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FORMATION OF QUASICRYSTALLINE PHASE IN THE AORPHOUS MATRIX AND ITS EFFECT ON THE PLASTICITY IN ZR-TI-CU-NI-AL-NB BULK METALLIC GLASS SYSTEM

机译：锆基准晶相的形成及其对ZR-TI-CU-NI-AL-NB本体金属玻璃体系塑性的影响

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Several methods have been suggested recently to provide a global ductility to bulk metallic glasses (BMGs). In the most cases, in situ composites consisting of ductile crystalline and amorphous phases exhibit enhanced plastic elongation. The second crystalline phase distributed in the amorphous matrix may act as an initiation site of shear band resulting in multiple shear band formation throughout the specimen and confine the propagation of the shear bands. Recently, however, some as-cast monolithic BMGs have been reported to show increased plasticity. The reason for enhanced plasticity in monolithic BMGs is not clearly understood, yet. Park et al. insists that addition of element having positive heat of mixing enthalpy with constituent elements can be favorable to increase of ductility [1]. On the other hand, Park et al. have reported that the plasticity can be improved when quasicrystalline quenched-in nuclei exist in the amorphous matrix [2].

机译：最近已经提出了几种方法来为块状金属玻璃（BMG）提供整体延展性。在大多数情况下，由延性结晶相和非晶相组成的原位复合材料表现出增强的塑性伸长率。分布在无定形基体中的第二结晶相可以充当剪切带的起始位点，从而导致在整个样品中形成多个剪切带，并限制剪切带的传播。然而，最近，据报道一些铸态的整体式BMG具有增加的可塑性。整体式BMG中增强可塑性的原因尚不清楚。 Park等。坚持认为，将具有混合焓正热的元素与构成元素相结合可以有利于延展性的提高[1]。另一方面，Park等。已有报道称，当非晶态基质中存在准晶淬灭的核时，可塑性得到改善[2]。

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《4th Asian Workshop on Quasicrystals(AWQ4)》|2006年|70-72|共3页
会议地点 Xian(CN)
作者
H. J. CHANG; J. S. KYEONG; D. H. KIM; E. S. PARK;
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作者单位

Center for Noncrystalline Materials, Dept. of Metallurgical Eng. Yonsei Univ., 134 Shinchon-Dong, Seodaemun-Ku, Seoul, 120-749, Korea;

Division of Engineering and Applied Physics, Harvard University, 9 Oxford street, Cambridge, MA 02138, USA;

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正文语种 eng
中图分类装饰工业和精密仪器原料;
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专利

1. Effect of quasicrystalline phase on the deformation behavior of Zr_(62)Al_(9.5)Ni_(9.5)Cu_(14)Nb_5 bulk metallic glass [J] . Y.F. Sun, T.L. Cheung, Y.R. Wang, Materials Science and Engineering. A, Structural Materials . 2005,第1a2期

机译：准晶相对Zr_（62）Al_（9.5）Ni_（9.5）Cu_（14）Nb_5大块金属玻璃变形行为的影响
2. Microano ductile-phases reinforced Fe-based bulk metallic glass matrix composite with large plasticity [J] . Shengfeng Guo, Chen Su Materials Science and Engineering . 2017,第nova7期

机译：具有较大可塑性的微/纳米延性相增强铁基块状金属玻璃基复合材料
3. Design of Bulk Metallic Glasses with High Glass Forming Ability and Enhancement of Plasticity in Metallic Glass Matrix Composites: A Review [J] . E. S. Park, D. H. Kim Metals and Materials International . 2005,第1期

机译：具有高玻璃形成能力的块状金属玻璃的设计和增强金属玻璃基复合材料的可塑性：综述
4. FORMATION OF QUASICRYSTALLINE PHASE IN THE AORPHOUS MATRIX AND ITS EFFECT ON THE PLASTICITY IN ZR-TI-CU-NI-AL-NB BULK METALLIC GLASS SYSTEM [C] . H. J. CHANG, J. S. KYEONG, D. H. KIM, Asian Workshop on Quasicrystals . 2006

机译：在ZR-Ti-Cu-Ni-Al-Nb散装金属玻璃系统中形成异丙胺相的形成及其对塑性的影响
5. Deformation mechanisms of bulk metallic glass matrix composites. [D] . Lee, Seung-Yub. 2005

机译：大块金属玻璃基复合材料的变形机理。
6. Pronounced Plasticity Caused by Phase Separation and β-relaxation Synergistically in Zr–Cu–Al–Mo Bulk Metallic Glasses [O] . Tuo Wang, Lu Wang, Qinjia Wang, -1

机译：Zr-Cu-Al-Mo块状金属玻璃中由相分离和β弛豫协同引起的明显可塑性
7. Microstructure Controlled Shear Band Pattern Formation and Enhanced Plasticity of Bulk Metallic Glasses Containing in situ Formed Ductile Phase Dendrite Dispersions [O] . Hays C. C., Kim C. P., Johnson W. L. 2000

机译：含有原位形成的延性相枝晶分散体的块状金属玻璃的微结构控制剪切带图案形成和增强的可塑性

FORMATION OF QUASICRYSTALLINE PHASE IN THE AORPHOUS MATRIX AND ITS EFFECT ON THE PLASTICITY IN ZR-TI-CU-NI-AL-NB BULK METALLIC GLASS SYSTEM

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