Modification of the Surface of Products by Plastic Deformation and Deposition of Functional Coatings*

Belevskii, L. S.; Belevskaya, I. V.; Belov, V. K.; Gubarev, E. V.; Efimova, Yu. Yu.

doi:10.1007/s11015-016-0327-2

Cited by 1 publication

(1 citation statement)

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“…In recent years, with the development of surface engineering technology, the role of coatings in the surface protection of equipment and key components has become increasingly prominent (Belevskii et al, 2016;Dmitriyev et al, 2005). Coating damage is a predictable hazard in the reliable operation of a mechanical system and can be used for the early troubleshooting of systems.…”

Section: Introductionmentioning

confidence: 99%

Prediction of contact fatigue life of AT40 ceramic coating based on neural network

Zhou

Xing

Wang

et al. 2020

ACMM

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Purpose With the development of deep learning-based analytical techniques, increased research has focused on fatigue data analysis methods based on deep learning, which are gaining in popularity. However, the application of deep neural networks in the material science domain is mainly inhibited by data availability. In this paper, to overcome the difficulty of multifactor fatigue life prediction with small data sets, Design/methodology/approach A multiple neural network ensemble (MNNE) is used, and an MNNE with a general and flexible explicit function is developed to accurately quantify the complicated relationships hidden in multivariable data sets. Moreover, a variational autoencoder-based data generator is trained with small sample sets to expand the size of the training data set. A comparative study involving the proposed method and traditional models is performed. In addition, a filtering rule based on the R2 score is proposed and applied in the training process of the MNNE, and this approach has a beneficial effect on the prediction accuracy and generalization ability. Findings A comparative study involving the proposed method and traditional models is performed. The comparative experiment confirms that the use of hybrid data can improve the accuracy and generalization ability of the deep neural network and that the MNNE outperforms support vector machines, multilayer perceptron and deep neural network models based on the goodness of fit and robustness in the small sample case. Practical implications The experimental results imply that the proposed algorithm is a sophisticated and promising multivariate method for predicting the contact fatigue life of a coating when data availability is limited. Originality/value A data generated model based on variational autoencoder was used to make up lack of data. An MNNE method was proposed to apply in the small data case of fatigue life prediction.

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Section: Introductionmentioning

confidence: 99%