Unraveling the multiscale damping properties of two-dimensional layered MXene

Abstract: MXene has emerged as an exciting two-dimensional nanomaterial because of its interesting multifunctional properties. In this paper, the authors report the multiscale damping behaviors of pure MAX and MXene. Dynamic loading of a multilayer MXene assembly shows an appreciable loss tangent (tan δ), indicating the energy-dissipation ability of the material. The tan δ value of MXene is recorded to be as high as 0·37, which is about a 200% improvement over that of pure MAX. It is hypothesized that there are multisca… Show more

“…Owing to the 2D nature of the MXene sheets, they can also be potential candidates for energy damping applications; for example, Loganathan et al [118] dealt with the multiscale damping properties of 2D MXene wherein the energy loss ability of MXene materials were studied; MXene nanosheets exhibited the loss tangent (tan δ) of 0.37 being two times (i.e., 200% improvement) more than the corresponding MAX phase mainly because of the mechanisms of interlayer bond interaction, interlayer compression, and sliding/shearing phenomena. Damping stability was measured as high as 50 000 cycles, which makes MXene a promising material for critical applications where vibration loss, stability against noise, and impact resistance are demanded.…”

Mechanotribological Aspects of MXene‐Reinforced Nanocomposites

“…Owing to the 2D nature of the MXene sheets, they can also be potential candidates for energy damping applications; for example, Loganathan et al [118] dealt with the multiscale damping properties of 2D MXene wherein the energy loss ability of MXene materials were studied; MXene nanosheets exhibited the loss tangent (tan δ) of 0.37 being two times (i.e., 200% improvement) more than the corresponding MAX phase mainly because of the mechanisms of interlayer bond interaction, interlayer compression, and sliding/shearing phenomena. Damping stability was measured as high as 50 000 cycles, which makes MXene a promising material for critical applications where vibration loss, stability against noise, and impact resistance are demanded.…”

Mechanotribological Aspects of MXene‐Reinforced Nanocomposites

Future Outlook for In-Situ Mechanics Approach

Review of additive manufacturing with 2D MXene: techniques, applications, and future perspectives