Experimental Study on Performance of Concrete Incorporated with Alccofine-1203 And Fly ASH
DOI:
https://doi.org/10.32628/IJSRCEKeywords:
Alccofine, Compressive Strength, Split Tensile StrengthAbstract
The main issue with cement manufacture is that a considerable amount of carbondioxide is released, which raises the temperature of the atmosphere, resulting in global warming. As a result, we need a long-term replacement of cement in concrete to address the problem of global warming caused by carbon dioxide emissions. Alccofine 1203 is a custom-made material generated by a controlled granulation process with a high glass content and strong reactivity. Concrete gets extraordinary strength at a young age due to the use of Alccofine material. In this experiment, alccofine was replaced for the weight of cement by 0 percent, 10%, 15%, 20%, and 25% of the time, respectively. Several criteria were studied at 7 and 28 days after curing, including workability of fresh concrete using a slump cone and a compaction factor test, compressive strength on concrete cubes, and split tensile strength on concrete cylinders. The concrete grade used was M30. The findings reveal that the Alccofine material increases concrete strength significantly up to a replacement level of 25%, beyond which the concrete's strength starts to decrease. Based on the increase in strength in the variation of concrete mix, it provides better performance, implying that the use of waste material as a mineral supplement for concrete should be promoted.
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Soma Prasanth Reddy, C. Sashidha, B.V. Kavyateja, a study on the performance of self- compacting concrete with fly ash and alccofine, epra international journal of multidisciplinary research (ijmr), volume: 7 ,issue: 9,september 2021.
Shaik Dilshad, P Siva Sankar, an experimental study on partial replacement of cement with flyash and alccofine in concrete, international journal of engineering innovations in advanced technology issn, volume-3,issue-3,july-september-2021.
Md. S. Shoaib Hussain, Abdul Razack, R. Prajwal Kumar, J. Raja4, Radhika, D. Sahana, K. C. Sinchana, experimental investigations on the partial replacement of cement by alccofine and flyash, international journal of research in engineering, science and management volume 4, issue 6, june 2021.
C. Sashidhar, J. Guru Jawahar,Bode Venkata Kavyateja, structural behaviour of reinforced self compacting concrete incorporating alccofine and fly ash, journal of civil engineering inter disciplinaries, volume 2, issue 1,march 29, 2021.
Sagarika Panda, Abhishek Samal, Niharika Panda, mechanical properties of green high- performance concrete using fly ash and alccofine , journal of xi'an university of architecture & technology, volume 12, issue 3, 2020 .
Qian Zhang, Houshang Habibi, comparison of data mining methods to predict mechanical properties of concrete with fly ash and alccofine, journal of materials research and technology, 9 september 2021 .
Balamuralikrishnan R, Saravanan J, effect of addition of alccofine on the compressive strength of cement mortar cubes, emerging science journal, volume: 5, issue: 2, april, 2021.
R. Venkat Raman, R. Ancil, R. Wasim Raja, P. Selva Surendar, experimental studies on partial replacement of cement with fly ash in concrete elements, international journal of civil engineering and technology (ijciet),volume 8, issue 9, september 2017 .
Vidya Sagar Khanduri, Shivek Sharma, analysis of concrete block by partial replacement of cement with fly ash, indian journal of structure engineering (ijse)issn, volume-1 issue-1, may 2021.
P. R. Kalyana Chakravarthy And R. Rathan Raj, analysis on compressive strength of concrete with partial replacement of cement with alccofine, arpn journal of engineering and applied sciences, vol. 12, issue:8, april 2017
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