How to cite this paper
Ennawaoui, C., Lifi, H., Hajjaji, A., Elballouti, A., Laasri, S & Azim, A. (2019). Mathematical modeling of mass spring’s system: Hybrid speed bumps application for mechanical energy harvesting.Engineering Solid Mechanics, 7(1), 47-58.
Refrences
Abbasi, A. (2013). Application of piezoelectric materials and piezoelectric network for smart roads. International Journal of Electrical and Computer Engineering, 3(6), 857.
Belouadah, R., Seveyrat, L., Guyomar, D., Guiffard, B., & Belhora, F. (2016). Magnetoelectric coupling in Fe3O4/P (VDF-TrFE) nanocomposites. Sensors and Actuators A: Physical, 247, 298-306.
Chakhchaoui, N., Ennamiri, H., Hajjaji, A., Eddiai, A., Meddad, M., & Boughaleb, Y. (2017). Theoretical modeling of piezoelectric energy harvesting in the system using technical textile as a support. Polymers for Advanced Technologies, 28(9), 1170-1178.
Eddiai, A., Meddad, M., Sbiaai, K., Boughaleb, Y., Hajjaji, A., & Guyomar, D. (2013). A new technique for maximizing the energy harvested using electrostrictive polymer composite. Optical Materials, 36(1), 13-17.
El Fatnani, F. Z, Guyomar, D., Belhora, F., Mazroui, M. H., Boughaleb, Y., & Hajjaji, A. (2016a). A new concept to harvest thermal energy using pyroeletric effect and Rayleigh-Benard convections. The European Physical Journal Plus, 131(8), 252.
El Fatnani, F. Z., Guyomar, D., Mazroui, M. H., Belhora, F., & Boughaleb, Y. (2016b). Optimization and improvement of thermal energy harvesting by using pyroelectric materials. Optical Materials, 56, 22-26.
Ennawaoui, C., Hajjaji, A., Azim, A., & Boughaleb, Y. (2016). Theoretical modeling of power harvested by piezo-cellular polymers. Molecular Crystals and Liquid Crystals, 628(1), 49-54.
Ennawaoui, C., Lifi, H., Hajjaji, A., Azim, A. E., Elballouti, A., & Rguiti, M. (2018 b). New System to Harvest Road Energy Using Piezoelectric Polymers. Sensor Letters, 16(1), 41-47.
Ennawaoui, C., Lifi, H., Hajjaji, A., Laasri, S., Belhora, F., & Azim, A. (2018 a). Piezo-Cellular Polymers for Energy Harvesting in Longitudinal and Transverse Vibration Modes. Journal of Advanced Physics, 7(1), 26-32.
Jandaghian, A., Jafari, A., & Rahmani, O. (2014). Vibrational response of functionally graded circular plate integrated with piezoelectric layers: An exact solution. Engineering Solid Mechanics, 2(2), 119-130.
Kaewkongka, T. (2016). Leak detection and localization using acoustic emission technique. Engineering Solid Mechanics, 4(1), 17-24.
Le, M. Q., Belhora, F., Cornogolub, A., Cottinet, P. J., Lebrun, L., & Hajjaji, A. (2014). Enhanced magnetoelectric effect for flexible current sensor applications. Journal of Applied Physics, 115(19), 194103.
Lifi, H., Ennawaoui, C., Hajjaji, A., Touhtouh, S., Benjelloun, M., & Azim, A. (2017). Elaboration, Characterization and Thermal Shock Sensor Application of Pyroelectric Ceramics PMN–xPT. Sensor Letters, 15(9), 751-757.
Manbachi, A., & Cobbold, R. S. (2011). Development and application of piezoelectric materials for ultrasound generation and detection. Ultrasound, 19(4), 187-196.
Nassit, M., & Berbia, H. (2015, November). Non-invasive technologies of fetal heart rate diagnosis. In Complex Systems (WCCS), 2015 Third World Conference on (pp. 1-5). IEEE.
Pirisi, A., Gruosso, G., & Zich, R. E. (2009, March). Novel modeling design of three phase tubular permanent magnet linear generator for marine applications. In Power Engineering, Energy and Electrical Drives, 2009. POWERENG'09. International Conference on (pp. 78-83). IEEE.
Pirisi, A., Mussetta, M., Grimaccia, F., & Zich, R. E. (2013). Novel speed-bump design and optimization for energy harvesting from traffic. IEEE Transactions on Intelligent Transportation Systems, 14(4), 1983-1991.
Rajala, S., & Lekkala, J. (2010). PVDF and EMFi sensor materials—A comparative study. Procedia Engineering, 5, 862-865.
Rajala, S., & Lekkala, J. (2012). Film-type sensor materials PVDF and EMFi in measurement of cardiorespiratory signals—A review. IEEE Sensors Journal, 12(3), 439-446.
Sakai, Y. (2008). Innovation on Energy Power Technology (13) Development of Geothermal Power Generating Facilities. IEEJ Transactions on Power and Energy, 128, 1427-1430.
Sborikas, M., Ealo, J. L., & Wegener, M. (2016). Effects of temperature on electromechanical properties and ultrasonic performance of piezoelectric cellular PP films. Sensors and Actuators A: Physical, 245, 1-9.
Talebi, N., Sadrnia, M. A., & Darabi, A. (2015). Fault detection of wind energy conversion systems using recurrent neural networks. International Journal of Sustainable Energy, 34(1), 52-70.
Tanaka, K., & Kawabe, K. (2016). Critical Generation Evaluation Using Hybrid Energy Function Method. Electrical Engineering in Japan, 196(4), 11-20.
Wang, J., Shi, Z., Xiang, H., & Song, G. (2015). Modeling on energy harvesting from a railway system using piezoelectric transducers. Smart Materials and Structures, 24(10), 105017.
