期刊
INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES
卷 214, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijmecsci.2021.106927
关键词
Giant magnetostrictive ultrasonic system; Temperature stability; Complete resonance; Contactless power system; Terfenol-D
资金
- National Natural Science Foundation of China [51761145103, 51875311]
- Shenzhen Foundational Research Project (Subject Layout) [JCYJ20160428181916222]
Rotary ultrasonic machining is improved with a temperature-stable and complete-resonance separated rotary giant magnetostrictive ultrasonic system, achieving much better ultrasonic vibration stability and complete resonance compared to conventional systems.
Rotary ultrasonic machining is regarded as a superior machining method for hard and brittle materials. It utilizes ultrasonic tool vibration to improve the material machinability, resulting in reduced cutting force and improved machining efficiency. The temperature stability and resonance quality of the ultrasonic system are critical for the reliable generation of ultrasonic vibration. This study presents a temperature-stable and complete-resonance separated rotary giant magnetostrictive ultrasonic (SRGU) system with novelly designed mechanical structures to improve energy transmission and heat dissipation. A theoretical analysis was performed to demonstrate the design principle of the SRGU system. By abolishing the contactless power system of fixed and rotary parts used in the conventional rotary ultrasonic system, and by using a unique incomplete shell, design methods of the mechanical structure, magnetic circuit, and excitation coil of the SRGU system were proposed. A prototype of the SRGU system was then fabricated and tested to verify the feasibility and efficacy of the proposed design methods. The experimental results demonstrated that the SRGU worked well with much-improved ultrasonic vibration stability and better complete resonance as compared to the conventional ultrasonic system. It was found to work with an ultrasonic amplitude of 10 mu m for a continual 9 h with a temperature increase of only 3 degrees C.
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