@inproceedings{cab0d3f2cef64a26813d2b2e0e288b83,
title = "Research on regulation of thin wall integral structure distortion during machining",
abstract = "The FEM model was established in order to study the distortion of thin wall integral structure during NC machining. The original residual stress was applied on aluminum blank. The deformable regulation of thin wall integral structure during machining was studied using inactive element technology of FEM software. The results of simulation indicated that the process of distortion could be divided into stiffness sensitive stage and stiffness insensitive stage. The distortion of part increased with the bending stiffness of part decreased in the stiffness sensitive stage; but in the stiffness insensitive stage, the distortion of part decreased with the bending stiffness of part decreased. There existed a deformable critical point between these two stages.",
keywords = "Finite element simulation, Machining distortion, Residual stress, Thin wall integral structure",
author = "Dong Liu and Wuyi Chen",
year = "2006",
language = "英语",
isbn = "4990324706",
series = "ICPMT2006 - Progress of Machining Technology - Proceedings of the 8th International Conference on Progress of Machining Technology",
pages = "531--534",
booktitle = "ICPMT2006 - Progress of Machining Technology - Proceedings of the 8th International Conference on Progress of Machining Technology",
note = "8th International Conference on Progress of Machining Technology, ICPMT2006 ; Conference date: 09-11-2006 Through 11-11-2006",
}