Correction to: A new inherent reliability modeling and analysis method based on imprecise Dirichlet model for machine tool spindle

Unbalance is one of the main vibration sources of rotating machinery. Study on the response of unbalance is important for the machine tool spindle dynamic performance evaluation and balancing technology. How to simulate the unbalance automatic generation and how to effectively analyze the unbalance vibration signal are two main problems. In this paper, an electromagnetic balancer is used to act as the unbalance generator to imitate the tool unbalance during machine tool operation. An integrated spindle with the balancer is developed and the acceleration and displacement sensors are applied to pick up the unbalance vibration. The filtering, linear FFT and averaging are applied to extract the fundamental component from the original signal. The displacement peak-peak value and acceleration peak value are chosen as the characteristic parameter evaluating unbalance response and the shaft orbit is adopted to recognize unbalance intuitively. The experimental results show that the unbalance simulation and signal analysis method are feasible and effective.

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Sensitivity Analysis of Temperature Measuring Points for Machine Tool Spindle Based on Grey System Theory

Materials Science Forum ◽

10.4028/www.scientific.net/msf.800-801.720 ◽

2014 ◽

Vol 800-801 ◽

pp. 720-725 ◽

Cited By ~ 1

Author(s):

Qian Feng Wang ◽

Song Zhang ◽

Yan Chen ◽

Qing Zhang ◽

Bin Zhao

Keyword(s):

System Theory ◽

Sensitivity Analysis ◽

Machine Tool ◽

Grey System Theory ◽

Analysis Method ◽

Grey System ◽

Measuring Point ◽

Temperature Measuring ◽

Machine Tool Spindle ◽

Sensitivity Analysis Method

This paper presents a sensitivity analysis method of temperature measuring point of the machine tool spindle based on grey system theory. The initial finite element analysis (FEA) is conducted on the spindle model to determine the temperature distribution of the spindle model and ascertain the resultant structural deformation, and eight nodes of the spindle model are selected as temperature measuring points. By means of grey system theory, temperature measuring points of machine tool spindle model are analyzed and then the effects of the different temperature measuring point on the spindle axial deformation are conducted. Finally, the validity of this sensitivity analysis method is verified by conducting the theoretical analysis and developing the linear estimate equation. The analysis results show that this sensitivity analysis method can effectively determine the thermal sensitivity of temperature measuring points, ensure the accuracy of the thermal compensation model and eliminate the coupling problems.

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Extensions of Bayesian Reliability Analysis by Using Imprecise Dirichlet Model

Volume 10: ASME 2015 Power Transmission and Gearing Conference; 23rd Reliability, Stress Analysis, and Failure Prevention Conference ◽

10.1115/detc2015-47183 ◽

2015 ◽

Author(s):

Zheng Liu ◽

Yan-Feng Li ◽

Yuan-Jian Yang ◽

Jinhua Mi ◽

Hong-Zhong Huang

Keyword(s):

Reliability Analysis ◽

Machine Tools ◽

Prior Information ◽

Probability Distributions ◽

Analysis Approach ◽

Analysis Method ◽

Unknown Parameters ◽

Imprecise Dirichlet Model ◽

Dirichlet Model ◽

Support Engineering

Bayesian approaches have been demonstrated as effective methods for reliability analysis of complex systems with small-amount data, which integrate prior information and sample data using Bayes’ theorem. However, there is an assumption that precise prior probability distributions are available for unknown parameters, yet these prior distributions are sometimes unavailable in practical engineering. A possible way to avoiding this assumption is to generalize Bayesian reliability analysis approach by using imprecise probability theory. In this paper, we adopt a set of imprecise Dirichlet distributions as priors to quantify uncertainty of unknown parameters and extend traditional Bayesian reliability analysis approach by introducing an imprecise Dirichlet model (IDM). When the prior information is rare, the result of imprecise Bayesian analysis method is too rough to support engineering decision-making, so we proposed an optimization model to reduce the imprecision of the new method. Spindles are crucial for machine tools and reliability data related to spindles of new-developed machine tools are often rare. We can then use the imprecise Bayesian reliability analysis method to assess its reliability. In this paper, we mainly investigate the reliability assessment of a motorized spindle to illustrate the effectiveness of the proposed method.

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