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Title of the article

MODERN STATE AND PROSPECTS OF USING PIEZOELECTRIC TRANSDUCERS IN MOBILE MACHINE DESIGN

Authors

BOCHKARYOV Dmitry I., Ph. D. in Eng., Assoc. Prof., Dean of the Civil Engineering Faculty, Belarusian State University of Transport, Gomel, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.

PUPACHOU Dmitry S., Assistant Lecturer of the Department “Machine parts, track and construction machines”, Belarusian State University of Transport, Gomel, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.">This email address is being protected from spambots. You need JavaScript enabled to view it.

In the section GENERAL ISSUES OF MECHANICS
Year 2019 Issue 1 Pages 13–18
Type of article RAR Index UDK 621.87; 681.58 Index BBK  
Abstract

The article describes the current level of piezoelectric transducers development based on ceramics, composite and film materials, their design features, advantages, and disadvantages. On the basis of the noted properties of  piezoelectric components, it is proposed to use them in the design of mechanical engineering products as elements of recuperative energy-saving systems.

Keywords

piezoelectric effect, transducer, energy, machine, mechanism, energy efficiency, recuperation

   
Bibliography
  1. Dovgyalo V.A. Mashiny i oborudovanie dlya soderzhaniya avtomobilnykh dorog: ucheb. posobie [Machines and equipment for the maintenance of roads: study guide]. Gomel, Belorusskiy gosudarstvennyy universitet transporta Publ., 2016. 288 p.
  2. Dovgyalo V.A., Bochkaryov D.I. Avtomatizirovannye sistemy upravleniya putevymi i dorozhno-stroitelnymi mashinami: ucheb. posobie [Automated control systems for track and road-building machines: study guide]. Gomel, Belorusskiy gosudarstvennyy universitet transporta Publ., 2012. 202 p.
  3. Dovgyalo V.A., Bochkaryov D.I. Dorozhno-stroitelnye mashiny. V 2 ch. Ch. 1. Mashiny dlya zemlyanykh rabot: ucheb. posobie [Road building machines. In 2 parts. Pt. 1. Earth moving machines: study guide]. Gomel, Belorusskiy gosudarstvennyy universitet transporta Publ., 2010. 250 p.
  4. Dovgyalo V.A., Bochkaryov D.I. Dorozhno-stroitelnye mashiny. V 2 ch. Ch. 2. Mashiny dlya ustroystva dorozhnykh pokrytiy: ucheb. posobie [Road building machines. In 2 parts. Pt.   2. Paving machines: study guide]. Gomel, Belorusskiy gosudarstvennyy universitet transporta Publ., 2014. 385 p.
  5. Sharapov V.M. Datchiki: sprav. posobie [Sensors: reference guide]. Moscow, Tekhnosfera Publ., 2012. 624 p.
  6. Sharapov  V.M., Musienko  M.P., Sharapova  E.V. Pezoelektricheskie datchiki [Piezoelectric sensors]. Moscow, Tekhnosfera Publ., 2006. 632 p.
  7. Latest cases of new energy systems. JR East Group Sustainability Report 2008, 2008, p. 31.
  8. Hailu Yang, et al. A preliminary study on the highway piezoelectric power supply system. International Journal of Pavement Research and Technology, 2018, vol. 11, no. 2, pp. 168–175.
  9. Briscoe J., Dunn S. Nanostructured Piezoelectric Energy Harvesters. New York, Springer International Publishing, 2014, 58 p.
  10. Svirskaya S.N. Pezokeramicheskoe materialovedenie: ucheb. posobie [Piezoceramic Materials: study guide]. Rostov-na-Donu, Yuzhnyy federalnyy universitet Publ., 2009. 82 p.
  11. Fraden J. Handbook of modern sensors: physics, designs, and applications. New York, Springer, 2004. 589 p.
  12. Chang K.-Ch., Hsien M.-L. Wheel with piezoelectric ring and vehicle having same. Patent USA, no. 8247952 B2, 2012.
  13. Triplett C.G. Vehicular mounted piezoelectric generator. Patent USA, no. 4504761, 1985.
  14. Pressure off when it comes to checking tyres. Automotive Design Magazine, 2013, no. 4, p. 7.
  15. Bhatt A., Nagar Ch., Bhavsar V., Shah Y. Electricity Generation through Piezoelectric Material in Automobile. SSRG International Journal of Mechanical Engineering, 2017, vol. 4, no. 1, pp. 14–17.
  16. The six sense for your drive. Illinois, Tenneco Inc., 2017. 6 p.
  17. Jaehwan K., Byungwoo K. Performance test and improvement of piezoelectric torsional actuators. Smart materials and structures, 2001, no. 8, pp. 750–757.
  18. Sosnicki O., Lhermet N., Claeyssen F. Vibration energy harvesting in aircraft using piezoelectric actuators. ACTUATOR 2006. Proc. 10th International Conference on New Actuators.Bremen, 2006, pp. 968–971.
  19. Petitniot J-L., des Rochettes H-M., Leconte P. Experimental assessment and further development of amplified piezo actuators for active flap devices. ACTUATOR 2002. Proc. 8th International Conference on New Actuators. Bremen, 2002, pp. 296–299.