Radiation Shielding Properties of Nickel, Copper and Iron Based Alloys

Authors

  • Santosh Kumar Das Patan Multiple Campus, Tribhuvan University, Patandhoka, Lalitpur
  • Saddam Husain Dhobi Central Department of Physics, Tribhuvan University, Kirtipur, Kathmandu

DOI:

https://doi.org/10.3126/ppj.v4i01.70210

Keywords:

Radiation shielding, iron-based and nickel-based alloys, linear and mass attenuation coefficients,, Phy-X/PSD, atomic cross section, electronic cross section

Abstract

This study explores the radiation shielding properties of Iron-based and Nickel-based alloys with Cobalt composition to evaluate their performance in photon attenuation and shielding applications. The objectives of this work are to determine linear and mass attenuation coefficients (LAC, MAC), half and tenth value layers (HVL, TVL), mean free path (MFP), effective atomic number and electron density (Zeff, Neff), effective conductivity (Ceff), atomic cross section (ACS) and electronic cross section (ECS) of nickel and iron base alloy with Cobalt using Phy-X/PSD within 0.001 MeV to 10 MeV. The result shows Iron and Nickel-based alloys have electron densities around 10²³ electrons per gram, with increased Iron concentration improving low-energy photon attenuation. Nickel-based alloys have a higher MAC and LAC compared to Iron-based oxides, indicating better photon absorption per unit mass and thickness, respectively. Nickel-based alloys exhibit a lower HVL and TVL, indicating greater attenuation and absorption efficiency for photons, especially at lower energies. Conversely, Iron-based alloys, while showing higher HVL and TVL. Nickel-based alloys exhibited higher electron densities the Iron-based alloys and Zeff values for Nickel based alloys, ranging from 27.1 to 27.8 while Iron-based alloys with Zeff between 26.2 and 26.8. Ceff in Iron-based alloys was stable at (1.50 to 1.74) x 10⁹ S/m, while Nickel-based alloys showed significant fluctuations below 0.01 MeV. Nickel-based alloys also had higher ACS and ECS, indicating superior photon interaction, especially at lower energies. These results highlight Nickel based alloys' greater efficacy in low-energy photon attenuation and the stable performance of Iron based alloys at higher energies.

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Author Biography

Santosh Kumar Das, Patan Multiple Campus, Tribhuvan University, Patandhoka, Lalitpur

Department of Physics

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Published

2024-10-01

How to Cite

Das, S. K., & Dhobi, S. H. (2024). Radiation Shielding Properties of Nickel, Copper and Iron Based Alloys . Patan Prospective Journal, 4(01), 118–134. https://doi.org/10.3126/ppj.v4i01.70210

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