A Study on the Grinding Temperature Field for Titanium Alloy

W. Li; Tong Xing; Bao Xiang Qiu; Gang Xiang Hu; Yang Fu Jin

doi:10.4028/www.scientific.net/KEM.339.45

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 339A Study on the Grinding Temperature Field for...

A Study on the Grinding Temperature Field for Titanium Alloy

Abstract:

A reasonable finite element (FE) model of grinding temperature field has been developed on the basis of analysis of the transient temperature field， and three kinds of boundary conditions are loaded on the element of a moving heat source. The study, which is based on the finite element principle, has been carried out using the numerical simulation software ANSYS. Many results have been obtained including three dimensional temperature distribution map. The simulated results under different conditions show good agreement with the experimental results. With the comparison of the dry-grinding and wet-grinding, the result shows that the wet-grinding temperature with a proper grinding fluid is rather lower than the dry-grinding temperature. Finally, the variable coefficient of convective heat transfer and the different form heat source have been discussed in detail.

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Periodical:

Key Engineering Materials (Volume 339)

Pages:

45-49

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.339.45

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Online since:

May 2007

Authors:

W. Li, Tong Xing, Bao Xiang Qiu, Gang Xiang Hu, Yang Fu Jin

Keywords:

Computer Simulation, Finite Element, Grinding Temperature Field, TiAl

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References

[1] T.H. Song: Chinese Mechanical Engineering, Vol. 9 (1998) No. 4, p.2.

Google Scholar

[2] W. LI: Study on the theory and Technology of Lubricating and Cooling Fluids in Titanium Alloys Cutting and Grinding (Ph.D. Nan king Aeronautical Institute, 1992).

Google Scholar

[3] Y. Ding and Y.H. Shang: SME, Vol. 18 (1999) No. 1, p.31.

Google Scholar

[4] X.C. Wang: The Fundamental Principal of the Finite Element Method and the Numerical Technique (Tsinghua Publications, China 1995).

Google Scholar

[5] G.R. Zhang: The Finite Element Method (Mechanical Industry Publications, China 1992).

Google Scholar

[6] J.X. Ren: Grinding on Difficult-to-machine Material (National Defence Industry Publications, China 1999).

Google Scholar

[7] L. Wang: Journal of Shandong University, Vol. 33 (2003) No. 5, p.482.

Google Scholar