Microstructure and Size Effects on the Mechanics of Two Dimensional, High Aspect Ratio Nanoparticle Assemblies

Marchi, Benjamin C.; Keten, Sinan

doi:10.3389/fmats.2019.00174

Cited by 8 publications

(7 citation statements)

References 81 publications

(151 reference statements)

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“…A significant difference was found between L-CNCs3 and L-CNCs7. The increase in Young's modulus in the L-CNCs/PVA films could be the result of two phenomena; (1) the formation of rod-like cellulose nanocrystals as observed by the AFM result and (2) the aspect ratio of hemp particle and L-CNCs [75].…”

Section: Tensile Properties Of the L-cncs/pva Filmsmentioning

confidence: 94%

Lignin–Cellulose Nanocrystals from Hemp Hurd as Light-Coloured Ultraviolet (UV) Functional Filler for Enhanced Performance of Polyvinyl Alcohol Nanocomposite Films

2021

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Lignin is a natural light-coloured ultraviolet (UV) absorber; however, conventional extraction processes usually darken its colour and could be detrimental to its UV-shielding ability. In this study, a sustainable way of fabricating lignin–cellulose nanocrystals (L-CNCs) from hemp hurd is proposed. A homogeneous morphology of the hemp particles was achieved by ball milling, and L-CNCs with high aspect ratio were obtained through mild acid hydrolysis on the ball-milled particles. The L-CNCs were used as filler in polyvinyl alcohol (PVA) film, which produced a light-coloured nanocomposite film with high UV-shielding ability and enhanced tensile properties: the absorption of UV at wavelength of 400 nm and transparency in the visible-light region at wavelength of 550 nm was 116 times and 70% higher than that of pure PVA, respectively. In addition to these advantages, the nanocomposite film showed a water vapour transmission property comparable with commercial food package film, indicating potential applications.

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Section: Tensile Properties Of the L-cncs/pva Filmsmentioning

confidence: 94%

Lignin–Cellulose Nanocrystals from Hemp Hurd as Light-Coloured Ultraviolet (UV) Functional Filler for Enhanced Performance of Polyvinyl Alcohol Nanocomposite Films

2021

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“…Depending on the research area, granular materials vary from small-scale molecules and dust to large-scale celestial bodies. [1][2][3][4][5] Among numerical methods for studying granular materials, the discrete element method (DEM) formulated by Cundall and Strack 6 is the most popular. This method assumes that a granular medium within a domain can be represented by a large set of individual particles.…”

Section: Introductionmentioning

confidence: 99%

“…The research scope ranges from mining and 3D printing to pharmaceutical processing. Depending on the research area, granular materials vary from small‐scale molecules and dust to large‐scale celestial bodies 1‐5 …”

Section: Introductionmentioning

confidence: 99%

A new constructive algorithm for random polydisperse dense disk pack generation

Lozano

Gattass

2021

Numerical Meth Engineering

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This article presents a novel strategy for the non-overlapping disk-packing problem for generating dense random assemblies. The proposed geometric algorithm adopts an advancing-front approach that uses novel heuristics to determine the next positions for incoming particles with support from a polygonal mesh. Additionally, we propose strategies to improve generation at the pack's interior and near container borders. Experiments demonstrate that our algorithm outperforms previous methods in terms of the desired particle radius distribution function, packing density, and mean number of particle contacts.

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“…Recently, it has been shown that a thin film of cellulose nanocrystal has a statistical size effect similar to fishnet's [22], implying that the fishnet model may apply to this type of material. Thanks to the general formulation of the fishnet probabilistic model, we can apply it at the low probability tail to quasibrittle particulate materials such as concrete, to fiber composites, and to architected nanomaterials such as the octet-truss nanolattice.…”

Section: Introductionmentioning

confidence: 99%

General Fishnet Statistics of Strength: Nacreous, Biomimetic, Concrete, Octet-Truss, and Other Architected or Quasibrittle Materials

Luo

Bažant

2019

Journal of Applied Mechanics

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The fishnet probabilistic model was recently developed to characterize the strength distribution of nacre-like biomimetic materials. It reveals that the unique fishnet-like connectivity of the material microstructure brings about enormous safety gain at the extremely low failure probability level of one out of a million, desired for engineering structures. The gist of the theory is that the material microstructure plays a determining role in its failure probability tail. Therefore, a carefully designed connectivity for a material microstructure not only enhances its mean strength but also significantly reduces its marginal failure risk. Here, we first show that the initially introduced series expansion and the newer formulation based on order statistics are, in the fishnet model, essentially equivalent. From that we develop a neat general form of the fishnet statistics. Then, we extend our theoretical approach to the strength distributions of architected nanomaterials such as the printed octet-truss carbon nanolattices, as well as to quasibrittle particulate composites such as concrete, and formulate a unified general fishnet statistics. We demonstrate that the octet-truss system can be physically seen and statistically treated as a union of three fishnets with three mutually orthogonal orientations. We show that the three-dimensional assembly of fishnets further enhances the tail strength at the 10−6 probability quantile, compared to two-dimensional (2D) fishnet statistics. We compare the performance of different statistical strength models by fitting of the simulated and experimental histograms data for the octet-truss nanolattice. Finally, we argue that, at the extreme lower tail of failure probability, quasibrittle materials such as concrete or fiber composites should partially exhibit the fishnet-type statistical behavior.

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Microstructure and Size Effects on the Mechanics of Two Dimensional, High Aspect Ratio Nanoparticle Assemblies

Cited by 8 publications

References 81 publications

Lignin–Cellulose Nanocrystals from Hemp Hurd as Light-Coloured Ultraviolet (UV) Functional Filler for Enhanced Performance of Polyvinyl Alcohol Nanocomposite Films

Lignin–Cellulose Nanocrystals from Hemp Hurd as Light-Coloured Ultraviolet (UV) Functional Filler for Enhanced Performance of Polyvinyl Alcohol Nanocomposite Films

A new constructive algorithm for random polydisperse dense disk pack generation

General Fishnet Statistics of Strength: Nacreous, Biomimetic, Concrete, Octet-Truss, and Other Architected or Quasibrittle Materials

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