NIPPON GOMU KYOKAISHI
Print ISSN : 0029-022X
Special Issue for General Reviews
Informatics Research in Functional Synthetic Rubber Materials
Takumi ADACHIKen ITOMIRyouta YAMAMOTOShou KUBOUCHIJun MORITAShin HORIUCHIHiroshi MORITA
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2022 Volume 95 Issue 2 Pages 40-46

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Abstract

The relationship between structures and physical properties for rubber blend was investigated by materials informatics approach. SBR/IR/Silica blend rubber, which is commonly used as tire rubber, was targeted in this paper. Model structures were created on a computer, and physical properties were calculated by finite element method (FEM) simulation. Datasets with structural features as explanatory variables and calculated values as objective variables were obtained by three-dimensional structure analysis for model structures. To clarify the contribution of each structural features to physical properties, machine learning was performed using the dataset with the modulus at 50% elongation (M50) as the objective variable. The prediction accuracy of the model was as high as 0.87 in R2 value. Furthermore, SHapley Additive exPlanation (SHAP) analysis revealed that the continuity of SBR phase and the shape of the phase separation interface are particularly important for physical characteristics. Finally, we created a structure-property correlation diagram that allow us to narrow down the compositions and structures that satisfied target physical properties without actual experiments. It follows that material development period will be shortened.

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© 2022 The Society of Rubber Industry, Japan
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