Welcome to the InfoSci Platform
3D Finite Element Modeling of High Speed Machining

3D Finite Element Modeling of High Speed Machining

A.P. Markopoulos, K. Kantzavelos, N.I. Galanis, D.E. Manolakos
Copyright: © 2013 |Pages: 19
ISBN13: 9781466618671|ISBN10: 1466618671|EISBN13: 9781466618688
DOI: 10.4018/978-1-4666-1867-1.ch011
Cite Chapter Cite Chapter

MLA

Markopoulos, A.P., et al. "3D Finite Element Modeling of High Speed Machining." Dynamic Methods and Process Advancements in Mechanical, Manufacturing, and Materials Engineering, edited by J. Paulo Davim, IGI Global, 2013, pp. 178-196. https://doi.org/10.4018/978-1-4666-1867-1.ch011

APA

Markopoulos, A., Kantzavelos, K., Galanis, N., & Manolakos, D. (2013). 3D Finite Element Modeling of High Speed Machining. In J. Davim (Ed.), Dynamic Methods and Process Advancements in Mechanical, Manufacturing, and Materials Engineering (pp. 178-196). IGI Global. https://doi.org/10.4018/978-1-4666-1867-1.ch011

Chicago

Markopoulos, A.P., et al. "3D Finite Element Modeling of High Speed Machining." In Dynamic Methods and Process Advancements in Mechanical, Manufacturing, and Materials Engineering, edited by J. Paulo Davim, 178-196. Hershey, PA: IGI Global, 2013. https://doi.org/10.4018/978-1-4666-1867-1.ch011

Export Reference

Mendeley
Favorite

Abstract

This paper presents simulation of High Speed Machining of steel with coated carbide tools. More specifically, Third Wave Systems AdvantEdge commercial Finite Element Method code is employed in order to present turning models, under various machining conditions. As a novelty, the proposed models for High Speed Machining of steel are three-dimensional and are able to provide predictions on cutting forces, tool and workpiece temperatures, chip formation, and chip morphology. Model validation is achieved through experimental work carried out under the same conditions as the ones used in modeling. For the experimental work, the principles for design of experiment were used in order to minimize the required amount of experiments and obtain useful results at the same time. Furthermore, a Taguchi analysis is carried out based on the results. The analysis indicates that there is a good agreement between experiment and modeling, and the proposed models can be further employed for the prediction of a range of machining parameters, under similar conditions.

Request Access

You do not own this content. Please login to recommend this title to your institution's librarian or purchase it from the IGI Global bookstore.