Phase Separating Bulk Metallic Glass: A Hierarchical Composite

Park, Byung Joo; Chang, Hye Jung; Kim, Do Hyang; Kim, Dong-Won; Chattopadhyay, K.; Abinandanan, T.A.; Bhattacharyya, Saswata

doi:10.1103/physrevlett.96.245503

Cited by 120 publications

(73 citation statements)

References 28 publications

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“…A pertinent question is how to understand these systemspecific behaviours in a general physical scenario. To appreciate this question, we consider the concept of enthalpy of mixing for MGs as it provides an effective way to the understanding of many chemical-related issues in MGs, such as glass-forming ability 33,34 , mechanical properties 37 , phase separation [38][39][40] , as well as crystallization and devitrification of MGs 41 . Fig.…”

Section: Discussionmentioning

confidence: 99%

Chemical influence on β-relaxations and the formation of molecule-like metallic glasses

et al. 2013

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Secondary (also known as Johari-Goldstein or b-) relaxations are an intrinsic feature of supercooled liquids and glasses. They are important in many respects but the underlying mechanisms are not well understood. A long-standing puzzle is why some glasses show b-relaxations as pronounced peaks, whereas others as unobvious excess wings. Here we demonstrate that these different behaviours are related to the fluctuations of chemical interactions by using prototypical systems of metallic glasses. A general rule is summarized: pronounced b-relaxations are associated with systems where all the atomic pairs have large similar negative values of enthalpy of mixing, whereas positive or significant fluctuations in enthalpy of mixing suppress b-relaxations. The emerging physical picture is that strong and comparable interactions among all the constituting atoms maintain string-like atomic configurations for the excitations of b-events and can be considered as the formation of molecule-like metallic glasses.

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Section: Discussionmentioning

confidence: 99%

Chemical influence on β-relaxations and the formation of molecule-like metallic glasses

et al. 2013

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“…In the following years, phase separated metallic glasses were successfully prepared in several alloy systems: Zr-Y-Co-Al [7], Ni-Nb-Y [8], ZrNd-Al-Co [9], Cu-(Zr,Hf)-(Gd,Y)-Al [10], and Zr-(Ce,Pr,Nd)-Al-Ni [11]. In all these cases, phase separation leads to a special microstructure with a length-scale up to several micron and some self similar features are observed by transmission electron microscopy (TEM) [6,12,13].…”

Section: Introductionmentioning

confidence: 95%

Spinodal decomposition of Ni–Nb–Y metallic glasses

et al. 2009

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“…Basically, two types of structures are observed in liquid-liquid phase separation owing to different separation mechanisms: interconnected-type structure due to spinodal decomposition, and droplet-type structure due to the nucleation and growth mechanism 6 . Park et al 10 clearly showed that the interconnected-type or droplet-type structure depends on the alloys composition in the miscibility gap. According to the glass-forming ability of the separated liquid phases, an amorphous/amorphous or amorphous/crystalline structure can be obtained as composite structures 6,10,11 .…”

Section: Introductionmentioning

confidence: 99%

Phase Separation in Rapid Solidified Ag-rich Ag-Cu-Zr Alloys

et al. 2015

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The microstructure and phase formation of rapid solidified Ag-rich Ag-Cu-Zr alloys were investigated. Two types of structure; interconnected-and droplet-type structures, were obtained due to phase separation mechanisms. The former was spinodal decomposition and the later was nucleation and growth mechanism. Depending on the alloy compositions, three crystalline phases; FCC-Ag, AgZr and Cu 10 Zr 7 phases were observed along with an in-situ nanocrystalline/amorphous composite. Vickers hardness testing indicated a significant increase of hardness in the nanocrystalline/amorphouscomposite alloy.

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Phase Separating Bulk Metallic Glass: A Hierarchical Composite

Cited by 120 publications

References 28 publications

Chemical influence on β-relaxations and the formation of molecule-like metallic glasses

Chemical influence on β-relaxations and the formation of molecule-like metallic glasses

Spinodal decomposition of Ni–Nb–Y metallic glasses

Phase Separation in Rapid Solidified Ag-rich Ag-Cu-Zr Alloys

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