He irradiation effects in bulk Cu/V nanolayered composites fabricated by cross accumulative roll bonding

Abstract

Bulk nanolayered Cu/V composites simultaneously exhibit high strength and outstanding thermal stability due to its unusually high density of interfaces. However, investigation of the irradiation stability of this material is still in its infancy, limiting further application of these materials under radiation conditions. Herein we investigated the radiation response of bulk nanolayered Cu/V composites exposed to 200 keV He ions with two irradiation fluences of 2 × 1021 ions/m2 and 7 × 1022 ions/m2. It is demonstrated that the bulk Cu/V nanolayered composites remained stable with respect to mechanical property and microstructure after irradiation with fluence of 2 × 1021 ions/m2. In contrast, for materials exposed to high irradiation fluence of 7 × 1022 ions/m2, severe irradiation damage, such as obvious surface blistering, elongated He voids, and layer morphological instability, were developed. In addition, asymmetric He bubbles distribution and obvious He bubble-free zones were observed near the Cu/V interfaces and within layers. The mechanisms of radiation-induced instabilities and He bubbles formation are discussed in detail.