Room temperature plastic deformation behavior of ZrCuNiAl bulk metallic glasses

Mechanical properties and micro-plastic deformation behavior of five bulk metallic glasses (BMGs) were studied by instrumented indentation. These materials included La60Al10Ni10Cu20, Mg65Cu25Gd10, Zr52.5Al10Ni10Cu15Be12.5, Cu60Zr20Hf10Ti10, and Ni60Nb37Sn3 alloys. Remarkable difference in deformation behavior was found in the load–displacement curves of nanoindentation and pileup morphologies around the indents. Serrated plastic deformation depended on the loading rate was found in Mg-, Zr-, and Cu-based BMGs. The subsurface plastic deformation zone of typical alloys was investigated through bonded interface technique using depth-sensing microindentation. Large and widely spaced shear bands were observed in Mg-based BMG. The effect of loading rate on the indentation deformation behaviors in different BMGs was elucidated by the change of shear band pattern.

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Deformation Behavior of Bulk Metallic Glasses and High Entropy Alloys under Complex Stress Fields: A Review

Entropy ◽

10.3390/e21010054 ◽

2019 ◽

Vol 21 (1) ◽

pp. 54 ◽

Cited By ~ 4

Author(s):

Shunhua Chen ◽

Jingyuan Wang ◽

Lei Xia ◽

Yucheng Wu

Keyword(s):

Plastic Deformation ◽

Metallic Glasses ◽

Deformation Behavior ◽

Bulk Metallic Glasses ◽

Complex Stress ◽

Deformation Mechanisms ◽

Stress Fields ◽

High Entropy Alloys ◽

High Entropy ◽

Stress States

The plastic deformation of bulk metallic glasses (BMGs) depends significantly on applied stress states, and more importantly, in practical applications of BMGs as structural materials, they always deform under complex stress fields. The understanding of deformation behavior of BMGs under complex stress fields is important not only for uncovering the plastic deformation mechanisms of BMGs, but also for developing BMG components with excellent mechanical performance. In this article, we briefly summarize the recent research progress on the deformation behavior of BMGs under complex stress fields, including the formation and propagation of shear bands, tunable macroscopic plasticity, and serrated plastic flows. The effect of complex stress fields on the plastic deformation mechanisms of BMGs is discussed from simple stress gradient to tailored complex stress fields. The deformation behavior of high entropy alloys (HEAs) under complex stress states has also been discussed. Challenges, potential implications and some unresolved issues are proposed.

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Plastic deformation behavior of Co-8.8Al-9.8W-xTa(x = 0, 2) superalloy at room temperature

Journal of Alloys and Compounds ◽

10.1016/j.jallcom.2020.157236 ◽

2021 ◽

Vol 854 ◽

pp. 157236

Author(s):

Yangtao Xu ◽

Huai Li ◽

Yonghong Wang ◽

Xin Chang ◽

Xin Lv ◽

...

Keyword(s):

Plastic Deformation ◽

Deformation Behavior ◽

Room Temperature ◽

Plastic Deformation Behavior

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Anisotropic plastic deformation behavior of as-extruded ZK60 magnesium alloy at room temperature

Science in China Series E ◽

10.1007/s11431-008-0280-9 ◽

2009 ◽

Vol 52 (1) ◽

pp. 161-165 ◽

Cited By ~ 7

Author(s):

JinBao Lin ◽

LiMing Peng ◽

QuDong Wang ◽

J. R. Hans ◽

WenJiang Ding

Keyword(s):

Plastic Deformation ◽

Magnesium Alloy ◽

Deformation Behavior ◽

Room Temperature ◽

Plastic Deformation Behavior ◽

Anisotropic Plastic ◽

Zk60 Magnesium Alloy

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Plastic deformation behavior of β-phase isotactic polypropylene in plane-strain compression at room temperature

Polymer ◽

10.1016/j.polymer.2006.10.016 ◽

2006 ◽

Vol 47 (26) ◽

pp. 8562-8574 ◽

Cited By ~ 79

Author(s):

E. Lezak ◽

Z. Bartczak ◽

A. Galeski

Keyword(s):

Plastic Deformation ◽

Plane Strain ◽

Isotactic Polypropylene ◽

Deformation Behavior ◽

Room Temperature ◽

Plane Strain Compression ◽

Β Phase ◽

Plastic Deformation Behavior

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Substantially enhanced plasticity of bulk metallic glasses by densifying local atomic packing

Nature Communications ◽

10.1038/s41467-021-26858-9 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Yuan Wu ◽

Di Cao ◽

Yilin Yao ◽

Guosheng Zhang ◽

Jinyue Wang ◽

...

