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Inverse piezoelectric effect as a foundation for innovative applications.

Authors

Hryhorii Baranovskyi

Rubric:Technical sciences in general
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This article examines the application of the inverse piezoelectric effect as a fundamental physical principle for the development of innovative engineering applications in precision mechanics, automation systems, and advanced electromechanical devices. Particular attention is devoted to the design and development of piezoelectric motors intended for high-precision positioning systems, miniature actuators, and next-generation lighting and intelligent transportation technologies.

The publication analyzes the engineering principles of piezoelectric motors operating on the basis of the inverse piezoelectric effect and considers their advantages in achieving high positioning accuracy, compact dimensions, low weight, and enhanced operational reliability. The study further examines the influence of structural design solutions on the functional characteristics of precision stepper motors and other miniature electromechanical systems.

Special emphasis is placed on the application of advanced composite materials as structural elements of piezoelectric motors. The article discusses the contribution of specialized composite materials to reducing the weight and dimensions of electromechanical devices while improving their mechanical strength, durability, dynamic characteristics, and manufacturing flexibility.

The publication further examines prospective directions for the development of innovative applications based on the inverse piezoelectric effect, including intelligent automation systems, precision mechanical equipment, miniaturized electromechanical devices, advanced lighting technologies, and intelligent automotive transportation systems. The study concludes that the integration of inverse piezoelectric technologies with modern composite materials represents a promising direction for the development of next-generation precision engineering products and high-performance electromechanical systems.

Keywords

composite material
Inverse piezoelectric effect
piezoelectric motor
piezoelectric motor rotor.

Authors

Hryhorii Baranovskyi

Rubric:Technical sciences in general
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References:

Burov, et al. Piezoelectric Step Motor. United States Patent No. US 6,242,849, issued June 5, 2001.

Uchino, et al. Piezoelectric Motor and Method of Exciting an Ultrasonic Traveling Wave to Drive the Motor. United States Patent No. US 7,095,160, issued August 22, 2006.

Moteki, et al. Rotary Drive Device. United States Patent No. US 7,116,037, issued October 3, 2006.

Vyshnevskyy, et al. Method for Operating a Piezoelectric Motor, and Piezoelectric Motor Comprising a Stator in the Form of a Hollow-Cylindrical Oscillator. United States Patent No. US 7,218,031, issued May 15, 2007.

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