论文信息 - Activation Energy Associated with the Nonlinear Internal Friction Peak around Room Temperature in Cold‐Worked Al‐0.1 wt% Cu

Activation Energy Associated with the Nonlinear Internal Friction Peak around Room Temperature in Cold‐Worked Al‐0.1 wt% Cu

The anomalously amplitude-dependent internal friction peak (P1 peak) appeared around room temperature in cold-worked Al-0.1wt% Cu is stabilized by suitable thermo-mechanical treatments. The activation energy H associated with this peak is carefully determined for the first time, to H = (0.8 ± 0.1) eV with τ0 = (10−14to 10−12) s. This is close to the activation energy associated with pipe diffusion (0.70 to 0.84 eV), and thus gives strong support to previous proposition that this peak is originating from the short-range diffusion of solute atoms (Cu) along dislocation kinks in aluminium. Mittels geeigneter thermo-mechanischer Behandlungen wird das anomale amplitudenunabhangige Maximum der inneren Reibung (P1-Maximum) stabilisiert, das bei Zimmertemperatur in kaltgewalztem Al 0,1 Gew%Cu auftritt. Die mit diesem Maximum verknupfte Aktivierungsenergie H wird erstmalig sorgfaltig zu H = (0,8 ± 0,1) eV mit τ0 = (10−14 bis 10−12)s bestimmt. Dies liegt sehr nahe an der Aktivierungsenergie, die mit der Pipe-Diffusion (0,70 bis 0,84 eV) verknupft ist und liefert somit eine starke Unterstutzung fur eine fruhere Annahme, das dieses Maximum von der kurzreichweitigen Diffusion von Losungsatomen (Cu) in Richtung der Versetzungsknoten in Aluminium herruhrt.

A. Zhu | T. Kê | Ge Tingsui

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