2018
DOI: 10.1088/1361-648x/aaa3cc
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Stillinger–Weber potential for elastic and fracture properties in graphene and carbon nanotubes

Abstract: This paper presents a new framework for determining the Stillinger-Weber (SW) potential parameters for modeling fracture in graphene and carbon nanotubes. In addition to fitting the equilibrium material properties, the approach allows fitting the potential to the forcing behavior as well as the mechanical strength of the solid, without requiring ad hoc modification of the nearest-neighbor interactions for avoiding artificial stiffening of the lattice at larger deformation. Consistent with the first-principles … Show more

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Cited by 36 publications
(24 citation statements)
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“…According to the characteristics of PSIgraphene and graphene sheets, the range between 0° and 180° was observed in Figure 3a,b, and the The mechanical properties of PSI-graphene and graphene can be described by two independent constants, i.e., ultimate strength and Young's modulus. According to the characteristics of PSI-graphene and graphene sheets, the range between 0 • and 180 • was observed in Figure 3a,b, and the range between 0 • and 30 • was observed in Figure 3c, [36]. The Young's modulus was reduced by about 12.6%.…”
Section: Mechanical Properties Of Structure At Stretching Along Diffementioning
confidence: 93%
See 1 more Smart Citation
“…According to the characteristics of PSIgraphene and graphene sheets, the range between 0° and 180° was observed in Figure 3a,b, and the The mechanical properties of PSI-graphene and graphene can be described by two independent constants, i.e., ultimate strength and Young's modulus. According to the characteristics of PSI-graphene and graphene sheets, the range between 0 • and 180 • was observed in Figure 3a,b, and the range between 0 • and 30 • was observed in Figure 3c, [36]. The Young's modulus was reduced by about 12.6%.…”
Section: Mechanical Properties Of Structure At Stretching Along Diffementioning
confidence: 93%
“…The Young's modulus was 1033 GPa at 0°. The Young's modulus had a minimum in the direction of 0°, 60°, 120°, 180°, 240° and 300°, which was 903 GPa [36]. The Young's modulus was reduced by about 12.6%.…”
Section: Mechanical Properties Of Structure At Stretching Along Diffementioning
confidence: 93%
“…Each sample has a similar size of about 200Å×200Å and consists of about 16,000 carbon atoms. These configurations are selected to ensure that the system size has trivial effects on the results [21]. Details about the graphene samples are summarized in Table 1 of the supplementary materials. For all the simulations, the time step was set at 0.00025 ps and the Newton's equation of motion were numerically integrated using the velocity-Verlet algorithm [22].…”
Section: Simulation Methodsmentioning
confidence: 99%
“…Among them, ab-initio simulations (Kudin et al, 2001;Baumeier et al, 2007;Liu et al, 2007) are the most accurate tools available to investigate the behavior of nanomaterials, including their mechanics, but they demand a lot of computer power and so they are not always feasible for systems with very many atoms. For this reason, increasing attention has been given to molecular dynamics/statics formulations (Liew et al, 2004;Lu et al, 2009;Xiao et al, 2009;Zhao et al, 2009;Georgantzinos et al, 2012;Silvestre et al, 2012;Berinskii and Borodich, 2013;Davini, 2014;Theodosiou and Saravanos, 2014;Gamboa et al, 2015;Korobeynikov et al, 2015Korobeynikov et al, , 2018Budarapu et al, 2017;Davini et al, 2017;Genoese et al, 2017Genoese et al, , 2018aGenoese et al, ,b, 2019Hossain et al, 2018;Sgouros et al, 2018;Singh and Patel, 2018b) or their structural-mechanical approximations (e.g., nanoscale equivalent beam and truss models; Sakhaee-Pour, 2009a,b;Georgantzinos et al, 2010;Alzebdeh, 2012;Giannopoulos, 2012;Tserpes, 2012;Firouz-Abadi et al, 2016;Rafiee and Eskandariyun, 2017;Savvas and Stefanou, 2018) and to continuum models (Chang, 2010;Aminpour and Rizzi, 2016;Ghaffari et al, 2018;Singh and Patel, 2018a;Zhang et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…Most of the research on graphene has focused on its rigidities, the frequencies of free vibration, and tensile failure properties and this has produced also a refinement of the parameters of simple bonding potentials (Genoese et al, 2017;Hossain et al, 2018;Korobeynikov et al, 2018), such as the DREIDING, the Stillinger-Weber or the modified Morse potentials. Currently, molecular statics formulations based on these potentials are considered to be the best compromise at the atomistic scale in non-linear contexts, where the simplicity of the models is a major requirement.…”
Section: Introductionmentioning
confidence: 99%