Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors

Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors

This paper investigates the microstructural, chemical, and radiation shielding characteristics of rice husk ash-based self-compacting concrete (RHA-SCC) and its precursors – rice husk ash (RHA) and ordinary Portland cement (OPC). Several radiation attenuation parameters of RHA-SCC, RHA, and OPC have...

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Main Authors: Plando, Floyd Rey P., Gili, Mon Bryan Z., Maquiling, Joel
Format: text
Published: Archīum Ateneo 2023
Subjects:
Electrons
EpiXS
Microstructural characterization
Radiation shielding
Rice husk ash
Physical Sciences and Mathematics
Physics
Radiochemistry
Online Access:https://archium.ateneo.edu/physics-faculty-pubs/147
https://doi.org/10.1016/j.radphyschem.2023.110916
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spelling ph-ateneo-arc.physics-faculty-pubs-11462024-02-29T08:29:18Z Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors Plando, Floyd Rey P. Gili, Mon Bryan Z. Maquiling, Joel This paper investigates the microstructural, chemical, and radiation shielding characteristics of rice husk ash-based self-compacting concrete (RHA-SCC) and its precursors – rice husk ash (RHA) and ordinary Portland cement (OPC). Several radiation attenuation parameters of RHA-SCC, RHA, and OPC have been studied using EpiXS. Characterizations of these samples using FTIR, XRD, and SEM were also employed for chemical bonds, mineral phase, and morphological analysis, respectively. The XCOM data library was utilized to obtain mass attenuation coefficients (MAC) and related to EPICS2017 and EPDL97 data. From the results, prominent interaction mechanisms for RHA-SCC were photoelectric absorption, incoherent scattering, and pair production in the nuclear field. Both the mean free path (MFP) and half-value layer (HVL) values agreed to this sequence: OPC > RHA > RHA-SCC. The Zeff values recorded for high-photon energies were 13.95, 13.20, and 10.85 for RHA-SCC, RHA, and OPC, respectively. While maximum Neff was estimated at the low-energy region with values of 4.68, 4.70, and 3.89 electrons·g−1 for RHA-SCC, RHA, and OPC. Both buildup factors were highly affected by the presence of higher Z elements contained in RHA-SCC, reaching up to 200 keV at 40 MFP. For intermediate and higher-energy levels, the MAC values established this order: RHA-SCC > OPC > RHA, with the lowest deviation of 0–0.21% for EPICS2017-EPDL97 tandem. Overall, RHA-SCC has better shielding effects compared to its precursors and can cost-effectively be used as an additive in preparing radiation shielding concrete. 2023-07-01T07:00:00Z text text/html https://archium.ateneo.edu/physics-faculty-pubs/147 https://doi.org/10.1016/j.radphyschem.2023.110916 Physics Faculty Publications Archīum Ateneo Electrons EpiXS Microstructural characterization Radiation shielding Rice husk ash Physical Sciences and Mathematics Physics Radiochemistry
institution Ateneo De Manila University
building Ateneo De Manila University Library
continent Asia
country Philippines
Philippines
content_provider Ateneo De Manila University Library
collection archium.Ateneo Institutional Repository
topic Electrons
EpiXS
Microstructural characterization
Radiation shielding
Rice husk ash
Physical Sciences and Mathematics
Physics
Radiochemistry
spellingShingle Electrons
EpiXS
Microstructural characterization
Radiation shielding
Rice husk ash
Physical Sciences and Mathematics
Physics
Radiochemistry
Plando, Floyd Rey P.
Gili, Mon Bryan Z.
Maquiling, Joel
Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors
description This paper investigates the microstructural, chemical, and radiation shielding characteristics of rice husk ash-based self-compacting concrete (RHA-SCC) and its precursors – rice husk ash (RHA) and ordinary Portland cement (OPC). Several radiation attenuation parameters of RHA-SCC, RHA, and OPC have been studied using EpiXS. Characterizations of these samples using FTIR, XRD, and SEM were also employed for chemical bonds, mineral phase, and morphological analysis, respectively. The XCOM data library was utilized to obtain mass attenuation coefficients (MAC) and related to EPICS2017 and EPDL97 data. From the results, prominent interaction mechanisms for RHA-SCC were photoelectric absorption, incoherent scattering, and pair production in the nuclear field. Both the mean free path (MFP) and half-value layer (HVL) values agreed to this sequence: OPC > RHA > RHA-SCC. The Zeff values recorded for high-photon energies were 13.95, 13.20, and 10.85 for RHA-SCC, RHA, and OPC, respectively. While maximum Neff was estimated at the low-energy region with values of 4.68, 4.70, and 3.89 electrons·g−1 for RHA-SCC, RHA, and OPC. Both buildup factors were highly affected by the presence of higher Z elements contained in RHA-SCC, reaching up to 200 keV at 40 MFP. For intermediate and higher-energy levels, the MAC values established this order: RHA-SCC > OPC > RHA, with the lowest deviation of 0–0.21% for EPICS2017-EPDL97 tandem. Overall, RHA-SCC has better shielding effects compared to its precursors and can cost-effectively be used as an additive in preparing radiation shielding concrete.
format text
author Plando, Floyd Rey P.
Gili, Mon Bryan Z.
Maquiling, Joel
author_facet Plando, Floyd Rey P.
Gili, Mon Bryan Z.
Maquiling, Joel
author_sort Plando, Floyd Rey P.
title Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors
title_short Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors
title_full Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors
title_fullStr Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors
title_full_unstemmed Microstructural Characterizations and Radiation Shielding Quantities of Rice Husk Ash-Based Self-Compacting Concrete and Its Precursors
title_sort microstructural characterizations and radiation shielding quantities of rice husk ash-based self-compacting concrete and its precursors
publisher Archīum Ateneo
publishDate 2023
url https://archium.ateneo.edu/physics-faculty-pubs/147
https://doi.org/10.1016/j.radphyschem.2023.110916
_version_ 1792664325240913920

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