Effects of conductive phase content on magnetic sensitivity of spiral conductive polymer composite
•The spiral conductive polymer composite has the ability to detect magnetic fields.•Carbon nanotube content of composites can regulate the magnetic sensitivity.•Magnetic sensitivity is analyzed by internal network and magnetic susceptibility.•Magnetic sensitivity depends on the equivalent impedance...
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Veröffentlicht in: | Measurement : journal of the International Measurement Confederation 2024-06, Vol.232, p.114712, Article 114712 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | •The spiral conductive polymer composite has the ability to detect magnetic fields.•Carbon nanotube content of composites can regulate the magnetic sensitivity.•Magnetic sensitivity is analyzed by internal network and magnetic susceptibility.•Magnetic sensitivity depends on the equivalent impedance and induced current.
Flexible magnetic field sensors are essential for small dimensions, excellent precision, and flexibility in narrow gap or pipe environments. A spiral conductive polymer composite has been proposed for magnetic field detection. To investigate how conductive phase content impacts its magnetic sensitivity, the relationship between magnetic flux density and voltage difference/magnetic sensitivity was examined with different carbon nanotube contents (1 wt%∼20 wt%). From the perspectives of the equivalent network and magnetic susceptibility, the voltage difference /magnetic sensitivity of the composite was analysed by varying its carbon nanotube content. The addition of carbon nanotubes creates a contradiction in the magnetic sensitivity caused by internal equivalent impedance or induced current. The experiments demonstrate that the interpolar voltage difference /magnetic sensitivity first increases and then sharply decreases with increasing carbon nanotube content within composites. The optimum carbon nanotube content is about 8 wt%, which can be an optimal sensitive material choice for a flexible magnetic sensor. |
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ISSN: | 0263-2241 1873-412X |
DOI: | 10.1016/j.measurement.2024.114712 |