class research

Abstract

In this paper, a printed multilayer paper substrate microwave sensor array is introduced, offering a novel approach to microwave non-destructive evaluation (NDE) of composite materials. The sensor array is meticulously crafted, comprising five layers of intricately printed sensor elements, a precision-engineered 3D printed sensor holder, and an Arduino-based data acquisition system, collectively forming an integrated system for material assessment. The approach involves illuminating the composite material under investigation into a locally uniform plane wave emitted by a spot-focusing horn antenna. The plane wave scattered by the composite material is interrogated by the printed sensor array with 75 sensor elements distributed across its five layers. Each layer accommodates 15 sensor elements positioned to maximize the measurement coverage. Individual sensor elements are linked to zero-bias Schottky diodes to capture the electric field strength associated with the incident plane wave. Resistive transmission lines and conductive sensor elements in the sensor array were printed with precision using inks with conductivities of 777 and 3300 S/m, respectively, for signal transmission in the array. Preliminary measurements of composite panels with defects indicate the ability of the printed sensor to provide an instantaneous map of local field perturbation in the presence of defects.

Keywords

composites dielectrics electric field inkjet printing microwaves

Get full access to this article

View all access options for this article.

References

Gao

Amineh

Ravan

. Microwave nondestructive testing using an array of near-field sensors. In: 2023 IEEE international symposium on antennas and propagation and USNC-URSI radio science meeting (USNC-URSI), Portland, OR, USA, 2023, pp.885–886.

Suzuki

Kidera

. Radar enhanced contrast source inversion method for microwave nondestructive evaluation. In: 2022 international symposium on antennas and propagation (ISAP), Sydney, Australia, 2022, pp.223–224.

Kalyanasundaram

Arunachalam

. Design fabrication and evaluation of miniaturized passive and conformal screen printed electric field sensor for microwave nondestructive testing. NDT E Int 2016; 81: 28–38.

Drummond

Claytor

Adelman

, et al. Planar near-field electric field sensor array applications facilitated by neural networks. IEEE Sensors J 2021; 21: 21038–21049.

Kumari

Govind

Akhtar

. Microwave subsurface imaging, sensing, and nondestructive testing using metamaterial-inspired planar sensors: microwave imaging using metamaterial-inspired planar sensors. IEEE Microwave Mag 2024; 25: 18–31.

Ding

. Nondestructive testing of composite materials based on microwave time reversal algorithm. In: 2023 international conference on microwave and millimeter wave technology (ICMMT), Qingdao, China, 2023, pp.1–2.

Gimm

Kahng

, et al. Quick SAR measurement system by 2D array E-field sensors. In: 2013 Asia-Pacific microwave conference proceedings (APMC), Seoul, 2013, pp.383–385.

Abou-Elnour

Abo-Elnor

Mohamed

, et al. Modeling of a precise MOS sensor array system for 2D detection of magnetic fields. In: 2006 IEEE international conference on information acquisition, Weihai, 2006, pp.732–736.

Greivenkamp

. Field Guide to Geometrical Optics. SPIE Field Guides vol. FG01. SPIE. ISBN 0-8194-5294-7 (2004).

10.

Kizhekke Pakkathillam

Sivaprakasam

Venkata

, et al. Focal plane characterization of spot focusing horn antennas for free space microwave dielectric NDE. In: 23rd international workshop on electromagnetic non-destructive evaluation (ENDE 2018), Detroit, USA.

11.

Bassen

Smith

. Electric field probes–A review. IEEE Trans Antennas Propag 1983; 31: 710–718.

12.

Ansys Inc . Ansys HFSS: High Frequency Structure Simulator. [Online], https://www.ansys.com/products/electronics/ansys-hfss

Inkjet-printed 2D electric field sensor array for microwave NDE of thin dielectric composites

Abstract

Keywords

Get full access to this article

References