Inkjet printed resistive strain gages on flexible substrates
Чланак у часопису (Објављена верзија)
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Facta Universitatis - University of Niš
Метаподаци
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In this paper, resistive strain gages designed and fabricated in inkjet printing technology with three different silver nanoparticle inks are presented. Inks have different Ag content (15, 20 or 25 wt%) and solvents (water type or organic type). Strain gages were printed on a 50 µm thick polyimide and 140 µm thick PET-based substrate with different printer types (professional and desktop). All printed sensors have the same size (17 mm × 5 mm). To determine the change of resistance due to bending of the steel beam, tensile tests were performed up to 1500 microstrains. Due to performed cycles of loading and unloading of the steel beam, gauge factor and stability of the response of the strain gages are measured. Resistance change was measured with Keithley SourceMeter 2410. For acquisition of measured data, in-house software tool was developed. Measured gauge factors of the sensors are in the range between 1.07 and 2.03 (depending on a used ink, substrate and printer). Results of this res...earch indicate the strain gages with good GF can be produced even with low-cost equipment, such as desktop printer EPSON C88+ and PET-based substrate.
Кључне речи:
resistive strain gage, inkjet printing, silver nanoparticles, flexible substrateИзвор:
Facta Universitatis - Series: Electronics and Energetics, 2016, 29, 1, 89-100Издавач:
- Facta Universitatis - University of Niš
Финансирање / пројекти:
- Иновативне електронске компоненте и системи базирани на неорганским и органским технологијама уграђени у робе и производе широке потрошње (RS-MESTD-Technological Development (TD or TR)-32016)
Институција/група
Institut za multidisciplinarna istraživanjaTY - JOUR AU - Zlebic, Cedo J. AU - Zivanov, Ljiljana AU - Menicanin, Aleksandar AU - Blaz, Nelu V. AU - Damnjanovic, Mirjana PY - 2016 UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/3118 AB - In this paper, resistive strain gages designed and fabricated in inkjet printing technology with three different silver nanoparticle inks are presented. Inks have different Ag content (15, 20 or 25 wt%) and solvents (water type or organic type). Strain gages were printed on a 50 µm thick polyimide and 140 µm thick PET-based substrate with different printer types (professional and desktop). All printed sensors have the same size (17 mm × 5 mm). To determine the change of resistance due to bending of the steel beam, tensile tests were performed up to 1500 microstrains. Due to performed cycles of loading and unloading of the steel beam, gauge factor and stability of the response of the strain gages are measured. Resistance change was measured with Keithley SourceMeter 2410. For acquisition of measured data, in-house software tool was developed. Measured gauge factors of the sensors are in the range between 1.07 and 2.03 (depending on a used ink, substrate and printer). Results of this research indicate the strain gages with good GF can be produced even with low-cost equipment, such as desktop printer EPSON C88+ and PET-based substrate. PB - Facta Universitatis - University of Niš T2 - Facta Universitatis - Series: Electronics and Energetics T1 - Inkjet printed resistive strain gages on flexible substrates EP - 100 IS - 1 SP - 89 VL - 29 DO - 10.2298/FUEE1601089Z ER -
@article{ author = "Zlebic, Cedo J. and Zivanov, Ljiljana and Menicanin, Aleksandar and Blaz, Nelu V. and Damnjanovic, Mirjana", year = "2016", abstract = "In this paper, resistive strain gages designed and fabricated in inkjet printing technology with three different silver nanoparticle inks are presented. Inks have different Ag content (15, 20 or 25 wt%) and solvents (water type or organic type). Strain gages were printed on a 50 µm thick polyimide and 140 µm thick PET-based substrate with different printer types (professional and desktop). All printed sensors have the same size (17 mm × 5 mm). To determine the change of resistance due to bending of the steel beam, tensile tests were performed up to 1500 microstrains. Due to performed cycles of loading and unloading of the steel beam, gauge factor and stability of the response of the strain gages are measured. Resistance change was measured with Keithley SourceMeter 2410. For acquisition of measured data, in-house software tool was developed. Measured gauge factors of the sensors are in the range between 1.07 and 2.03 (depending on a used ink, substrate and printer). Results of this research indicate the strain gages with good GF can be produced even with low-cost equipment, such as desktop printer EPSON C88+ and PET-based substrate.", publisher = "Facta Universitatis - University of Niš", journal = "Facta Universitatis - Series: Electronics and Energetics", title = "Inkjet printed resistive strain gages on flexible substrates", pages = "100-89", number = "1", volume = "29", doi = "10.2298/FUEE1601089Z" }
Zlebic, C. J., Zivanov, L., Menicanin, A., Blaz, N. V.,& Damnjanovic, M.. (2016). Inkjet printed resistive strain gages on flexible substrates. in Facta Universitatis - Series: Electronics and Energetics Facta Universitatis - University of Niš., 29(1), 89-100. https://doi.org/10.2298/FUEE1601089Z
Zlebic CJ, Zivanov L, Menicanin A, Blaz NV, Damnjanovic M. Inkjet printed resistive strain gages on flexible substrates. in Facta Universitatis - Series: Electronics and Energetics. 2016;29(1):89-100. doi:10.2298/FUEE1601089Z .
Zlebic, Cedo J., Zivanov, Ljiljana, Menicanin, Aleksandar, Blaz, Nelu V., Damnjanovic, Mirjana, "Inkjet printed resistive strain gages on flexible substrates" in Facta Universitatis - Series: Electronics and Energetics, 29, no. 1 (2016):89-100, https://doi.org/10.2298/FUEE1601089Z . .