The performance of novel polymer mortar containing vinyl ester resin reinforced by fly ash and iron sand under compressive, tensile, dan flexural test

Polymer concrete is a type of advanced concrete widely used globally in the last few decades. It is suitable for a variety of applications such as in pipes, roadway pavements, and bridge decks. Concrete can also be used sustainably to mitigate CO2 emissions due to the partial or total replacement of...

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Bibliographic Details
Published in:Journal of Building Engineering 2023-10, Vol.76, p.107205, Article 107205
Main Authors: Rochman, Taufiq, Arifi, Eva, Cahya, Evi Nur, Wicaksono, Anggara Mahatma
Format: Article
Language:English
Subjects:
Fly ash
Mechanical properties
Polymer concrete
Polymer mortars
Vinyl ester resin
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Summary:Polymer concrete is a type of advanced concrete widely used globally in the last few decades. It is suitable for a variety of applications such as in pipes, roadway pavements, and bridge decks. Concrete can also be used sustainably to mitigate CO2 emissions due to the partial or total replacement of cement normally used as a binder with polymer. Several studies have explored polymer concrete materials and their applications but only a very few references were made to the mechanical properties and utilization of polymer mortar. One of the polymers most widely used is vinyl ester due to some advantages such as excellent corrosion and chemical resistance. Therefore, this study focused on examining the materials and compositions used in vinyl ester polymer mortar mixtures as well as their compressive, tensile, and flexural strength. The process involved conducting a preliminary test to assess the materials used in order to have an optimal composition. This was followed by the combination of the vinyl ester (VE) and its catalyst hardeners, mepoxe (ME) and cobalt (CO), fly ash (FA), and Lumajang iron sand (LIS) to determine compression strength, density, and cost with due consideration for the workability. Moreover, tensile and three-point bending tests were also applied to the materials. The results showed that the optimal content for the VE:ME:CO:FA:LIS was 42,2:2,9:0,63:18,1:36 with a compressive, tensile, and bending strengths of 92.64 MPa, 12.19 MPa, and 106.18 MPa, respectively. It was concluded that the novel polymer mortar has excellent mechanical properties and can be further implemented into structural elements such as pipes, beam-columns, slabs, walls, and others. •Very lack research related to vinyl ester polymer concrete material.•The resin content influences the tensile, compressive, and flexural strength.•Certain RUN is found to be more effective than the other RUN in the term of workability.•Contain useful review on the novel material.•Fly ash-vinyl ester resin position in the Ashby diagram was classified.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2023.107205