We investigate the cross-sectional buckling of multi-concentric tubular nanomaterials, which are called multiwalled carbon nanotubes (MWNTs), using an analysis based on thin-shell theory. MWNTs under hydrostatic press...We investigate the cross-sectional buckling of multi-concentric tubular nanomaterials, which are called multiwalled carbon nanotubes (MWNTs), using an analysis based on thin-shell theory. MWNTs under hydrostatic pressure experience radial buckling. As a result of this, different buckling modes are obtained depending on the inter-tube separation d as well as the number of constituent tubes N and the innermost tube diameter. All of the buckling modes are classified into two deformation phases. In the first phase, which corresponds to an elliptic deformation, the radial stiffness increases rapidly with increasing N. In contrast, the second phase yields wavy, corrugated structures along the circumference for which the radial stiffness declines with increasing N. The hard-to-soft phase transition in radial buckling is a direct consequence of the core-shell structure of MWNTs. Special attention is devoted to how the variation in d affects the critical tube number Nc, which separates the two deformation phases observed in N -walled nanotubes, i.e., the elliptic phase for N Nc. We demonstrate that a larger d tends to result in a smaller Nc, which is attributed to the primary role of the interatomic forces between concentric tubes in the hard-to-soft transition during the radial buckling of MWNTs.展开更多
为了开发高效的太阳能冷却技术,建立了一个由光伏(photovoltaic,PV)模块和基于范德华异质结构(van der Waals heterostructure,vdWH)的热离子制冷器(thermionic refrigerator,TIR)组成的新型耦合系统。在充分考虑内部和外部的不可逆因...为了开发高效的太阳能冷却技术,建立了一个由光伏(photovoltaic,PV)模块和基于范德华异质结构(van der Waals heterostructure,vdWH)的热离子制冷器(thermionic refrigerator,TIR)组成的新型耦合系统。在充分考虑内部和外部的不可逆因素的情况下,建立了耦合系统的理论模型,推导了关键性能指标的数学表达式。在此基础上,研究了耦合系统的一般性能特征,并确定了允许系统运行的电压区域。根据计算,最大制冷量和最大性能系数(coefficient of performance,COP)分别为75.88 W和0.49。此外,还进行了灵敏度分析,以得出关键参数对整体性能影响的规律和大小,包括太阳辐照度、有效肖特基势垒高度、层间热阻、外部热阻、热泄漏热阻和热库温度。所得结果可能有助于实际耦合系统的设计和运行。展开更多
文摘We investigate the cross-sectional buckling of multi-concentric tubular nanomaterials, which are called multiwalled carbon nanotubes (MWNTs), using an analysis based on thin-shell theory. MWNTs under hydrostatic pressure experience radial buckling. As a result of this, different buckling modes are obtained depending on the inter-tube separation d as well as the number of constituent tubes N and the innermost tube diameter. All of the buckling modes are classified into two deformation phases. In the first phase, which corresponds to an elliptic deformation, the radial stiffness increases rapidly with increasing N. In contrast, the second phase yields wavy, corrugated structures along the circumference for which the radial stiffness declines with increasing N. The hard-to-soft phase transition in radial buckling is a direct consequence of the core-shell structure of MWNTs. Special attention is devoted to how the variation in d affects the critical tube number Nc, which separates the two deformation phases observed in N -walled nanotubes, i.e., the elliptic phase for N Nc. We demonstrate that a larger d tends to result in a smaller Nc, which is attributed to the primary role of the interatomic forces between concentric tubes in the hard-to-soft transition during the radial buckling of MWNTs.
文摘为了开发高效的太阳能冷却技术,建立了一个由光伏(photovoltaic,PV)模块和基于范德华异质结构(van der Waals heterostructure,vdWH)的热离子制冷器(thermionic refrigerator,TIR)组成的新型耦合系统。在充分考虑内部和外部的不可逆因素的情况下,建立了耦合系统的理论模型,推导了关键性能指标的数学表达式。在此基础上,研究了耦合系统的一般性能特征,并确定了允许系统运行的电压区域。根据计算,最大制冷量和最大性能系数(coefficient of performance,COP)分别为75.88 W和0.49。此外,还进行了灵敏度分析,以得出关键参数对整体性能影响的规律和大小,包括太阳辐照度、有效肖特基势垒高度、层间热阻、外部热阻、热泄漏热阻和热库温度。所得结果可能有助于实际耦合系统的设计和运行。