| Autor: |
Alsarayreh, Ali Ibrahim Mohammad, Othman, Muhammad Lutfi, ABDULLAH, REDZUAN BIN, Sulaiman, Assoc. Prof. Dr. Arizu bin, POI-NGIAN, SHEK, MANSOUR, HUSAM |
| Rok vydání: |
2022 |
| DOI: |
10.6084/m9.figshare.20390238 |
| Popis: |
Lightweight concrete produced by utilizing waste materials has the benefit of protecting the environment and reducing the cost in construction industry. Palm Oil Clinker (POC) aggregate considered as a lightweight aggregate due to its lower bulk density and porous nature compared to normal weight aggregate. Which lead to a high Aggregate Crushing Value (ACV) of (POC) coarse aggregate that cause a reduction in strength. In this paper, Palm Oil Clinker (POC) and Expanded Perlite Aggregate (EPA) were used as a fine and coarse aggregate in the production of structural lightweight concrete. The aim of the study is to improve the strength of (POC) lightweight concrete by partially replacing (POC) coarse aggregate with Normal Coarse Aggregate (NCA). Then, introducing (EPA) by partially replacing it with (POC) fine aggregate to reduce the density. Department of Environment method (DOE) was used to design the control mix of normal concrete grade 40. Absolute volume method was used for different replacements of (POC) and (EPA) aggregates. Three phases of mixes were conducted. First phase is considered as the control phase with normal weight concrete mix and (POC) lightweight concrete mix with 100% of fine and coarse (POC) aggregate. Second phase consist of partially replacement of (POC) coarse aggregate with (NCA) in different percentages. Third phase is done by replacing (POC) fine aggregate with (EPA) in the optimum mix from the second phase. Density, strength and quality of the concrete mixes were tested for 7 and 28 days only. No tests on 14 days conducted because the difference in strength gained in 14 and 28 days is only 9%. In summary, replacing 10% of (POC) coarse aggregate with (NCA) made a significant increase in the strength from 27.7 MPa to 35.49 Mpa. Also, by replacing (POC) fine aggregate with EPA made a reduction in density from 1900 kg/m3 to 1847 kg/m3. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
|
