Effect of Hydrogen Charging on Pop-in Behavior of a Zr-Based Metallic Glass
Tian, Lin ; Tönnies, Dominik ; Hirsbrunner, Moritz ; Sievert, Tim ; Shan, Zhiwei ; Volkert, Cynthia A.
Zitierfähiger Link (URL): http://resolver.sub.uni-goettingen.de/purl?gs-1/17092
In this work, structural and mechanical properties of hydrogen-charged metallic glass are studied to evaluate the e ect of hydrogen on early plasticity. Hydrogen is introduced into samples of a Zr-based (Vit 105) metallic glass using electrochemical charging. Nanoindentation tests reveal a clear increase in modulus and hardness as well as in the load of the first pop-in with increasing hydrogen content. At the same time, the probability of a pop-in occurring decreases, indicating that hydrogen hinders the onset of plastic instabilities while allowing local homogeneous deformation. The hydrogen-induced sti ening and hardening is rationalized by hydrogen stabilization of shear transformation zones (STZs) in the amorphous structure, while the improved ductility is attributed to the change in the spatial correlation of the STZs.