%0 Journal Article %T Investigation of Properties of Concrete Containing Recycled Aggregates and Waste Rubber with Micro Silica %J Amirkabir Journal of Civil Engineering %I Amirkabir University of Technology %Z 2588-297X %A Shorbi Niazi, Hosain %A Khalilzadeh Vahidi, Ebrahim %D 2022 %\ 05/22/2022 %V 54 %N 3 %P 1151-1164 %! Investigation of Properties of Concrete Containing Recycled Aggregates and Waste Rubber with Micro Silica %K Properties %K recycled concrete aggregates %K waste rubber %K Micro-silica %K Water Absorption %R 10.22060/ceej.2021.19279.7123 %X The main purpose of this study is to experimental investigation the properties of concrete containing recycled concrete aggregates and waste rubber with micro silica. For this purpose, recycled concrete aggregates in the amount of 0%, 25%, 50% and 100% by weight have replaced with coarse aggregate and micro-silica at the amount of 10% by weight have replaced with cement. Also, in two specimens with 50% recycled concrete aggregate, first without micro silica and second with micro silica, waste rubber with 30% by volume of fine aggregate has been replaced and used. In the next step, the amount of slump, compressive strength, tensile strength, flexural strength, stress-strain curve, density and permeability of the specimens are evaluated. The results of this study show that the presence of recycled aggregates reduces the compressive strength from 3.2% to 14.5% and also adding waste rubber powder to the specimen with 50% recycled aggregates reduces the compressive strength to the 71% compared to the reference specimen (specimen with natural aggregates and without micro-silica). All specimens with micro silica have higher compressive strength than similar specimens without micro silica. The highest compressive strength is related to the specimen with 25% recycled aggregate and micro silica, which is 9.6% higher than the reference specimen. Specimens containing 50% recycled aggregate in the presence and absence of waste rubber powder have 55 and 72% lower tensile strength and 30 and 67% lower flexural strength, respectively, than the reference specimen. The lowest water absorption is for the specimen without recycled aggregates with micro silica at the amount of 0.5%. %U https://ceej.aut.ac.ir/article_4393_69d72cb3e09cff401f8dae4c6fed1969.pdf