Chonghong Zhang

TL;DR: Zhang et al. as mentioned in this paper showed that after 56Fe21+ ion irradiation, a strong oxygen vacancy (Vo) related defect absorption peak at 576 cm−1 and an interstitial zinc (Zni) -related defect at 80 cm− 1~200 cm −1 formed, and with the increase of dose, the absorption peak was obviously enhanced.

TL;DR: In this paper, the constant stiffness measurement (CSM) with a diamond Berkovich indenter was used to obtain the depth profile of hardness for Fe-1.0wt.%Cu alloys, China A508-3 steels, and 16MND5 steels.

TL;DR: In this article, microstructures of dispersoids in two Al-added high-Cr ODS ferritic steels (including the commercial MA956, and another ODS steel with a similar composition recently developed in Kyoto University) were studied.

TL;DR: In this article, the authors investigated the nano-indentation of ODS ferritic steels after multi-energy He-ion implantation, or after irradiation with energetic heavy ions including Xe and Bi-ions.

TL;DR: In this article, two kinds of ODS high-Cr ferritic steels (commercial MA956 and an Al-free 16Cr-01Ti ODS ferritic steel) and one conventional ferritic/martensitic steel (T122) were irradiated at about 440 degrees C with high-energy Ne-20-ions in HIRFL Successively increasing doses from 350 to 900 appm of Ne concentration, corresponding to atomic displacement levels from 07 to 18 dpa, were approached.