Peridynamic simulation of fracture in polycrystalline graphene
Liu, Xuefeng and He, Xiaoqiao and Oterkus, Erkan and Yu, Peng and Lu, Chun (2023) Peridynamic simulation of fracture in polycrystalline graphene. Journal of Peridynamics and Nonlocal Modeling, 5. 260–274. ISSN 2522-8978 (https://doi.org/10.1007/s42102-021-00073-y)
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Abstract
Defect free graphene is believed to be the strongest material. However, the effective strength of engineering used large area graphene in which defects are inevitable is actually determined by the fracture toughness, rather than the intrinsic strength that governs the break age of atomic bonds in perfect graphene. Due to the limitations of commonly adopted experiments, conventional continuum mechanics based methods and fully atomistic simulations fracture of polycrystalline graphene under uniaxial tensile load is explored by performing peridynamic (simulations in this paper The fracture strength, the fracture strain and the fracture toughness of polycrystalline graphene as well as the grain size effect and the temperature effect on such quantities are studied in this work. The results show that the fracture strength of polycrystalline graphene and the grain size follows an inverse pseudo Hall-Petch relation . The fracture strain and the fracture toughness of polycrystalline graphene decrease with a decrease in the grain size Increasing temperature can also weaken the fracture properties of graphene. The results can provide guidelines for the applications of polycrystalline graphene in nano devices . T his study also expands the application of peridynamics and presents a new way to study the fracture of graphene.
ORCID iDs
Liu, Xuefeng, He, Xiaoqiao, Oterkus, Erkan ORCID: https://orcid.org/0000-0002-4614-7214, Yu, Peng and Lu, Chun;-
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Item type: Article ID code: 79123 Dates: DateEventJune 2023Published20 January 2022Published Online10 November 2021AcceptedSubjects: Naval Science > Naval architecture. Shipbuilding. Marine engineering Department: Faculty of Engineering > Naval Architecture, Ocean & Marine Engineering Depositing user: Pure Administrator Date deposited: 13 Jan 2022 16:25 Last modified: 03 Dec 2024 01:22 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/79123