Clustering Analysis of Normal Strength Concretes Produced with Different Aggregate Types

• Main Authors: Kılınçarslan Şemsettin, İnce Ebru Yılmaz, Tuncay Ebru Başpınar, Yağmurlu Fuzuli
• Format: Article
• Language: English
• Published: De Gruyter 2018-10-01
• Series: Open Chemistry
• Subjects: concrete; clustering; mechanical properties; k-means
• Online Access: https://doi.org/10.1515/chem-2018-0100

Concrete is the most commonly used structural material, which is composed of individual base materials. The compressive strength of concrete is important to understand for activities like construction arrangement, prestressing operations, proportioning new mixtures and quality assurance. Concrete has a problem known as Clustering, which is the unsupervised classification of patterns into clusters. The clustering problem has been addressed by several researchers in many contexts and various disciplines; this shows that clustering uses many areas and is an important step in data analysis. In this study, concrete samples with different aggregate types and normal strength were produced. Clustering analysis was performed on the effect of aggregate species for its mechanical strength. According to the result of clustering analysis, it was found that there were three different groups, the study predicts that clustering is not related to the origins of the rocks but is clustered between the strength of the rocks and the mechanical strengths of the concretes produced within these rocks. The common feature of L, RL and SG aggregates in the first cluster is that it is a sedimentary rock. The aggregate of the concrete in the second cluster is that it is a volcanic superficial rock. The common feature of DO and TB rocks in the third cluster is that it has high density. As a result, it was determined that the clay made in normal class concrete is related to the mechanical strength of rocks.