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Introducing Mg-4Zn-3Gd-1Ca/ZnO nanocomposite with compressive strengths matching/exceeding that of mild steel

机译：引入抗压强度匹配/超过低碳钢的Mg-4Zn-3Gd-1Ca / ZnO纳米复合材料

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摘要

This work introduces Mg-4Zn-3Gd-1Ca/2ZnO (wt.%) nanocomposite fabricated using the technique of disintegrated melt deposition and extrusion. Addition of ZnO nanoparticles enhanced the compressive strengths of alloy by ~100 MPa. Nanocomposite samples display high strength and good ductility: 0.2% compressive yield stress of 355 MPa, ultimate compressive stress of 703 MPa, and compressive failure strain of 10.6%. The significant enhancement of compressive yield stress is mainly attributed to the grain refinement by adding nanoparticles. The strength levels exceed that of commercial magnesium alloys (i.e. WE43, WE54, ZK60, and ME21) and mild steels (i.e. S275 and S355), making Mg-4Zn-3Gd-1Ca/2ZnO a very promising material for multiple engineering and biomedical applications.

机译：这项工作介绍了Mg-4Zn-3Gd-1Ca / 2ZnO（wt。％）纳米复合材料，该复合材料是采用分解熔融沉积和挤出技术制备的。 ZnO纳米粒子的添加将合金的抗压强度提高了约100 MPa。纳米复合材料样品显示出高强度和良好的延展性：0.2％的压缩屈服应力为355 MPa，极限压缩应力为703 MPa，压缩破坏应变为10.6％。压缩屈服应力的显着提高主要归因于通过添加纳米颗粒的晶粒细化。强度水平超过了商业镁合金（即WE43，WE54，ZK60和ME21）和低碳钢（即S275和S355），使Mg-4Zn-3Gd-1Ca / 2ZnO成为多种工程和生物医学应用中非常有前途的材料。

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期刊名称 Scientific Reports
作者
Y. Chen; S. Tekumalla; Y. B. Guo; M. Gupta;
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年(卷),期 -1(6),-1
年度 -1
页码 32395
总页数 5
原文格式 PDF
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1. Introducing Mg-4Zn-3Gd-1Ca/ZnO nanocomposite with compressive strengths matching/exceeding that of mild steel [J] . Y. Chen, S. Tekumalla, Y. B. Guo, Scientific reports. . 2016,第1期

机译：用压缩强度匹配/超过温和钢的抗压强度介绍MG-4ZN-3GD-1CA / ZnO纳米复合材料
2. Structural, Microscopy Analysis and Compressive Strength of ZnO–CuO Nanocomposites [J] . Kavitha K., Rao T. Subba, Suvarna R. Padma, Advanced Science, Engineering and Medicine . 2020,第3期

机译：ZnO-CuO纳米复合材料的结构，显微镜分析和抗压强度
3. Effect of compressive residual stress introduced by cavitation peening and shot peening on the improvement of fatigue strength of stainless steel [J] . Soyama Hitoshi, Chighizola Christopher R., Hill Michael R. Journal of Materials Processing Technology . 2021,第1期

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4. The Optimization of CNT-PVA Nanocomposite for Mild Steel Coating: Effect of CNTs Concentration on the Corrosion Rate of Mild Steel [C] . M. Maryam, N. M. A. A. Ibrahim, K. A. Eswar, International Conference on Nanoscience and Nanotechnology . 2017

机译：温和钢涂层CNT-PVA纳米复合材料的优化：CNTs浓度对低碳钢腐蚀速率的影响
5. Investigating Merits of Introducing Nano-Silica on the Formation of Calcium Silicate Hydrate and on the Compressive Strength of the Hardened Cement Paste. [D] . Kuli, Intisar. 2015

机译：引入纳米二氧化硅对硅酸钙水合物形成和硬化水泥浆抗压强度的研究。
6. Superstrength of nanograined steel with nanoscale intermetallic precipitates transformed from shock-compressed martensitic steel [O] . Hailiang Yu, Ming Yan, Cheng Lu, -1

机译：冲击压缩马氏体钢转变成纳米级金属间沉淀物的纳米晶粒钢的超强度
7. Introducing Mg-4Zn-3Gd-1Ca/ZnO nanocomposite with compressive strengths matching/exceeding that of mild steel [O] . Y. Chen, S. Tekumalla, Y. B. Guo, 2016

机译：用压缩强度匹配/超过温和钢的抗压强度介绍MG-4ZN-3GD-1CA / ZnO纳米复合材料

Introducing Mg-4Zn-3Gd-1Ca/ZnO nanocomposite with compressive strengths matching/exceeding that of mild steel

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