Enhancement of plasticity by cryogenic thermal cycling on Fe_(80)P_(13)C_7 bulk amorphous alloy

Guan Huimin; Li Mingcan

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Enhancement of plasticity by cryogenic thermal cycling on Fe_(80)P_(13)C_7 bulk amorphous alloy

机译：Fe_（80）P_（13）C_7散装非晶合金的低温热循环增强可塑性

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The effect of cryogenic thermal cycling on the plasticity of Fe80P13C7 bulk amorphous alloy was investigated. The plastic strain increases from 1.7% of the as-cast samples to 5.4% of the cryogenic thermal cycling treated ones, while the yielding strength does not have an obvious deterioration. The enhancement of plasticity can be ascribed to the rejuvenation induced more disordered high-energy states in structure, which corresponds to a creation of excess free volume and therefore helps to the formation of multiple shear bands. This work provides an effective method for the modification of plasticity of Fe-based bulk amorphous alloys.

机译：研究了对低温热循环对Fe80P13C7块状非晶合金的可塑性的影响。塑性应变从1.7％的浇铸样品增加到5.4％的低温热循环处理过的，而屈服强度没有明显的劣化。可塑性的增强可以归因于恢复诱导的结构中的更紊乱的高能量状态，这对应于过量自由体积的产生，因此有助于形成多个剪切带。该工作提供了一种有效的方法，用于改变Fe系块状非晶合金的可塑性。

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来源
《Materials Letters》 |2021年第1期|130195.1-130195.3|共3页
作者
Guan Huimin; Li Mingcan;
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作者单位

Xinjiang Univ Sch Phys Sci & Technol Xinjiang 830046 Peoples R China;

Xinjiang Univ Sch Phys Sci & Technol Xinjiang 830046 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Amorphous materials; Cryogenic thermal cycling; Rejuvenation; Deformation and fracture; Plasticity;

机译：非晶材料;低温热循环;复兴;变形和骨折;可塑性;

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1. Effect of preparation cooling rate on magnetocaloric effect of Fe_(80)P_(13)C_7 amorphous alloy [J] . Liu Cong, Li Qiang, Huo Juntao, Journal of magnetism and magnetic materials . 2019,第APRa期

机译：制备冷却速率对Fe_（80）P_（13）C_7非晶合金磁热效应的影响
2. Formation of bulk magnetic ternary Fe_(80)P_(13)C_7 glassy alloy [J] . Qiang Li, Jinfeng Li, Pan Gong Intermetallics . 2012,第Null期

机译：散装磁性三元Fe_（80）P_（13）C_7玻璃合金形成
3. Comparative study of non-isothermal crystallization kinetics between Fe_(80)P_(13)C_7 bulk metallic glass and melt-spun glassy ribbon [J] . Yan Wang, Kai Xu, Qiang Li Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2012,第Null期

机译：Fe_（80）P_（13）C_7大块金属玻璃与熔融纺丝玻璃带非等温结晶动力学的比较研究
4. Critical Cooling Rate for the Glass Formation of Fe_(80-x)Co_xP_(13)C_7 Alloy [C] . Kai Xu, Yan Wang, Qiang Li Chinese materials congress . 2013

机译：Fe_（80-x）Co_xP_（13）C_7合金玻璃形成的临界冷却速率
5. Experimental characterization of the surface and near surface structure transformations during surface biased crystallization of the palladium(80)silicon(20) and iron(80)boron(20) amorphous alloys. [D] . Tlomak, Pawel. 1988

机译：钯（80）硅（20）和铁（80）硼（20）非晶合金的表面偏置结晶过程中表面和近表面结构转变的实验表征。
6. The Process of Magnetizing FeNbYHfB Bulk Amorphous Alloys in Strong Magnetic Fields [O] . Bartłomiej Jeż, Jerzy Wysłocki, Simon Walters, 2020

机译：FeNbYHfB大块非晶态合金在强磁场中的磁化过程
7. X -Ray Absorption Near Edge Structure (XANES) Calculations for the Amorphous $Fe_{80}B_{20}$- and $Ni_{80}B_{20}$-Alloys [O] . Kizler P., Lamparter P., Steeb S. 1989

机译：非晶态$ Fe_ {80} B_ {20} $-和$ Ni_ {80} B_ {20} $-合金的X射线吸收近边缘结构（XANES）计算
8. Structural Relaxation Rates in Amorphous Metglas Alloys Fe sub 40 Ni sub 40 P sub 14 B sub 6 and Fe sub 80 B sub 80 [R] . Cost, J. R., Stanley, J. T. 1981

机译：非晶态metglas合金的结构弛豫率Fe sub 40 Ni sub 40 p sub 14 B sub 6 and Fe sub 80 B sub 80

Enhancement of plasticity by cryogenic thermal cycling on Fe_(80)P_(13)C_7 bulk amorphous alloy

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