Jie Lu, Yanhui Li, Shuang Ma, Wanping Li, Feng Bao, Zhengwang Zhu, Qiaoshi Zeng, Haifeng Zhang, Man Yao, Wei Zhang
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引用次数: 0
摘要
本研究开发了一系列具有优异软磁性能和高强度的 Co 基三元 Co-Er-B 块状金属玻璃(BMGs),并通过原位高能同步辐射 X 射线衍射和 ab initio 分子动力学模拟研究了典型 Co71.5Er3.5B25 金属玻璃的局部原子结构。研究结果表明,BMG 样品可通过传统的铜模铸造法在 Co68.5-71.5Er3.5-4B25-27.5 的成分区域内获得。与 Co-Y-B 金属玻璃相比,Co-Er-B 金属玻璃具有更强的原子结合强度和更致密的局部原子堆积结构,其中包括更多的类二十面体簇,但变形的体心立方和类晶体多面体较少。结构稳定性的增强和原子有序扩散的减缓使 Co-Er-B 合金具有更好的玻璃化能力。Co-Er-B 金属玻璃中较小的磁各向异性能导致其矫顽力低于 1.3 A/m。Co-Er-B BMG 的屈服强度高达 3560-3969 兆帕,塑性约为 0.50%。
Novel Soft Magnetic Co-Based Ternary Co–Er–B Bulk Metallic Glasses
In this work, a series of Co-based ternary Co–Er–B bulk metallic glasses (BMGs) with excellent soft magnetic properties and high strength were developed, and the local atomic structure of a typical Co71.5Er3.5B25 metallic glass was studied through in situ high-energy synchrotron X-ray diffraction and ab initio molecular dynamics simulations. The results reveal that the BMG samples can be obtained in a composition region of Co68.5–71.5Er3.5–4B25–27.5 by a conventional copper-mold casting method. The Co–Er–B metallic glasses possess stronger atomic bond strengths and denser local atomic packing structure composed of a higher fraction of icosahedral-like clusters but fewer deformed body-centered cubic and crystal-like polyhedrons, and they exhibit slower atomic diffusion behaviors during solidification, as compared to Co–Y–B counterparts. The enhancement in structural stability and the retardation of atomic-ordered diffusion lead to the better glass-forming ability of the Co–Er–B alloys. The smaller magnetic anisotropy energy in the Co–Er–B metallic glasses results in a lower coercivity of less than 1.3 A/m. The Co–Er–B BMGs exhibit high-yield strength of 3560–3969 MPa along with distinct plasticity of around 0.50%.
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This international journal presents compact reports of significant, original and timely research reflecting progress in metallurgy, materials science and engineering, including materials physics, physical metallurgy, and process metallurgy.
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