Microstructure and radiation shielding capabilities of Al-Cu and Al-Mn alloys.

IF 3.8 2区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Scientific Reports Pub Date : 2024-11-05 DOI:10.1038/s41598-024-76177-4
Moamen G El-Samrah, Islam M Nabil, Mohamed E Shamekh, M Elmasry, M Osman
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Abstract

In this study, the microstructure and elemental analysis of aluminum-copper alloy type-2024, Al-2024, and aluminum-manganese alloy type-3003, Al-3003, have been investigated by using a scanning electron microscope (SEM) equipped with Energy dispersive spectroscopy (EDS) detector. Experimental and theoretical radiation shielding studies were performed to assess the radiation shielding capabilities of the studied alloys. Considering the radiation shielding theoretical assessment, some reliable software tools were used, such as Phy-X/PSD, MCNP5, NXCom, and MRCsC. The microstructural observations and results have shown the presence of second phases rich with the main alloying elements in both alloys. Considering Al-2024 alloy, coarse second-phase particles, having a size range of 8-15 μm, were found aligning in lines parallel to the rolling direction, whereas smaller ones, having a size range of 2-8 μm, were found decorated the grain boundaries. Also, dark holes represent the pull-out large particles separated during preparation indicated poor adhesion with the main matrix that could be a result of losing particle coherency with the matrix where the misorientation in-between the atomic planes increase. However, better adhesion of the second-phase particles with the matrix, which were found possessing smaller particle size, have been observed in the Al-3003 alloy indicating good coherency and better manufacturing process for the non-heat-treatable alloy. The second-phase particles in case of Al-2024 alloy were found containing significant content of high-Z elements like Cu with greater volume fraction equals 7.5%. On the other side, Al-3003 alloy has possessed second-phase particles which lack of high-Z elements with only volume fraction equals 3.5%. All the former besides the higher density and content of high-Z elements like copper in Al-2024 alloy in compare to Al-3003 alloy and pure aluminum, led to relatively better radiation shielding capabilities against energetic photons, the highest in the low energy band and decreases with the increase of the photon energy, and slight superiority in the case of fast neutrons with only 3%inc. over pure aluminum. For instance, the radiation protection efficiency (RPE) values dropped from about; 23.2, 21.6, and 20.8% at 0.100 MeV to only 5.7, 5.9, and 5.6% at Eγ = 2 MeV, for; Al-2024, Al-3003, and Al-Pure, respectively."Please check and confirm that the authors and their respective affiliations have been correctly identified and amend if necessary.""confirmed".

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铝铜合金和铝锰合金的微观结构和辐射屏蔽能力。
本研究使用配备了能量色散光谱(EDS)探测器的扫描电子显微镜(SEM),研究了 2024 型铝铜合金(Al-2024)和 3003 型铝锰合金(Al-3003)的微观结构和元素分析。为评估所研究合金的辐射屏蔽能力,进行了实验和理论辐射屏蔽研究。考虑到辐射屏蔽理论评估,使用了一些可靠的软件工具,如 Phy-X/PSD、MCNP5、NXCom 和 MRCsC。微观结构观察结果表明,两种合金中都存在富含主要合金元素的第二相。就 Al-2024 合金而言,粗大的第二相颗粒(尺寸范围为 8-15 μm)呈平行于轧制方向的线状排列,而较小的第二相颗粒(尺寸范围为 2-8 μm)则装饰在晶界上。此外,暗孔代表在制备过程中分离出来的大颗粒,表明与主基体的附着力较差,这可能是颗粒与基体失去一致性的结果,因为原子面之间的错位增加了。然而,在 Al-3003 合金中观察到第二相颗粒与基体的粘附性更好,颗粒尺寸更小,这表明这种不可热处理合金具有良好的一致性和更好的制造工艺。在 Al-2024 合金中,第二相颗粒含有大量高 Z 元素,如铜,其体积分数大于 7.5%。另一方面,Al-3003 合金的第二相颗粒缺乏高 Z 元素,体积分数仅为 3.5%。与 Al-3003 合金和纯铝相比,Al-2024 合金中高 Z 元素(如铜)的密度和含量更高,因此对高能光子的辐射屏蔽能力相对更强,在低能段最高,并随光子能量的增加而降低,在快中子情况下也略胜一筹,仅比纯铝高出 3%。例如,Al-2024、Al-3003 和 Al-Pure 的辐射防护效率 (RPE) 值分别从 0.100 MeV 时的约 23.2%、21.6% 和 20.8% 下降到 Eγ = 2 MeV 时的 5.7%、5.9% 和 5.6%。""确认"。
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来源期刊
Scientific Reports
Scientific Reports Natural Science Disciplines-
CiteScore
7.50
自引率
4.30%
发文量
19567
审稿时长
3.9 months
期刊介绍: We publish original research from all areas of the natural sciences, psychology, medicine and engineering. You can learn more about what we publish by browsing our specific scientific subject areas below or explore Scientific Reports by browsing all articles and collections. Scientific Reports has a 2-year impact factor: 4.380 (2021), and is the 6th most-cited journal in the world, with more than 540,000 citations in 2020 (Clarivate Analytics, 2021). •Engineering Engineering covers all aspects of engineering, technology, and applied science. It plays a crucial role in the development of technologies to address some of the world''s biggest challenges, helping to save lives and improve the way we live. •Physical sciences Physical sciences are those academic disciplines that aim to uncover the underlying laws of nature — often written in the language of mathematics. It is a collective term for areas of study including astronomy, chemistry, materials science and physics. •Earth and environmental sciences Earth and environmental sciences cover all aspects of Earth and planetary science and broadly encompass solid Earth processes, surface and atmospheric dynamics, Earth system history, climate and climate change, marine and freshwater systems, and ecology. It also considers the interactions between humans and these systems. •Biological sciences Biological sciences encompass all the divisions of natural sciences examining various aspects of vital processes. The concept includes anatomy, physiology, cell biology, biochemistry and biophysics, and covers all organisms from microorganisms, animals to plants. •Health sciences The health sciences study health, disease and healthcare. This field of study aims to develop knowledge, interventions and technology for use in healthcare to improve the treatment of patients.
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