Wang, J., Qin, L., Wei, P., & Tang, L. (2018). Modeling and analysis of multilayer piezoelectric-elastic spherical transducers. Journal of Intelligent Material Systems and Structures, 1045389X18770868.
Belouadah, R., Seveyrat, L., Guyomar, D., Guiffard, B., & Belhora, F. (2016). Magnetoelectric coupling in Fe3O4/P (VDF-TrFE) nanocomposites. Sensors and Actuators A: Physical, 247, 298-306.
Chakhchaoui, N., Ennamiri, H., Hajjaji, A., Eddiai, A., Meddad, M., & Boughaleb, Y. (2017). Theoretical modeling of piezoelectric energy harvesting in the system using technical textile as a support. Polymers for Advanced Technologies, 28(9), 1170-1178.
Eddiai, A., Meddad, M., Sbiaai, K., Boughaleb, Y., Hajjaji, A., & Guyomar, D. (2013). A new technique for maximizing the energy harvested using electrostrictive polymer composite. Optical Materials, 36(1), 13-17.
El Fatnani, F. Z, Guyomar, D., Belhora, F., Mazroui, M. H., Boughaleb, Y., & Hajjaji, A. (2016a). A new concept to harvest thermal energy using pyroeletric effect and Rayleigh-Benard convections. The European Physical Journal Plus, 131(8), 252.
El Fatnani, F. Z., Guyomar, D., Mazroui, M. H., Belhora, F., & Boughaleb, Y. (2016b). Optimization and improvement of thermal energy harvesting by using pyroelectric materials. Optical Materials, 56, 22-26.
Ennawaoui, C., Hajjaji, A., Azim, A., & Boughaleb, Y. (2016). Theoretical modeling of power harvested by piezo-cellular polymers. Molecular Crystals and Liquid Crystals, 628(1), 49-54.
Ennawaoui, C., Lifi, H., Hajjaji, A., Azim, A. E., Elballouti, A., & Rguiti, M. (2018 b). New System to Harvest Road Energy Using Piezoelectric Polymers. Sensor Letters, 16(1), 41-47.
Ennawaoui, C., Lifi, H., Hajjaji, A., Laasri, S., Belhora, F., & Azim, A. (2018 a). Piezo-Cellular Polymers for Energy Harvesting in Longitudinal and Transverse Vibration Modes. Journal of Advanced Physics, 7(1), 26-32.
Jandaghian, A., Jafari, A., & Rahmani, O. (2014). Vibrational response of functionally graded circular plate integrated with piezoelectric layers: An exact solution. Engineering Solid Mechanics, 2(2), 119-130.
Kaewkongka, T. (2016). Leak detection and localization using acoustic emission technique. Engineering Solid Mechanics, 4(1), 17-24.
Le, M. Q., Belhora, F., Cornogolub, A., Cottinet, P. J., Lebrun, L., & Hajjaji, A. (2014). Enhanced magnetoelectric effect for flexible current sensor applications. Journal of Applied Physics, 115(19), 194103.
Lifi, H., Ennawaoui, C., Hajjaji, A., Touhtouh, S., Benjelloun, M., & Azim, A. (2017). Elaboration, Characterization and Thermal Shock Sensor Application of Pyroelectric Ceramics PMN–xPT. Sensor Letters, 15(9), 751-757.
Manbachi, A., & Cobbold, R. S. (2011). Development and application of piezoelectric materials for ultrasound generation and detection. Ultrasound, 19(4), 187-196.
Nassit, M., & Berbia, H. (2015, November). Non-invasive technologies of fetal heart rate diagnosis. In Complex Systems (WCCS), 2015 Third World Conference on (pp. 1-5). IEEE.
Pirisi, A., Gruosso, G., & Zich, R. E. (2009, March). Novel modeling design of three phase tubular permanent magnet linear generator for marine applications. In Power Engineering, Energy and Electrical Drives, 2009. POWERENG'09. International Conference on (pp. 78-83). IEEE.
Pirisi, A., Mussetta, M., Grimaccia, F., & Zich, R. E. (2013). Novel speed-bump design and optimization for energy harvesting from traffic. IEEE Transactions on Intelligent Transportation Systems, 14(4), 1983-1991.
Rajala, S., & Lekkala, J. (2010). PVDF and EMFi sensor materials—A comparative study. Procedia Engineering, 5, 862-865.
Rajala, S., & Lekkala, J. (2012). Film-type sensor materials PVDF and EMFi in measurement of cardiorespiratory signals—A review. IEEE Sensors Journal, 12(3), 439-446.
Sakai, Y. (2008). Innovation on Energy Power Technology (13) Development of Geothermal Power Generating Facilities. IEEJ Transactions on Power and Energy, 128, 1427-1430.
Sborikas, M., Ealo, J. L., & Wegener, M. (2016). Effects of temperature on electromechanical properties and ultrasonic performance of piezoelectric cellular PP films. Sensors and Actuators A: Physical, 245, 1-9.
Talebi, N., Sadrnia, M. A., & Darabi, A. (2015). Fault detection of wind energy conversion systems using recurrent neural networks. International Journal of Sustainable Energy, 34(1), 52-70.
Tanaka, K., & Kawabe, K. (2016). Critical Generation Evaluation Using Hybrid Energy Function Method. Electrical Engineering in Japan, 196(4), 11-20.
Wang, J., Shi, Z., Xiang, H., & Song, G. (2015). Modeling on energy harvesting from a railway system using piezoelectric transducers. Smart Materials and Structures, 24(10), 105017.
Wang, J., Qin, L., Wei, P., & Tang, L. (2018). Modeling and analysis of multilayer piezoelectric-elastic spherical transducers. Journal of Intelligent Material Systems and Structures, 1045389X18770868.