摘要
It is widely accepted that helium(He) bubbles can prevent dislocations from moving and causing hardening and embrittlement of the material. However, He can affect the mechanical properties of materials in various ways. In this work,ultrafine nanocrystal high entropy oxide(HEO) films with He implantation are prepared by using a radio frequency(RF)reactive magnetron sputtering system to investigate the effects of He bubbles located at grain boundary on the mechanical properties of the films. The mechanical properties of the HEO films are investigated systematically via nanoindentation measurements. The results indicate that the grain boundary cavities induced by He implantation can degrade the hardness,the elastic modulus, and the creep resistance of the HEO films. The mechanical properties of the HEO films are sensitive to the interaction between the He bubbles and the dominating defects.
It is widely accepted that helium(He) bubbles can prevent dislocations from moving and causing hardening and embrittlement of the material. However, He can affect the mechanical properties of materials in various ways. In this work,ultrafine nanocrystal high entropy oxide(HEO) films with He implantation are prepared by using a radio frequency(RF)reactive magnetron sputtering system to investigate the effects of He bubbles located at grain boundary on the mechanical properties of the films. The mechanical properties of the HEO films are investigated systematically via nanoindentation measurements. The results indicate that the grain boundary cavities induced by He implantation can degrade the hardness,the elastic modulus, and the creep resistance of the HEO films. The mechanical properties of the HEO films are sensitive to the interaction between the He bubbles and the dominating defects.
作者
Zhao-Ming Yang
Kun Zhang
Nan Qiu
Hai-Bin Zhang
Yuan Wang
Jian Chen
杨朝明;张坤;裘南;张海斌;汪渊;陈坚(Key Laboratory of Radiation Physics and Technology of Ministry of Education, Institute of Nuclear Science and Technology,Sichuan University;Institute of Nuclear Physics and Chemistry, China Academy of Engineering Physics;Jiangsu Key Laboratory of Advanced Metallic Materials, School of Materials Science and Engineering,Southeast University)
基金
Project supported by the National Natural Science Foundation of China(Grant Nos.11775150 and 11505121)
