Application of Smart Materials in Structural Elements of Pneumatic Vibroexciters

摘要:

文章预览

Pneumatic vibroexciters which consist of smart materials’ structural elements and are operating under autovibration regime were designed. The chamber of vibroexciter actuator with changeable capacity for flowing pressured air made of shape memory alloy (SMA) were presented. Mechanical characteristics of such type vibroactuator were estimated: maximum deformation of structural element with SMA, possible force of martensitic transformation. The result of the research allows to design functional adaptive pneumatic vibroexciters with are suitable for the different purposes of technological processes.

信息:

期刊:

编辑:

Regita Bendikienė and Kazimieras Juzėnas

页数:

40-44

引用:

D. Pauliukaitis and E. Kibirkštis, "Application of Smart Materials in Structural Elements of Pneumatic Vibroexciters", Solid State Phenomena, Vol. 267, pp. 40-44, 2017

上线时间:

October 2017

输出:

价格:

$38.00

* - 通讯作者

[1] X. Ding, K. Kuribayashi, T. Hashida, Development of new micro gas valve composed of a SMA thin film and micro distance sensor, ACTUATOR 2000, 7th International Conference on New Actuators, 19-21 June 2000, Bremen, Germany (2000) 346-350.

[2] J. Hongyu. Impact damage resistance of Shape Memory Alloy hybrid composite structures, Doctoral dissertation, Virginia Polytechnic Institute and State University, Blacksburg, VA (1998).

[3] M. Hafez, F. Khelfaoui, H. Nesnas, N. Chaillet, Monolithic SMA large surface with ahihg-density of micro actuators for tacticle displays, ACTUATOR 2004, 9th International Conference on New Actuators, 14-16 June 2004, Bremen, Germany (2004).

[4] L. Stupelis, E. Kibirkštis, R. Liaudinskas, A. Dabkevičius, Engeering calculation methods of SM element deformation, ACTUATOR 2000, 7th International Conference on New Actuators, 19-21 June 2000, Bremen, Germany (2000) 571-575.

[5] M. Kamali, S.A. Jazayeri, F. Najafi, K. Kawashima, T.  Kagawa, Integrated nozzle - flapper valve with piezoelectric actuator and isothermal chamber: a feedback linearization multi control device, J. Mech. Sci. Technol. 30(5) (2016) 2293-2301.

DOI: https://doi.org/10.1007/s12206-016-0438-5

[6] D. Pauliukaitis, E. Kibirkštis, K. Ragulskis, Problems of precise vibromechanics and vibroengineering, Vibroengineering Procedia (8). JVE International Ltd., Kaunas, Lithuania (2016) 377-385.