Restrained Shrinkage of Fly Ash Based Geopolymer Concrete and Analysis of Long Term Shrinkage Prediction Models

R. Islam, Mahbub Ahmed, H. Begum, E. Allouche
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引用次数: 1

Abstract

The research presented in this manuscript describes the procedure to quantify the restrained shrinkage of geopolymer concrete (GPC) using ring specimen. Massive concrete structures are susceptible to shrinkage and thermal cracking. This cracking can increase the concrete permeability and decrease the strength and design life. This test is comprised of evaluating geopolymer concrete of six different mix designs including different activator solution to fly ash ratio subjected to both restrained and free shrinkage. Test results obtained from this experimental setup were plotted along with the available empirical equation to observe the shrinkage strain of GPC and a model was suggested to predict the shrinkage strain of GPC. It was found from this study that along with activator solution to fly ash ratio the final compressive strength of GPC plays an important role on shrinkage strain.
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粉煤灰基土工聚合物混凝土的约束收缩及长期收缩预测模型分析
本文介绍了用环形试样量化地聚合物混凝土(GPC)约束收缩的方法。大体积混凝土结构易发生收缩和热裂。这种开裂会增加混凝土的渗透性,降低混凝土的强度和设计寿命。本试验包括评估六种不同配合比的地聚合物混凝土,包括不同的激发剂溶液与粉煤灰的比例,对约束收缩和自由收缩的影响。将该试验装置得到的试验结果与已有的经验方程结合起来进行了GPC的收缩应变观测,并提出了预测GPC收缩应变的模型。研究发现,随着活化剂溶液与粉煤灰比例的增加,GPC的最终抗压强度对收缩应变有重要影响。
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