激光熔融八边形双棱锥与Kelvin混合点阵结构的力学性能及变形机理OA
Mechanical properties and deformation mechanism of laser melting octagonal double pyramid and Kelvin hybrid lattice structure
点阵结构因其优异的力学性能,在航天器轻量化结构和缓冲吸能装置上展现出广阔的应用前景.本工作提出基于八边形双棱锥结构和 Kelvin结构的混合结构 1,并通过拉伸处理得到长宽高比为 2∶2∶3的混合结构 2,采用选区激光熔融制备对应的点阵结构.通过实验和仿真系统地研究混合结构的力学性能、吸能特性及变形机理.结果表明:混合结构的力学性能和吸能性能均得到显著增强;当相对密度相同时,混合结构 1的吸能效率提升 15.7%,混合结构 2的比强度和比吸能分别提升 93%和 92%.在变形机制方面,混合结构 1均匀坍塌,呈现出以弯曲为主导的变形机制;混合结构 2则是全程自下而上逐层坍塌.为了进一步改善混合结构变形机制和提高力学性能,对混合结构的几何参数进行优化,发现改变内外杆件直径比例 λ可以实现对混合结构的调整优化.λ=0.75时,混合结构1的综合性能最优,其比强度和比吸能分别提高21%和10%.
Due to their excellent mechanical properties,dot matrix structures show a broad application prospect for spacecraft lightweight structures and cushioning energy absorbing devices.In this paper,two hybrid structures based on octagonal bipyramidal structure and Kelvin structure are proposed,and the corresponding dot matrix structures are prepared by selected laser melting.The mechanical properties,energy-absorption characteristics and deformation mechanisms of the hybrid structures are systematically investigated through experiments and simulation.It shows that the mechanical and energy-absorbing properties of the hybrid structures are significantly enhanced;when the relative density is the same,the energy-absorbing efficiency of the hybrid structure 1 is increased by 15.7%,and the specific strength and specific energy-absorption of the hybrid structure 2 are increased by 93%and 92%,respectively.In terms of the deformation mechanism,the hybrid structure 1 uniformly collapses,which shows a bending-dominant deformation mechanism;while the hybrid structure 2 collapses layer by layer throughout the whole process from bottom to top.In order to further improve the deformation mechanism and enhance the mechanical properties of the hybrid structure,the geometric parameters of the hybrid structures are investigated.It is found that adjusting the ratio of inner and outer rod diameters can realize optimization of the hybrid structure.When λ=0.75,comprehensive performance of hybrid structure 1 is best,with in its specific strength and specific energy absorption increasing by 21%and 10%respectively.
余金桂;朱瑶;章桥新
武汉理工大学 机电工程学院,武汉 430070武汉理工大学 机电工程学院,武汉 430070武汉理工大学 机电工程学院,武汉 430070
航空航天
选区激光熔融混合点阵力学性能能量吸收几何参数优化
selected laser meltinghybrid latticemechanical propertyenergy absorptiongeometric parameter optimization
《航空材料学报》 2026 (4)
73-83,11
机械传动与制造工程湖北省重点实验室开放基金项目(MTMEOF2021B05)
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