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Materials Research Innovations Volume 19, 2015 - Issue sup5: Global Conference on Materials Science and Engineering (CMSE 2014)
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Research Papers

Partially stabilised zirconia stability prediction based on opposite degree algorithm for safety engineering

G. ZhangSchool of Resources and Environmental EngineeringWuhan University of Technology, China
,
X.-G. YueSchool of Resources and Environmental EngineeringWuhan University of Technology, ChinaCorrespondence[email protected]
,
F. LiSchool of Resources and Environmental EngineeringWuhan University of Technology, China
&
S.-L. ZhaoSchool of Resources and Environmental EngineeringWuhan University of Technology, China
Pages S5-671-S5-673 | Received 20 Oct 2014, Accepted 18 Dec 2014, Published online: 30 May 2015
 
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Abstract

In order to predict the partially stabilised zirconia stability, relevant prediction methods for partially stabilised zirconia stability are discussed; opposite degree algorithm is used to predict the partially stabilised zirconia stability. The prediction operator steps are designed. Opposite degree algorithm is based on prior values, posterior values and the opposite degrees between the training data and the testing data. In order to compare the prediction results based on various algorithms, back propagation neural network method is used for partially stabilising zirconia stability. The prediction results show that the opposite degree algorithm is better than back propagation neural network. Opposite degree algorithm is an effective method for partially stabilised zirconia stability prediction. Opposite degree algorithm can be applied in safety engineering for more aspects.

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