Comparing orthogonal force and unidirectional strain component processing for tool condition monitoring

Freyer, Burkhard H.; Heyns, P.S.; Theron, N.J.

doi:10.1007/s10845-012-0698-6

Cited by 18 publications

(9 citation statements)

References 25 publications

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“…Taking into account the noise with slack variables ξ i and error penalty C, Eq. (19) can be rewritten as [40]:…”

Section: Methods Advantages Disadvantagesmentioning

confidence: 99%

“…that indirectly indicate tool conditions. Tool wear causes the increases of friction and heat generation, thus consequently causes the changes of in-process parameters, such as cutting force [16], vibration [17], acoustic emission [18], strain [19], eddy-current displacement [20], and spindle motor current [21], etc. Comparing to direct sensing, indirect sensing methods are less costly and enables continuous detection of all changes (e.g.…”

Section: Introductionmentioning

confidence: 99%

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Multisensory fusion based virtual tool wear sensing for ubiquitous manufacturing

Wang

Xie

Zhao

et al. 2017

Robotics and Computer-Integrated Manufacturing

171

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a b s t r a c tPervasiveness of ubiquitous computing advances the manufacturing scheme into a ubiquitous manufacturing era which poses significant challenges on sensing technology and system reliability. To improve manufacturing system reliability, this paper presents a new virtual tool wear sensing technique based on multisensory data fusion and artificial intelligence model for tool condition monitoring. It infers the difficult-to-measure tool wear parameters (e.g. tool wear width) by fusing in-process multisensory data (e.g. force, vibration, etc.) with dimension reduction technique and support vector regression model. Different state-of-the-art dimension reduction techniques including kernel principal component analysis, locally linear embedding, isometric feature mapping, and minimum redundancy maximum relevant method have been investigated for feature fusion in a virtual sensing model, and the kernel principal component analysis performs best in terms of sensing accuracy. The effectiveness of the developed virtual tool wear sensing technique is experimentally validated in a set of machining tool run-to-failure tests on a computer numerical control milling machine. The results show that the estimated tool wear width through virtual sensing is comparable to that measured offline by a microscope instrument in terms of accuracy, moreover, in a more cost-effective manner.

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“…Taking into account the noise with slack variables ξ i and error penalty C, Eq. (19) can be rewritten as [40]:…”

Section: Methods Advantages Disadvantagesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Multisensory fusion based virtual tool wear sensing for ubiquitous manufacturing

Wang

Xie

Zhao

et al. 2017

Robotics and Computer-Integrated Manufacturing

171

View full text Add to dashboard Cite

show abstract

“…Gao et al [ 14 ] introduced a data-driven model framework for TCM in a machining operations based on the statistics of cutting forces. The orthogonal force and unidirectional strain components were compared, resulting in a probability of a difference less than 5% points between the flank wear estimation errors of the two processing strategies was at least 95% [ 15 ]. Kaya et al [ 16 ] proposed an online TCM system based on the cutting force and torque signals, and a high correlation and low error ratio between the actual and predicted values of flank wear were obtained.…”

Section: Literature Reviewmentioning

confidence: 99%

Tool Condition Monitoring and Remaining Useful Life Prognostic Based on a Wireless Sensor in Dry Milling Operations

Zhang

Yao

Zhang

et al. 2016

Sensors

126

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Tool breakage causes losses of surface polishing and dimensional accuracy for machined part, or possible damage to a workpiece or machine. Tool Condition Monitoring (TCM) is considerably vital in the manufacturing industry. In this paper, an indirect TCM approach is introduced with a wireless triaxial accelerometer. The vibrations in the three vertical directions (x, y and z) are acquired during milling operations, and the raw signals are de-noised by wavelet analysis. These features of de-noised signals are extracted in the time, frequency and time–frequency domains. The key features are selected based on Pearson’s Correlation Coefficient (PCC). The Neuro-Fuzzy Network (NFN) is adopted to predict the tool wear and Remaining Useful Life (RUL). In comparison with Back Propagation Neural Network (BPNN) and Radial Basis Function Network (RBFN), the results show that the NFN has the best performance in the prediction of tool wear and RUL.

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“…Since, in contrast to a signal in the frequency domain represented as a spectrum, the result of the WPT resembles a series of time waveforms, similar SFs as for signals in the time domain are usually used as SFs of individual packets (bandpass signals). Most often RMS is used as the only feature [29,47,48]. However, some publications also use other statistical features like standard deviation [22,27,32] kurtosis [35,36], skewness [35,36], peak-to-peak value [32], crest factor [27] and others [49].…”

Section: Introductionmentioning

confidence: 99%

Analysis of the Suitability of Signal Features for Individual Sensor Types in the Diagnosis of Gradual Tool Wear in Turning

2021

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There are many items in the literature indicating that certain signal features (SFs) of cutting forces, vibrations or acoustic emission are useful for the diagnosis of tool wear in certain single experiments. There is no answer to whether these SFs are universal. The novelty of this article is an attempt to answer these questions and propose a large set of SFs related to tool wear, but without including superfluous SFs. The analysis of the usefulness of the signal properties for the state of the cutting tool in turning was carried out on a large experiment. A number of various SFs obtained for various signal analysis methods were selected for the study. It is found that no SF is always related to the tool wear, so we define many different signal characteristics that can be related to the tool wear (basic set) and automatically select those associated with it in a given machining case. To this end, the relationship between the measures and the wear of the tool was analyzed. Interrelated measures were excluded from it. The obtained results can be used to build a new generation of more effective tool wear diagnostics systems. One of the goals of the tool wear diagnosis system is to save the energy used. The results can also enable the refinement of existing algorithms that predict the energy consumption of a machine.

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Comparing orthogonal force and unidirectional strain component processing for tool condition monitoring

Cited by 18 publications

References 25 publications

Multisensory fusion based virtual tool wear sensing for ubiquitous manufacturing

Multisensory fusion based virtual tool wear sensing for ubiquitous manufacturing

Tool Condition Monitoring and Remaining Useful Life Prognostic Based on a Wireless Sensor in Dry Milling Operations

Analysis of the Suitability of Signal Features for Individual Sensor Types in the Diagnosis of Gradual Tool Wear in Turning

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