Keyword(s):

Plastic Deformation ◽

Metallic Glasses ◽

Room Temperature ◽

Bulk Metallic Glasses ◽

Atomic Scale ◽

Structure Property ◽

Atomic Packing ◽

Structure Property Relationships ◽

New Strategy ◽

Structural Fluctuations

AbstractIntroducing regions of looser atomic packing in bulk metallic glasses (BMGs) was reported to facilitate plastic deformation, rendering BMGs more ductile at room temperature. Here, we present a different alloy design approach, namely, doping the nonmetallic elements to form densely packed motifs. The enhanced structural fluctuations in Ti-, Zr- and Cu-based BMG systems leads to improved strength and renders these solutes’ atomic neighborhoods more prone to plastic deformation at an increased critical stress. As a result, we simultaneously increased the compressive plasticity (from ∼8% to unfractured), strength (from ∼1725 to 1925 MPa) and toughness (from 87 ± 10 to 165 ± 15 MPa√m), as exemplarily demonstrated for the Zr20Cu20Hf20Ti20Ni20 BMG. Our study advances the understanding of the atomic-scale origin of structure-property relationships in amorphous solids and provides a new strategy for ductilizing BMG without sacrificing strength.

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Predicting and Characterizing Plastic Deformation Behavior of Transversely-isotropic Carbon Fiber Monofilament Using Finite Element Simulation and Nanoindentation

Fibers and Polymers ◽

10.1007/s12221-021-1081-z ◽

2021 ◽

Author(s):

Hongzhou Li ◽

Chuntai Liu ◽

Jialian Chen

Keyword(s):

Plastic Deformation ◽

Finite Element ◽

Carbon Fiber ◽

Finite Element Simulation ◽

Deformation Behavior ◽

Transversely Isotropic ◽

Element Simulation ◽

Plastic Deformation Behavior ◽

Isotropic Carbon

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Competitive effect of stacking fault energy and short-range clustering on the plastic deformation behavior of Cu-Ni alloys

Materials Science and Engineering A ◽

10.1016/j.msea.2016.10.064 ◽

2017 ◽

Vol 679 ◽

pp. 484-492 ◽

Cited By ~ 19

Author(s):

Z.Y. Wang ◽

D. Han ◽

X.W. Li

Keyword(s):

Plastic Deformation ◽

Deformation Behavior ◽

Short Range ◽

Stacking Fault ◽

Stacking Fault Energy ◽

Competitive Effect ◽

Ni Alloys ◽

Plastic Deformation Behavior

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Effect of Grain Size on Deformation Twinning Behavior of Ti6Al4V Alloy

Materials Science Forum ◽

10.4028/www.scientific.net/msf.830-831.337 ◽

2015 ◽

Vol 830-831 ◽

pp. 337-340

Author(s):

Ashish Kumar Saxena ◽

Manikanta Anupoju ◽

Asim Tewari ◽

Prita Pant

Keyword(s):

Plastic Deformation ◽

Grain Size ◽

Strain Rate ◽

Deformation Behavior ◽

Deformation Behaviour ◽

Air Cooling ◽

Specific Strength ◽

Aerospace Applications ◽

Β Phase ◽

Plastic Deformation Behavior

An understanding of the plastic deformation behavior of Ti6Al4V (Ti64) is of great interest because it is used in aerospace applications due to its high specific strength. In addition, Ti alloys have limited slip systems due to hexagonal crystal structure; hence twinning plays an important role in plastic deformation. The present work focuses upon the grain size effect on plastic deformation behaviour of Ti64. Various microstructures with different grain size were developed via annealing of Ti64 alloy in α-β phase regime (825°C and 850°C) for 4 hours followed by air cooling. The deformation behavior of these samples was investigated at various deformation temperature and strain rate conditions. Detailed microstructure studies showed that (i) smaller grains undergoes twinning only at low temperature and high strain rate, (ii) large grain samples undergo twinning at all temperatures & strain rates, though the extent of twinning varied.

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