余同希. 能量吸收研究60年——来自何处?走向何方? 力学与实践, 2024, 46(1): 1-17. doi:10.6052/1000-0879-23-227
引用本文: 余同希. 能量吸收研究60年——来自何处?走向何方? 力学与实践, 2024, 46(1): 1-17.doi:10.6052/1000-0879-23-227
Yu Tongxi. 60 years in the study of energy absorption: Where it came from and where it goes? Mechanics in Engineering, 2024, 46(1): 1-17. doi:10.6052/1000-0879-23-227
Citation: Yu Tongxi. 60 years in the study of energy absorption: Where it came from and where it goes?Mechanics in Engineering, 2024, 46(1): 1-17.doi:10.6052/1000-0879-23-227

能量吸收研究60年——来自何处?走向何方?

60 YEARS IN THE STUDY OF ENERGY ABSORPTION: WHERE IT CAME FROM AND WHERE IT GOES?

  • 摘要:本文论述能量吸收这个研究领域的诞生背景、简要历史和发展方向。第二次世界大战之后,以防护结构和运载工具的耐撞性为工程背景,加上塑性力学和结构冲击动力学学科发展的内生动力,结构和材料的能量吸收作为一个新兴研究领域在1960年代初萌生,到1970年代已经基本成形。在期刊和会议平台的支持下,这个新领域的研究在1980年代迎来了第一波热潮,聚焦于薄壁管件塑性大变形时的能量吸收机理。随着蜂窝、泡沫、格栅等多胞材料的兴起,研究和开发它们在能量吸收领域的应用,激发起2000年后的第二波热潮。其间不但揭示出了各种多胞材料的能量吸收机理,而且迅速地同电动车的电池组和新型防护结构等场景的应用结合起来。受生物启发的概念成为设计和开发新型超材料的灵感的源泉。增材制造、结构智能化,以及环保节能的概念,正在深度融入能量吸收系统的原理、设计和优化之中。

    Abstract:This article illustrates the birth background, brief history and development directions of the research field on energy absorption. After the Second World War, required by the engineering needs in protective structures and vehicles’ crashworthiness, coupled with the endogenous driving forces from the theory of plasticity and structural impact dynamics, the energy absorption of structures and materials sprouted as an emerging research field in the 1960s, then its aim and scope were well defined in the early 1970s. With the support of journals and conference platforms, studies in this new field ushered in the first wave of upsurge in the 1980s, focusing on the energy absorbing mechanisms of tubes and thin-walled elements. With the rise of cellular materials such as honeycombs, foams and lattices, the research and development of these materials related to energy absorption stimulated the second wave in the 2000s. During this period, not only the energy absorbing mechanisms of various cellular materials were modelled and revealed, but also the theoretical studies were quickly combined with the applications in electric vehicle battery packs and new-type protective structures, among others. Biologically inspired concepts are serving as a source of inspiration for the design and development of novel metamaterials. Additive manufacturing, structural intelligence, environmental protection and energy saving are more and more deeply integrated into the principles, design and optimization of energy absorption systems.

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