Abstract
Xanthium-inspired nanoengineering was employed for the interfacial structure design and achieved strength-plasticity compatibility in graphene nanoplatelets (GNPs)/Ti composites. GNPs/Ti composites were fabricated by spark plasma sintering and subsequent heat treatment, a trace of TiB whisker (TiBw) in-situ formed directionally and modified the Ti-TiC-GNPs multiple interfaces effectively, which acted as the Threading the Needle role. Enhanced strength without sacrificing ductility were realized for GNPs-(TiBw)/Ti, which attributed to significant strengthening of GNPs coupled with ruggedized interface bonding. This method provided new insights into the novel microstructural and interfacial engineering strategy, which was responsible for extraordinary property.
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