Estimation of the Glass Forming Ability of the Fe-based Bulk Metallic Glass Fe_(68.8)C_(7.0)Si_(3.5)B_(5.0)P_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) that Contains Non-metallic Inclusions

Hongxiang Li; Zhaoping Lu; Seonghoon Yi

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Estimation of the Glass Forming Ability of the Fe-based Bulk Metallic Glass Fe_(68.8)C_(7.0)Si_(3.5)B_(5.0)P_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) that Contains Non-metallic Inclusions

机译：含非铁的Fe基块状金属玻璃Fe_（68.8）C_（7.0）Si_（3.5）B_（5.0）P_（9.6）Cr_（2.1）Mo_（2.0）Al_（2.0）的玻璃形成能力的估算金属夹杂物

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For the mass production of bulk metallic glasses, the use of industrial raw materials that contain certain amounts of inclusions is inevitable. The glass-forming ability of bulk metallic glasses, i.e., the critical cooling rate for glass formation upon solidification, is closely related to the nature of heterogeneous nucleation offered by inclusions during the solidification process. Significantly different effects of various types of inclusions on the glass forming ability of the alloy Fe_(68.8)C_(7.0)Si_(3.5)B_(5.0)P_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) are demonstrated in this study. The origins of the effects of different inclusions on the glass forming ability are analyzed through thermodynamic, crystallographic and classical heterogeneous nucleation kinetic theories.

机译：为了批量生产大块金属玻璃，不可避免的是使用包含一定量夹杂物的工业原料。块状金属玻璃的玻璃形成能力，即固化时玻璃形成的临界冷却速率，与固化过程中夹杂物提供的异相成核的性质密切相关。证明了各种夹杂物对Fe_（68.8）C_（7.0）Si_（3.5）B_（5.0）P_（9.6）Cr_（2.1）Mo_（2.0）Al_（2.0）的玻璃形成能力的不同影响在这个研究中。通过热力学，晶体学和经典的非均相成核动力学理论分析了不同夹杂物对玻璃形成能力的影响的起源。

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《Metals and Materials International》 |2009年第1期|共8页
作者
Hongxiang Li; Zhaoping Lu; Seonghoon Yi;
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正文语种 eng
中图分类金属材料;
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bulk metallic glass; inclusions; glass forming ability; heterogeneous nucleation kinetics; lattice disregistry;

机译：大块金属玻璃夹杂物玻璃形成能力非均相成核动力学晶格失配;

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1. Estimation of the Glass Forming Ability of the Fe-based Bulk Metallic Glass Fe_(68.8)C_(7.0)Si_(3.5)B_(5.0)P_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) that Contains Non-metallic Inclusions [J] . Hongxiang Li, Zhaoping Lu, Seonghoon Yi Metals and Materials International . 2009,第1期

机译：含非铁的Fe基块状金属玻璃Fe_（68.8）C_（7.0）Si_（3.5）B_（5.0）P_（9.6）Cr_（2.1）Mo_（2.0）Al_（2.0）的玻璃形成能力的估算金属夹杂物
2. Fe-based bulk metallic glasses Fe_(73.8-x)C_(7.0)Si_(3.5)B_xP_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) (x = 3-9) prepared using hot metal and industrial raw materials [J] . Hongxiang Li, Seonghoon Yi, Ho Sang Sohn Journal of Materials Research . 2007,第1期

机译：使用铁水和工业原料制备的铁基块状金属玻璃Fe_（73.8-x）C_（7.0）Si_（3.5）B_xP_（9.6）Cr_（2.1）Mo_（2.0）Al_（2.0）（x = 3-9）材料
3. Effects of Boron on the Electrochemical Properties of Bulk Metallic Glasses Fe_(73.8-x)C_(7.0)Si_(3.5)B_xP_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) (x = 3-7). [J] . In-Seok Hwang, Seonghoon Yi Journal of Korean Institute of Metal and Materials . 2006,第9期

机译：硼对块状金属玻璃Fe_（73.8-x）C_（7.0）Si_（3.5）B_xP_（9.6）Cr_（2.1）Mo_（2.0）Al_（2.0）的电化学性能的影响（x = 3-7）。
4. Glass Formation in Fe_(50-x)Cr_(15)Mo_(14)C_(15)B_6M_x (M= Y, Gd and x= 0,2) Bulk Metallic Glasses [C] . A. Bouchareb, R. Piccin, B. Bendjemil, International Conference on Fracture . 2009

机译：FE_（50-x）CR_（15）MO_（14）C_（15）B_6M_X（M = Y，GD和X = 0,2）散装金属玻璃中的玻璃形成
5. Atomic structure and glass forming ability of $Cu_{46}Zr_{46}Al_{8}$ bulk metallic glass [O] . Wang, X. D., Jiang, Q. K., Cao, Q. P., 2008

机译：$ Cu_ {46} Zr_ {46} Al_ {8} $大块金属玻璃的原子结构和玻璃形成能力

Estimation of the Glass Forming Ability of the Fe-based Bulk Metallic Glass Fe_(68.8)C_(7.0)Si_(3.5)B_(5.0)P_(9.6)Cr_(2.1)Mo_(2.0)Al_(2.0) that Contains Non-metallic Inclusions

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