Ключевые слова: compressive strength

Mechanical characteristics of polymer composites based on epoxy resins with silicon carbide

https://doi.org/10.58224/2618-7183-2024-7-5-3
Аннотация
This study examines the impact of the type of base matrix (epoxy resin) and the addition of silicon carbide powder on the mechanical properties of polymer composite materials. To determine the compressive strength and elastic modulus of the polymer composites, samples were prepared using ED-20 epoxy-diane resin, cured with polyethylene polyamine. In order to eliminate the dependency of the results on specific commercial brands of resins, tests were conducted on polymers from different manufacturers. Mechanical tests were performed on samples of pure resin as well as on those containing reinforcing SiC particles. The chosen research methodology allowed for the determination of the relationship between the strength of the final polymer composites and the presence of silicon carbide powder. Polymer samples in the form of 20 mm cubic specimens were fabricated in custom-made formwork molds. Compressive strength tests were carried out using a REM-100-A-1 universal testing machine, and deformations were additionally measured using a non-contact video extensometer to calculate the elastic modulus. The study revealed a positive effect from the addition of 5 wt.% SiC to the epoxy-diane resins on the specified mechanical properties. The average increase in strength was 168%, while the elastic modulus increased by 26%. The introduction of the reinforcing additive also enabled a more consistent relationship between the loads and deformations of the samples based on epoxy resins from various domestic manufacturers, significantly enhancing their applicability in construction and other industries.
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Influence of corn cob ash additive on the structure and properties of cement concrete

https://doi.org/10.58224/2618-7183-2024-7-3-2
Аннотация
In accordance with the Sustainable Development Goals (SDGs) concept, there is a need to find technologies that would help make concrete production less energy intensive and more environmentally friendly. One technology involves substituting some mineral components in concrete with rapidly renewable plant-based alternatives. This study aims to establish the essential patterns among the concrete composition, micro-structure, and properties of cementitious composites modified with corn waste. Additionally, it seeks to explore the potential for producing high-quality composites using this waste material. To assess the effectiveness of this kind of waste, the strength of the cement-sand mortar, several characteristics like compressive strength, flexural durability and water absorption of hardened concrete were studied. It is established that introducing corn cob ash (CCA) to substitute a part of the cement up to 16% is justified and allows to obtain mortar and concrete with enhanced properties. CCA has a beneficial impact on the properties of Cement Sand Mortar (CSM) when replacing cement by no more than 15%. The maximum effect was achieved at 10% CCA, and the rise of compressive and flexural strength were 6.06% and 6.32%. In concrete with a CCA amount of 8%, the most impressive growth of compressive strength was 7.14%, and the lowest value of water absorption, which is 10.31% lower compared to the ordinary composition. Including CCA reduces the properties like workability, density of concrete mixtures, and the hardened composite density. The scientific results obtained prove the possibility of using CCA as an effective mineral pozzolanic additive that improves the properties of concrete.
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