On 3D printed polyvinylidene fluoride composite-based diaphragmatic hernia sensors

Barwar, Abhishek; Kala, Prateek; Singh, Rupinder

doi:10.1177/08927057241288129

Journal of Thermoplastic Composite Materials

2024

DOI: 10.1177/08927057241288129

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On 3D printed polyvinylidene fluoride composite-based diaphragmatic hernia sensors

Abhishek Barwar,

Prateek Kala,

Rupinder Singh

Abstract: Diaphragmatic hernia (DH) recurrence is a commonly reported disorder among bovines. Recently, studies have been reported using wireless devices (like ultrasonic and radio-frequency (RF) based pressure sensors) to detect DH. But hitherto, little has been reported on using polyvinylidene fluoride (PVDF)-based sensors mounted on the diaphragm of bovine to detect the recurrence of the DH post-surgery. In this work, the PVDF-hydroxyapatite (HAP)- chitosan (CS) composite in the proportion of 90-8-2 (wt.%) was used a… Show more

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2024

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On the design and fabrication of polyvinylidene fluoride-based sensors to detect recurrence of diaphragmatic hernia

Barwar,

Kala,

Singh

2024

Proceedings of the Institution of Mechanical Engineers, Part C:

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Polyvinylidene fluoride (PVDF) bio-sensors have gained potential interest in remote health monitoring of patients using Internet of Things (IoT) technologies. But hitherto, limited studies have reported on the fabrication of PVDF-hydroxyapatite (HAP)-chitosan (CS) based sensors processed through two different processing routes from a process suitability viewpoint to determine the recurrence of diaphragmatic hernia (DH). The sensors fabricated in this study comprise three layers, that is, a substrate (dielectric material), a metallic patch, and a ground plane that works on the microstrip patch antenna (MPA). Two manufacturing approaches have been followed in this study for the fabrication of the dielectric substrate: material extrusion (MEX) and gel-casting. Primarily, PVDF (90%) -HAP (8%) -CS (2%) has been selected for the sample preparation, following that different characterizations have been performed on the chosen composition to ensure its suitability for sensor fabrication. The simulated results were extracted in the form of return loss (S11) versus radiating frequency (fr), specific absorption rate (SAR) field, electric (E), and magnetic (H) field variables. Following that, the substrates were fabricated through the MEX and gel-casting approach, and Cu tape was used to make the conducting parts of the sensor. The sensor’s radio-frequency (RF) behaviour was tested on a vector network analyser (VNA) to obtain the output of S11 versus fr. The RF-characteristic of the sensors fabricated through MEX and gel-casting approaches represent that the sensors designed for dielectric constant (εr) = 9.61 resonate at 2.72 GHz for MEX and 2.67 GHz for gel-casting while possessing the S11of −14.14 and −28.40 dB respectively.

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On the design and fabrication of polyvinylidene fluoride-based sensors to detect recurrence of diaphragmatic hernia

Barwar,

Kala,

Singh

2024

Proceedings of the Institution of Mechanical Engineers, Part C:

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show abstract

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On 3D printed polyvinylidene fluoride composite-based diaphragmatic hernia sensors

Cited by 1 publication

References 27 publications

On the design and fabrication of polyvinylidene fluoride-based sensors to detect recurrence of diaphragmatic hernia

On the design and fabrication of polyvinylidene fluoride-based sensors to detect recurrence of diaphragmatic hernia

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