Low-Cost and Light-Weight Pressure Sensors Fabricated from BaTiO3-NPs-Doped PVA/PEG Blend
Batool Mohammed, Ahmed Hashim, M Farea, A Abdelghany, A Oraby, A Kausar, P Rani, M Ahamed, K Deshmukh, Y Li, S Tjong, R Li, A Hashim, K Al-Attiyah, S Obaid, K Al-Attiyah, A Hashim, S Obaid, A Hashim, Z Hamad, A Hashim, Q Hadi, A Hashim, N Hamid, A Hashim, Z Hamad, D Hassan, A Hashim, D Hassan, A Hashim, A Kadham, D Hassan, N Mohammad, A Hashim, A Hashim, Q Hadi, H Ahmed, H Abduljalil, A Hashim, I Agool, F Mohammed, A Hashim, B Rabee, A Hashim, N Al-Garah, F Rashid, A Hadi, A Hashim, H Ahmed, H Abduljalil, A Hashim, S Hadi, A Hashim, A Jewad, F Jasim, A Hashim, A Hadi, F Lafta, S Salman, H Ahmed, F Jasim, F Lafta, A Hashim, M Ali, A Hadi, H Abduljalil, A Hashim, A Jewad, Z Al-Ramadhan, A Hashim, A Algidsawi, A Hashim, Z Hamad, Kh, A Al-Attiyah, S Hashim, Obaid, M Habbeb, A Hashim, K Abdul-Raheem, Abidali, B Hussien, A Algidsawi, A Hashim, D Hassan, A Ah-Yasari, A Hazim, A Hashim, H Abduljalil, A Hashim, H Abduljalil, H Ahmed, H Ahmed, A Hashim, H Ahmed, A Hashim, H Abduljalil, A Hadi, A Hashim, D Hassan
Abstract
This work aims to fabricate the new PVA/PEG/BaTiO 3 nanocomposites for pressure sensors having high sensitivity, flexibility and low cost. The structural properties and pressure sensor applications are investigated. The structural properties are studied by means of microscopic images and FTIR analysis. The pressure-sensors' tests based on the PVA/PEG/BaTiO 3 nanocomposites are examined at pressures within the range from 80 bar to 160 bar. The experimental results show that the PVA/PEG/BaTiO 3 nanocomposites have good pressure sensitivity.