爆炸载荷下仿贝壳Voronoi砖泥结构的动态响应  

作　　者：陈鑫康 李志洋 雷建银 刘志芳 CHEN Xinkang;LI Zhiyang;LEI Jianyin;LIU Zhifang(Institute of Applied Mechanics,College of Mechanical and Vehicle Engineering,Taiyuan University of Technology,Taiyuan 030024,Shanxi,China)

机构地区：[1]太原理工大学机械与运载工程学院应用力学研究所,山西太原030024

出　　处：《高压物理学报》2024年第6期100-108,共9页Chinese Journal of High Pressure Physics

基　　金：国家自然科学基金(12372363,12272254);山西省自然科学基金(202203021211170)。

摘　　要：基于贝壳多尺度、多层级的砖泥结构,构建仿贝壳Voronoi砖泥结构。通过将3D打印、爆炸实验和数值模拟相结合,探索仿贝壳Voronoi砖泥结构在爆炸载荷下的动力学响应,研究Voronoi单元尺寸和层内软材料厚度对结构变形破坏模式和能量吸收的影响。实验结果表明:在40 g球形乳化炸药作用下,仿贝壳Voronoi砖泥结构的前面板中心处出现了向四周蔓延的径向裂纹,后面板出现小块材料脱落。在此基础上,建立了有限元模型,并验证了其有效性。随着药量的增加,仿贝壳Voronoi砖泥结构主要分为塑性变形、前后面板裂纹、小块材料脱落、结构整体贯穿破坏伴随夹持端剪切破坏4种破坏模式。研究发现:仿贝壳Voronoi砖泥结构中硬材料的水平正应力远大于垂直正应力,层间软材料的剪应变大于层内软材料的剪应变。层间软材料的比吸能远大于硬材料的比吸能,约为硬材料的1.8~2.3倍;随着Voronoi单元尺寸的增大,层内软材料的比吸能增大了45.6%;随着层内软材料厚度增加,层内软材料的比吸能增大了31.1%,允许结构进一步的塑性变形。研究结果为仿生结构设计提供了一定的技术依据。Inspired by the brick and mortar structure of multi-scale and multi-hierarchy,a nacre-like Voronoi brick and mortar structure was created.Afterwards,the dynamic response of nacre-like Voronoi brick and mortar structure under explosive load was explored by combining 3D printing,explosion experiments,and numerical simulations.The influence of the Voronoi unit cell size and the thickness of the intralaminar soft material on the damage mode as well as the energy absorption of the structure was analyzed.Under the spherical emulsion explosive charge of 40 g,the radial cracks appeared on the front face of the nacre-like Voronoi brick and mortar structure and then spread around,while small pieces of fragments fell off the back panel.A finite element model was built and showed good agreement with the experimental results.The damage modes of nacre-like Voronoi brick and mortar structures under different explosive charges include plastic deformation,cracks occurred on the front and back face,small pieces of material falling off,damage of whole structure accompanied with shear failure at the gripper end.The horizontal normal stress of the stiff material is much larger than the vertical normal stress.Meanwhile,the shear strain in the interlaminar soft material is much larger than that in the intralaminar soft material.The specific energy absorption is 1.8−2.3 times larger in the interlaminar soft material than that in the stiff material.With the increase of the Voronoi unit cell size,the specific energy absorption of the interlaminar soft material increases by 45.6%.As the thickness of the intralaminar soft material increases,the specific energy absorption of the intralaminar soft material increases by 31.1%.This study may provide some definite reference for the design of biologically inspired structures.

关 键 词：仿贝壳Voronoi砖泥结构 爆炸实验 动力学响应 比吸能 

分 类 号：O341[理学—固体力学] O521.9[理学—力学]