Distinct element method for multiscale modeling of cross-linked carbon nanotube bundles: From soft to strong nanomaterials

Igor Ostanin; Roberto Ballarini; Traian Dumitrica

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Distinct element method for multiscale modeling of cross-linked carbon nanotube bundles: From soft to strong nanomaterials

机译：用于多尺度交联碳纳米管束建模的独特元素方法：从软纳米材料到强纳米材料

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Predicting the impact of cross-links on the mechanics of carbon nanotube-based materials is a challenging endeavor, as the micro- and nanostructure is composed of continuous nanofibers, discontinuous interfaces, and covalent bridges. Here we demonstrate a new modeling solution in the context of the distinct element method (DEM). By representing nanotubes as bonded cylinder segments undergoing van der Waals adhesion, viscous friction, and contact bonding, we are able to simulate how cross-linking transforms a soft bundle into a strong one. We predict that the sp~3sp cross-links formed by interstitial carbon atoms can improve the tensile strength by an order of magnitude, in agreement with experiment and molecular dynamics simulations. The DEM methodology allows performing the multiscale simulation needed for developing strategies to further enhance the mechanical performance.

机译：预测交联对碳纳米管基材料力学的影响是一项具有挑战性的工作，因为微结构和纳米结构由连续的纳米纤维，不连续的界面和共价桥组成。在这里，我们在独特元素方法（DEM）的背景下演示了一种新的建模解决方案。通过将纳米管表示为经过范德华力粘附，粘滞摩擦和接触键合的键合圆柱部分，我们能够模拟交联如何将软束转变为牢固的束。我们预测，由间隙碳原子形成的sp〜3sp交联可以将拉伸强度提高一个数量级，这与实验和分子动力学模拟相符。 DEM方法允许执行开发策略以进一步增强机械性能所需的多尺度仿真。

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《Journal of Materials Research》 |2015年第1期|19-25|共7页
作者
Igor Ostanin; Roberto Ballarini; Traian Dumitrica;
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作者单位

Department of Civil Engineering, University of Minnesota, Minneapolis, Minnesota 55455, USA;

Department of Civil and Environmental Engineering, University of Houston, Houston, Texas 77204, USA;

Department of Mechanical Engineering, University of Minnesota, Minneapolis, Minnesota 55455, USA Department of Civil Engineering, University of Minnesota, Minneapolis, Minnesota 55455, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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Distinct element method for multiscale modeling of cross-linked carbon nanotube bundles: From soft to strong nanomaterials

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