Unexpectedly large relaxation time determined by in situ high-frequency shear modulus measurements near the glass transition of bulk glassy Pd40Cu30Ni10P20

“…Integration of the AES allows calculating the change of the concentration ∆c of defect annealing out upon structural relaxation below T g . For the AES shown in Figure 5, this gives ∆c = 0.00161, close to the values determined for other MGs (0.00112 ≤ ∆c ≤ 0.00322 [63,72,73]). The full concentration of interstitialcy defects frozen-in upon glass formation can be determined as c(…”

“…At temperatures T < T pc , the shear modulus G < G eq (i.e., the current defect concentration c is bigger than the defect concentration c eq in the metastable equilibrium state), and therefore, structural relaxation leads to an increase of G. On the contrary, at T > T pc , the shear modulus G > G eq (respectively, c < c eq ) and structural relaxation decreases it. Different signs of shear modulus relaxation are indeed experimentally observed [63].…”

“…This AES starts from the activation energy slightly less than 1.2 eV (this corresponds to temperatures of about 400 K) and ends at activation energies answering to T g [63,72]. Integration of the AES allows calculating the change of the concentration ∆c of defect annealing out upon structural relaxation below T g .…”

Understanding of the Structural Relaxation of Metallic Glasses within the Framework of the Interstitialcy Theory

“…Integration of the AES allows calculating the change of the concentration ∆c of defect annealing out upon structural relaxation below T g . For the AES shown in Figure 5, this gives ∆c = 0.00161, close to the values determined for other MGs (0.00112 ≤ ∆c ≤ 0.00322 [63,72,73]). The full concentration of interstitialcy defects frozen-in upon glass formation can be determined as c(…”

“…At temperatures T < T pc , the shear modulus G < G eq (i.e., the current defect concentration c is bigger than the defect concentration c eq in the metastable equilibrium state), and therefore, structural relaxation leads to an increase of G. On the contrary, at T > T pc , the shear modulus G > G eq (respectively, c < c eq ) and structural relaxation decreases it. Different signs of shear modulus relaxation are indeed experimentally observed [63].…”

“…This AES starts from the activation energy slightly less than 1.2 eV (this corresponds to temperatures of about 400 K) and ends at activation energies answering to T g [63,72]. Integration of the AES allows calculating the change of the concentration ∆c of defect annealing out upon structural relaxation below T g .…”

Understanding of the Structural Relaxation of Metallic Glasses within the Framework of the Interstitialcy Theory

“…This leads to the kinetic "freezing" of the structure on the experimental time scale. Large relaxation times (of about 1200 se500 s at and slightly above T g and increasingly bigger at T < T g ) were indeed recently found by in situ measurements of the shear modulus in the supercooled liquid state of the same metallic glass [18].…”

Recovery of the shear modulus of relaxed bulk glassy Pd40Cu30Ni10P20 by cooling from elevated temperatures at low rates

“…43,44 The measured value of G ∞ for metallic glasses not only depends on the temperature, but also on tw and thermal history of the sample. [43][44][45] In general, we estimate that these effects would increase G ∞ by a maximum of around 10 % at the lowest investigated temperatures. This uncertainty has been incorporated into our analysis; however, it is well within the error bars of the viscosity values reported in…”

Comparing the atomic and macroscopic aging dynamics in an amorphous and partially crystalline Zr₄₄Ti₁₁Ni₁₀Cu₁₀Be₂₅bulk metallic glass