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Journal Abstract Search

215 related items for PubMed ID: 30902016

  • 1. Anomalous nonlinear damping in metallic glasses: Signature of elasticity breakdown.
    Peng SX, Zhang C, Yang C, Li R, Zhang T, Liu L, Yu HB, Samwer K.
    J Chem Phys; 2019 Mar 21; 150(11):111104. PubMed ID: 30902016
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  • 4. Pure shear deformation and its induced mechanical responses in metallic glasses.
    Zhou Z, Wang H, Li M.
    Proc Math Phys Eng Sci; 2019 Nov 21; 475(2231):20190486. PubMed ID: 31824221
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  • 6. Predicting Shear Transformation Events in Metallic Glasses.
    Xu B, Falk ML, Li JF, Kong LT.
    Phys Rev Lett; 2018 Mar 23; 120(12):125503. PubMed ID: 29694058
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  • 7. Particle rearrangement and softening contributions to the nonlinear mechanical response of glasses.
    Fan M, Zhang K, Schroers J, Shattuck MD, O'Hern CS.
    Phys Rev E; 2017 Sep 23; 96(3-1):032602. PubMed ID: 29346996
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  • 8. Structural instability of metallic glasses under radio-frequency-ultrasonic perturbation and its correlation with glass-to-crystal transition of less-stable metallic glasses.
    Ichitsubo T, Matsubara E, Chen HS, Saida J, Yamamoto T, Nishiyama N.
    J Chem Phys; 2006 Oct 21; 125(15):154502. PubMed ID: 17059267
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  • 9. Potential energy landscape activations governing plastic flows in glass rheology.
    Cao P, Short MP, Yip S.
    Proc Natl Acad Sci U S A; 2019 Sep 17; 116(38):18790-18797. PubMed ID: 31484781
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  • 10. The shear band controlled deformation in metallic glass: a perspective from fracture.
    Yang GN, Shao Y, Yao KF.
    Sci Rep; 2016 Feb 22; 6():21852. PubMed ID: 26899145
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  • 11. Brittle-to-Ductile Transition in Metallic Glass Nanowires.
    Şopu D, Foroughi A, Stoica M, Eckert J.
    Nano Lett; 2016 Jul 13; 16(7):4467-71. PubMed ID: 27248329
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  • 12. Anomalous temperature dependence of elastic limit in metallic glasses.
    Wang Y, Liu J, Jiang JZ, Cai W.
    Nat Commun; 2024 Jan 02; 15(1):171. PubMed ID: 38167242
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  • 13. Proposed correlation of structure network inherited from producing techniques and deformation behavior for Ni-Ti-Mo metallic glasses via atomistic simulations.
    Yang MH, Li JH, Liu BX.
    Sci Rep; 2016 Jul 15; 6():29722. PubMed ID: 27418115
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  • 14. Evolution of elastic heterogeneity during aging in metallic glasses.
    Fan Y, Iwashita T, Egami T.
    Phys Rev E Stat Nonlin Soft Matter Phys; 2014 Jun 15; 89(6):062313. PubMed ID: 25019782
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  • 15. Atomistic basis for the plastic yield criterion of metallic glass.
    Schuh CA, Lund AC.
    Nat Mater; 2003 Jul 15; 2(7):449-52. PubMed ID: 12792648
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  • 16. Relaxation and Strain-Hardening Relationships in Highly Rejuvenated Metallic Glasses.
    Yuan X, Şopu D, Song K, Eckert J.
    Materials (Basel); 2022 Feb 24; 15(5):. PubMed ID: 35268944
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  • 17. Approaching the ideal elastic limit of metallic glasses.
    Tian L, Cheng YQ, Shan ZW, Li J, Wang CC, Han XD, Sun J, Ma E.
    Nat Commun; 2012 Jan 03; 3():609. PubMed ID: 22215084
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  • 18. The role of annealing in determining the yielding behavior of glasses under cyclic shear deformation.
    Bhaumik H, Foffi G, Sastry S.
    Proc Natl Acad Sci U S A; 2021 Apr 20; 118(16):. PubMed ID: 33850022
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  • 19. Correlation between High Temperature Deformation and β Relaxation in LaCeBased Metallic Glass.
    Chen Y, Qiao J.
    Materials (Basel); 2020 Feb 12; 13(4):. PubMed ID: 32059531
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