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Meeting 2020 TMS Annual Meeting & Exhibition
Symposium Fracture Modeling of Composite Materials
Presentation Title A Reactive Molecular Dynamics Study on the Mechanical Properties of Alumina/Carbon Nanotube Composites
Author(s) Yixin Su, Yang Wang, Narumasa Miyazaki, Yusuke Ootani, Nobuki Ozawa, Momoji Kubo
On-Site Speaker (Planned) Yixin Su
Abstract Scope Ceramics exhibit high stiffness and high-temperature stability, although brittleness limits their applications. Ceramic matrix composites (CMCs) with carbon nanotubes (CNTs) may provide a solution, yet previous experiments reported uncertainty in the reinforcement of CMCs with CNT. Consequently, the effect of variables such as annealing on reinforcement should be examined. In this research, the mechanical behavior of ceramic/CNT composites with and without annealing was investigated using reactive molecular dynamics methods. To reproduce CNTs at grain boundaries, amorphous alumina/CNT composites were considered. Without annealing, neither the Young’s modulus nor tensile strength changed with increasing CNT fraction. With annealing, both mechanical properties increased. Furthermore, the mechanical properties of the annealed models approach ideal predictions of composites, while those without annealing do not. The annealed models showed that CNT bore more atomic strain and showed less interfacial slippage between alumina and CNT. We assume that residual stress left by annealing contributes to this phenomenon.
Proceedings Inclusion? Planned: Supplemental Proceedings volume

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Reactive Molecular Dynamics Study on the Mechanical Properties of Alumina/Carbon Nanotube Composites
An Improved Fracture Mechanics-informed Multiscale Thermomechanical Damage Model for Ceramic Matrix Composites
An Integrated Computational and Experimental Framework to Understand the Competing Failure Mechanisms in Metal Matrix Composites
Computational Polyethylene-ceramic Composite Plate Design and Optimization
Developing a Virtual Damage Sensor Using a Multiscale Coupled Electro-mechanical FE Model of a Piezoelectric Material

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