Study on Dynamic Design Technique of Machine Tools Structure Based on Energy Balance

Nan Nan Zhang; Ze Yu Weng; Yan Qin Zheng; Yong Cai

doi:10.4028/www.scientific.net/AMR.139-141.792

Paper Titles

Research on Overhanging Rigidity and Auxiliary Support Characteristics of the Large and Exact NC Rotary Table
p.772

The Technology Research of CO₂ Laser Micropore Drilling on Carbon Steel
p.777

Experimental Study on the Relationship between Surface Roughness and Cutting Parameters when Face Milling High Strength Steel
p.782

Micro-Positioning Platform Based on Giant Magentostrictive Material
p.788

Study on Dynamic Design Technique of Machine Tools Structure Based on Energy Balance
p.792

Optimal Design and Process Analysis of the Blade for High-Speed Shearing Stainless Steel Tube
p.797

The Influencing Factors on the Axial Magnetic Field Distribution Characteristics of GMA
p.801

Machinability Investigation in High Speed Turning of Powder Metallurgy Nickel-Based Superalloy with Sialon Ceramic Inserts
p.805

Study on Technology of Drilling Superfine Deep-Hole in 2Cr13
p.809

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 139-141Study on Dynamic Design Technique of Machine Tools...

Study on Dynamic Design Technique of Machine Tools Structure Based on Energy Balance

Abstract:

The energy balance of system is one of the basis for the dynamic design of machine tools structure. The paper applied finite element technique to machine tools dynamic design based on the energy balance, in view of finite element model of machine tools dynamics structure, mean squared deviation of various energy distribution was used to describe the structural dynamic characteristics quantitatively, and the method was combined with structural dynamic optimal theory to establish the improvemental direction. The author applied the technique to the structural dynamic characteristics analysis of a surface grinder, through the energy distribution analysis and quantitative analysis of structural dynamic characteristics of the grinding machine tools, the weak link of the grinding machine structure was found, which had instruction function for structure optimization of the grinding machine.The result proved this structure dynamics design technique had obvious superiority.

You might also be interested in these eBooks

Manufacturing Engineering and Automation I

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 139-141)

Pages:

792-796

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.139-141.792

Citation:

Cite this paper

Online since:

October 2010

Authors:

Nan Nan Zhang, Ze Yu Weng, Yan Qin Zheng, Yong Cai

Keywords:

Dynamic Design, Energy Balance, Finite Element Technique, Machine Tools Structure

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] G. Bianchi, F. Daolucci: Annals of the CIRR, Vol. 45(1996), No. 1, pp.381-384.

Google Scholar

[2] J.M. Vance, T.P. Yep: Structual Incoporting Joint Dynamincs Data (1979), No. 1, pp.391-396.

Google Scholar

[3] X.L. Zhang, Y.S. Xu and W.H. Zhong: Journal of Mechanical Strength (2005), No. 3, pp.353-357.

Google Scholar

[4] Z.H. Yin, X.M. Zhou and B.Y. Liao: Journal of Kunming University of Science and Technology (2001), pp.115-119.

Google Scholar

[5] M. Yoshimura, T. Hoshi: submitted to the 12th M.T.D.R. (1971 ).

Google Scholar

[6] Tetutaro Hoshi and Masataka Yoshimura: submitted to the 14th M.T.D.R. (1973).

Google Scholar

[7] Mosataka, Yoshimura, submitted to the 16th M.T.D.R. (1975).

Google Scholar

[8] Z.L. Zhang: Journal of Harbin Institute of Technology (1987) No. 4, pp.37-43.

Google Scholar

[9] W.Z. Zheng: Machine (1982) No. 1, pp.34-37.

Google Scholar

[10] W.L. Xiong, J.L. Wen and H.W. Huang: Journal of Machine Design, Vol. 21 (2004) pp.121-122.

Google Scholar

[11] X. Yang, H.L. Tang, B.Y. Liao: Dynamics of Machine Tools II (Machine Press, Beijing 1983).

Google Scholar