Mechanism Analysis of Magnetostrictive Turning for Piston Skirt Processing

Cheng Ying Li; Jin Zhang; Wei Wei

doi:10.4028/www.scientific.net/AMR.189-193.2134

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 189-193Mechanism Analysis of Magnetostrictive Turning for...

Mechanism Analysis of Magnetostrictive Turning for Piston Skirt Processing

Abstract:

The paper presents a turning method by using the magnetostrictive transducer as drive source, this method set up a self-made magnetostrictive tool-post on the CNC lathe. Theoretically, based on the theory analysis of piston skirt varying to oval cross section and middle-convex mold line, this paper expounds the reality of the magnetostrictive turning machining mechanism of middle-convex and varying surface. Experimental results show that this method can not only satisfy the requirements of design, but also simplify workpiece process, establishing theoretical and experimental basis for magnetostrictive material applied to the piston skirt middle-convex and varying surface truning machining.

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Periodical:

Advanced Materials Research (Volumes 189-193)

Pages:

2134-2138

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.189-193.2134

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Online since:

February 2011

Authors:

Cheng Ying Li, Jin Zhang, Wei Wei

Keywords:

Analog Simulation, Magnetostrictive Material, Middle-Convex and Varying Surface, Piston Skirt

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References

[1] H Q Yuan, H G Sun. Experiment on the nonlinear properties coupling electromagnetism with mechanics of giant rare earth magnetostrictive materials [J]. Journal of Rare Earths, 2004, 22 (2): 159-162.

Google Scholar

[2] H Q Yuan, C Y Li, Z Zhou. Experimental research on the properties coupling stress with electromagnetics of magnetostrictive materials [J]. Mechanics and practice, 2000, (1): 27-30(in Chinese).

Google Scholar

[3] Dhilsha K R, Rama Rao K V S. Investigation of magnetic, magnetomechanical, and electrical properties of the Tb0. 27Dy0. 73Fe2-xCox system[J]. Journal of Appl. Phys. 1993, 73(3): 1380-1385.

Google Scholar

[4] Ciria M, Arnaudas J L, Del Moral A et al. Determination of magnetostrictive stresses in magnetic rare-earth superlattices by a cantilever method[J]. Physical Review Letters. 1995, 75(8): 1635-1637.

DOI: 10.1103/physrevlett.75.1634

Google Scholar