GARCÍA, A. [et al.] (2015) - Prediction of mechanical strength of cork under compression using machine learning techniques. Materials and Design. ISSN 0261-3069. 82. P. 304-311.
0261-3069
10.1016/j.matdes.2015.03.038
Title
Prediction of mechanical strength of cork under compression using machine learning techniques
Subject
Cork Mechanical properties Neural network Multiple linear regression CART Cluster
Date
2017-07-22T16:20:02Z 2017-07-22T16:20:02Z 2015
Description
In this study, the accuracy of mathematical techniques such as multiple linear regression, clustering, decision trees (CART) and neural networks was evaluated to predict Young’s modulus, compressive stress at 30% strain and instantaneous recovery velocity of cork. Physical properties, namely test direction, density, porosity and pore number, as well as test direction were used as input. The better model was achieved when a classification problem was performed. Only compressive stress at 30% strain can be predicted with neural networks with an error rate of about 20%. The prediction of Young’s modulus and instantaneous recovery velocity led to unacceptably high error rates due to the heterogeneity of the material. info:eu-repo/semantics/publishedVersion