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Shear transformation zone dependence of creep behaviors of amorphous phase in a CuZr-based bulk metallic glass composite
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作者 JIANG SongShan GAN KeFu +2 位作者 HUANG YongJiang XUE Peng SUN JianFei 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2020年第8期1560-1565,共6页
The creep behaviors of the amorphous phase in a CuZr-based bulk metallic glass composite(BMGC)are studied by nanoindentation.Samples fabricated via higher cooling rates are found to exhibit more prominent creep,but a ... The creep behaviors of the amorphous phase in a CuZr-based bulk metallic glass composite(BMGC)are studied by nanoindentation.Samples fabricated via higher cooling rates are found to exhibit more prominent creep,but a smaller shear viscosity.The volume of the shear transformation zones(STZs)in the amorphous phase calculated based on a cooperative shear model increases with the cooling rate.The evolution of excess free volume created during creep deformation is clarified.A looser atomic arrangement leads to a larger STZ volume,thus facilitating creep deformation.This study gives a better understanding of the deformation behaviors of the amorphous phase in BMGCs. 展开更多
关键词 bulk metallic glass composite amorphous phase cooling rate shear viscosity shear transformation zone free volume
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Dynamic mechanical relaxation and thermal creep of high-entropy La_(30)Ce_(30)Ni_(10)Al_(20)Co_(10)bulk metallic glass 被引量:2
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作者 LangTing Zhang YaJuan Duan +4 位作者 Daniel Crespo Eloi Pineda YunJiang Wang Jean-Marc Pelletier JiChao Qiao 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2021年第9期93-103,共11页
Dynamic mechanical relaxation is a fundamental tool to understand the mechanical and physical properties of viscoelastic materials like glasses.Mechanical spectroscopy shows that the high-entropy bulk metallic glass(L... Dynamic mechanical relaxation is a fundamental tool to understand the mechanical and physical properties of viscoelastic materials like glasses.Mechanical spectroscopy shows that the high-entropy bulk metallic glass(La_(30)Ce_(30)Ni_(10)Al_(20)Co_(10))exhibits a distinctβ-relaxation feature.In the present research,dynamic mechanical analysis and thermal creep were performed using this bulk metallic glass material at a temperature domain around theβrelaxation.The components of total strain,including ideal elastic strain,anelastic strain,and viscous-plastic strain,were analyzed based on the model of shear transformation zones(STZs).The stochastic activation of STZ contributes to the anelastic strain.When the temperature or external stress is high enough or the timescale is long enough,the interaction between STZs induces viscous-plastic strain.When all the spectrum of STZs is activated,the quasi-steady-state creep is achieved. 展开更多
关键词 high-entropy bulk metallic glass mechanical relaxation CREEP recovery process shear transformation zone structural heterogeneity
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Effect of physical aging and cyclic loading on power-law creep of high-entropy metallic glass
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作者 Langting Zhang Yajuan Duan +3 位作者 Eloi Pineda Hidemi Kato Jean-Marc Pelletier Jichao Qiao 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2022年第20期1-9,共9页
The power-law relationship between creep rate decay and time is one of the intrinsic characteristics of metallic glasses.In the current work,a La_(30)Ce_(30)Ni_(10)Al_(20)Co_(10) high-entropy metallic glass was select... The power-law relationship between creep rate decay and time is one of the intrinsic characteristics of metallic glasses.In the current work,a La_(30)Ce_(30)Ni_(10)Al_(20)Co_(10) high-entropy metallic glass was selected as the model alloy to test the influences of physical aging and cyclic loading on the power-law creep mechanism,which was probed by the dynamic mechanical analysis in terms of the stochastic activation,and contiguous interplay and permeation of shear transformation zones.It is demonstrated that a notable discrepancy appears between thermal treatment and mechanical treatment on the power-law creep mechanism of this high-entropy metallic glass.On the one hand,physical aging below the glass transition temperature introduces the annihilation of potential shear transformation zones which contribute to creep.On the other hand,cyclic loading can tailor the“forward”jump operations competing with the“backward”ones of shear transformation zones by controlling the interval time(recovery time).The current research offers a new pathway towards understanding the creep mechanism of high-entropy metallic glasses. 展开更多
关键词 High-entropy metallic glass Physical aging Cyclic loading Power-law creep shear transformation zone
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