Adding barium sulfate (BaSO4) to fly ash geopolymer increases its compressive strength as X-ray shielding for medical imaging applications

Ammar A. Oglat , Sabri M. Shalbi , Mohammed Suhimi
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Abstract

Background

Geopolymers, a novel cementitious material, have the potential for reducing carbon dioxide wastes resulting from the manufacture of cement.

Purpose

This study presents an experimental inquiry conducted to produce a fly ash geopolymer mortar with a good of compressive strength of the batch.

Methods

Activation of the mortar is accomplished through the use of sodium hydroxide and sodium silicate. The mortar is created from a mixture of fly ash and sand. In order to determine the maximum load that a material is capable of bearing before experiencing failure, the compressive strength test was utilized.

Results

According on the findings of the compressive strength testing device, the fly ash geopolymer with 15 % barium sulfate (BaSO4) demonstrates the highest compressive strength, which is measured at 56 MPa. When compared to the results obtained from cement mortar, this one is twice as high, which indicates that the strength improvement factor is 2. This study's findings highlighted the necessity of employing fly ash geopolymer that contains 15 % BaSO4 for the purpose of providing shielding protection. Conclusion: Therefore, in terms of its performance, fly ash geopolymer is superior to cement mortar. This is due to the fact that it is manufactured with a high compressive strength.
在粉煤灰土工聚合物中添加硫酸钡(BaSO4)可提高其抗压强度,作为医疗成像应用的 X 射线屏蔽材料
背景土工聚合物是一种新型胶凝材料,具有减少水泥生产过程中产生的二氧化碳废物的潜力。目的本研究介绍了为生产抗压强度良好的粉煤灰土工聚合物砂浆而进行的实验调查。砂浆由粉煤灰和沙子混合制成。结果根据抗压强度测试装置的结果,含 15% 硫酸钡 (BaSO4) 的粉煤灰土工聚合物的抗压强度最高,达到 56 兆帕。与水泥砂浆的结果相比,抗压强度高出一倍,这表明强度提高系数为 2。这项研究的结果突出表明,有必要使用含 15% 硫酸钡 (BaSO4) 的粉煤灰土工聚合物来提供屏蔽保护。结论因此,就性能而言,粉煤灰土工聚合物优于水泥砂浆。这是因为粉煤灰土工聚合物具有很高的抗压强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.60
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0.00%
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