A Dynamic Model for Non-Linear Radial Forced Vibration of Unilateral Boring Tools and its Application to Improving the Accuracy of Boring Process |
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| Journal | Advanced Materials Research (Volumes 452 - 453) |
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| Volume | Management, Manufacturing and Materials Engineering |
| Edited by | Liu Pei |
| Pages | 124-128 |
| DOI | 10.4028/www.scientific.net/AMR.452-453.124 |
| Citation | Peng Li et al., 2012, Advanced Materials Research, 452-453, 124 |
| Online since | January, 2012 |
| Authors | Peng Li, Li Zhi Gu |
| Keywords | Accuracy, Dynamic Model, Nonlinearity, Polymer, Precision Boring, Second-Order Differential Equation, Unilateral Boring Tools, Vibration Prevention |
| Abstract | By analyzing factors affecting the accuracy of boring process on the precision boring machine, the article aims at putting forward a method of improving the accuracy of boring process by means of installing polymer elastic shock absorbers on unilateral boring tools. In addition, the situation of non-linear radial forced vibration is formulated by a dynamic model of second-order differential equation. Based on the model, vibration prevention principles of unilateral boring tools have been discussed and systematic parameters have been optimized for enhancement of the boring process accuracy. |
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