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Micro-bending sensor made from polydimethylsiloxane

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Warianty tytułu
PL
Mikroczujnik ugięcia wykonany z polydimethylsiloxanu
Języki publikacji
EN
Abstrakty
EN
The article describes the process of manufacturing micro-bending sensors from polydimethylsiloxane and the checking of their function on the basis of damping behaviour. We tested three manufactured alternatives and from the results we determined coefficients for the calculation of the mass of weight on the assumption that the level of damping is known. We also tested the micro-bending sensors in practice as a walking detector, we can imagine similar uses for the sensor because it is compact, reliable, simple to produce, resistant to unfavorable conditions and cheap.
PL
W artykule opisano konstrukcję czujnika ugięcia wykonanego z polydimethylsiloxanu. Zbadano trzy alternatywne konstrukcje i określono masę obliczeniowoą przy założeniu że poziom tłumienia jest znany. Zbadano też praktyczne zastosowanie czujnika jako detektora kroków.
Rocznik
Strony
4--8
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
  • VSB - Technical university of Ostrava, Faculty of Civil Engineering, Department of Department of Geotechnics and Underground Engineering, Ludvíka Podéště 1875/17, 708 33 Ostrava, Czech Republic, martin.novak.st@vsb.cz
autor
  • VSB - Technical university of Ostrava, Faculty of Civil Engineering, Department of Department of Geotechnics and Underground Engineering, Ludvíka Podéště 1875/17, 708 33 Ostrava, Czech Republic, jan.jargus@vsb.cz
autor
  • VSB - Technical university of Ostrava, Faculty of Civil Engineering, Department of Department of Geotechnics and Underground Engineering, Ludvíka Podéště 1875/17, 708 33 Ostrava, Czech Republic, jan.nedoma@vsb.cz
  • VSB - Technical university of Ostrava, Faculty of Civil Engineering, Department of Department of Geotechnics and Underground Engineering, Ludvíka Podéště 1875/17, 708 33 Ostrava, Czech Republic, vladimir.vasinek@vsb.cz
  • VSB - Technical university of Ostrava, Faculty of Civil Engineering, Department of Department of Geotechnics and Underground Engineering, Ludvíka Podéště 1875/17, 708 33 Ostrava, Czech Republic, radek.martinek@vsb.cz
  • VSB - Technical university of Ostrava, Faculty of Civil Engineering, Department of Department of Geotechnics and Underground Engineering, Ludvíka Podéště 1875/17, 708 33 Ostrava, Czech Republic, martin.stolarik @vsb.cz
Bibliografia
  • [1] I. D. Johnston, D. K. McCluskey, C. K. L. Tan, M. C. Tracey, “Mechanical characterization of bulk Sylgard 184 for microfluidics and microengineering,“ Journal of Micromechanics and Microengineering, vol. 24, art. no. 035017, 2014.
  • [2] J. Jargus, et. al., “Detection of magnetic field with use of optical sensors,“ Proceedings of SPIE - The International Society for Optical Engineering, vol. 10654, art. no. 1065419, 2018.
  • [3] J. Jargus, et. al., “Proceedings of SPIE - The International Society for Optical Engineering,“ vol. 10654, art. no. 1065418, 2018.
  • [4] J. Jargus, et. al., “Analysis of using PDMS polymer as the sensors of the pressure or weight,“ Proceedings of SPIE - The International Society for Optical Engineering, vol. 10440, art. no. 104400J, 2017.
  • [5] H. Gao, et. al., “Highly-sensitive optical fiber temperature sensors based on PDMS/silica hybrid fiber structures,“ Sensors and Actuators, A: Physical, vol. 284, pp. 22-27 , 2018.
  • [6] Y. Li, et. al., “Optical hydrogen sensor based on PDMS-formed double-C type cavities with embedded Pt-loaded WO3/SiO2,“ Sensors and Actuators, B: Chemical, vol. 276, pp. 23-30, 2018.
  • [7] J. Nedoma, et. al., Non-invasive fiber optic probe encapsulated into PolyDiMethylSiloxane for measuring respiratory and heart rate of the human body,” Advances in Electrical and Electronic Engineering, vol. 15, pp. 93-100, 2017.
  • [8] M. Fajkus, et. al., “A non-invasive multichannel hybrid fiberoptic sensor system for vital sign monitoring,” Sensors (Switzerland), vol. 17, art. no. 111, 2017.
  • [9] J. Nedoma, et. al., “Encapsulation of FBG sensor into the PDMS and its effect on spectral and temperature characteristics,” Advances in Electrical and Electronic Engineering, vol. 14, pp. 460-466, 2016.
  • [10] J. Nedoma, M. Fajkus, V. Vasinek, “Influence of PDMS encapsulation on the sensitivity and frequency range of fiberoptic interferometer,” Proceedings of SPIE - The International Society for Optical Engineering, vol. 9994, art. no. 99940P, 2016.
  • [11] M. Fajkus, J. Nedoma, P. Siska, V. Vasinek, “FBG sensor of breathing encapsulated into polydimethylsiloxane,” Proceedings of SPIE - The International Society for Optical Engineering, vol. 9994, art. no. 99940N, 2016.
  • [12] C. Y. Chang, et. al., ” Flexible Localized Surface Plasmon Resonance Sensor with Metal–Insulator–Metal Nanodisks on PDMS Substrate,” Scientific Reports, vol. 8, art. no. 11812, 2018.
  • [13] J. Vitasek, et. al., “Illumination and communication characteristics of white light created by laser excitation of YAG:Ce phosphor powders,” Optical Materials, vol. 83, pp. 131-137, 2018.
  • [14] C. W. Sher, et. al., “Large-area, uniform white light LED source on a flexible substrate,” Optics Express, vol. 23, art. no. A1167A1178, 2015.
  • [15] J. Jia, et. al., “Highly Elastic and Flexible Phosphor Film for Flexible LED Lighting and Display Applications,” Faguang Xuebao/Chinese Journal of Luminescence, vol. 39, pp. 14931502, 2017.
  • [16] T. Güner, D. Köseoğlu, M. M. Demir, “Multilayer design of hybrid phosphor film for application in LEDs,” Optical Materials, vol. 60, pp. 422-430, 2016.
  • [17] H. Y. Lin, et. al., “Large area lighting applications with organic dye embedded flexible film,” Proceedings of SPIE - The International Society for Optical Engineering, vol. 9383, art. no. 93830N, 2015.
  • [18] Y. Li, P. Tao, R. W. Siegel, L. S. Schadler, “Multifunctional silicone nanocomposites for advanced LED encapsulation,“ Materials Research Society Symposium Proceedings, vol. 1547, pp. 161-166, 2013.
  • [19] L. C. Chen, W. W. Lin, J. W. Chen, “Fabrication of GaN-Based White Light-Emitting Diodes on Yttrium Aluminum GarnetPolydimethylsiloxane Flexible Substrates,“ Advances in Materials Science and Engineering, vol. 2015, art. no. 537163, 2015.
  • [20] S. W. Allison, F. Sabri, P. Parajuli, “Exploration of thin polymer films for phosphor thermometry,“ Advances in Technology to Support End User Mission - Proceedings of the 2016 Joint Conference/Symposium of the Society for Machinery Failure Prevention Technology and the International Society of Automation 2016, code 122447, 2016.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-75a7d16d-bb81-4972-9f81-fe6b3a9fbc83
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