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【新文速递】2024年7月27日复合材料SCI期刊最新文章

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今日更新:Composite Structures 3 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 1 篇

Composite Structures

Effects of low-velocity impact on the quasi-static and fatigue performance of 3D woven composites

Jinzhao Huang, Tao Zheng, T.E. Tay, Licheng Guo, V.B.C. Tan, Enquan Chew, J.L. Liu

doi:10.1016/j.compstruct.2024.118395

低速冲击对三维机织复合材料准静态和疲劳性能的影响

This work investigates the static and fatigue degradation after low-velocity impact (LVI) and the corresponding mechanisms of 3D woven carbon/epoxy composites with a fiber volume fraction of 53 %. Drop weight tests employing impact energies ranging from 6 J to 20 J are performed to introduce damage to the specimens. Quasi-static tension tests after impact (TAI) and tension–tension fatigue tests after impact (FAI) are then carried out to study the post-impact behaviors. The results of TAI tests show that the residual strength decreases linearly by up to 62 % as impact energy increases to 20 J. Similarly, residual stiffness shows a linear decline with increasing impact energy until 15 J. However, as the impact energy increases to 20 J, the residual stiffness decreases significantly and deviates from linear decreasing trend due to the impact causing fiber breakage. The FAI test results show that LVI can reduce the fatigue life. But such an effect is limited for small loading levels. It is worth noticing that even slight impact damage can reduce the static and fatigue performance significantly. To understand the mechanisms behind it, the damage evolution in TAI and FAI tests is analyzed through the CT technique. The results show that even though low energy LVI does not cause fiber fracture, the stress concentrations induced by matrix cracking and delamination still reduce the uniformity of the internal stresses, thus causing fiber fracture in sequence and reducing the mechanical and fatigue performance of 3D woven composites.

本文研究了纤维体积分数为53 %的三维编织碳/环氧复合材料在低速冲击(LVI)后的静态和疲劳退化及其相应机制。采用冲击能量范围为6 J至20 J的落锤试验对试件进行了损伤。然后进行了准静态冲击后拉伸试验(TAI)和冲击后拉伸疲劳试验(FAI),研究了冲击后的行为。TAI试验结果表明,当冲击能量增加到20 J时,残余强度线性降低高达62 %。同样,残余刚度随着冲击能量的增加呈线性下降,直至15 J。然而,当冲击能量增加到20 J时,残余刚度明显减小,并偏离了冲击导致纤维断裂的线性减小趋势。FAI试验结果表明,LVI会降低疲劳寿命。但这种效果在小负荷水平下是有限的。值得注意的是,即使是轻微的冲击损伤也会显著降低静力和疲劳性能。为了了解其背后的机制,通过CT技术分析了TAI和FAI试验中的损伤演变过程。结果表明:即使低能量LVI不会导致纤维断裂,但基体开裂和分层引起的应力集中仍然降低了内应力的均匀性,从而导致纤维顺序断裂,降低了三维机织复合材料的力学和疲劳性能。


Plastic deformation behavior and energy absorption performance of a composite metamaterial based on asymmetric auxetic lattices

César Garrido, Gonzalo Pincheira, Rodrigo Valle, Jorge Fernández, Víctor Tuninetti

doi:10.1016/j.compstruct.2024.118410

基于非对称形变晶格的复合材料塑性变形行为及吸能性能

This study focuses on the design, behavior and experimental analysis of a novel metamaterial, consisting of an asymmetric auxetic three-dimensional structure (AATS) infused with polyester resin. Utilizing FDM additive printing, samples were created with customizable responses to compressive loads through varied design parameters. The objective is to surpass traditional material blending by enhancing stiffness and energy absorption. Striking a delicate balance, the AATS energy absorption properties are preserved while leveraging the stiffness of the resin. Despite its compact cubic form, not exceeding 27 mm on each side, this metamaterial showcases amplified characteristics, blending the AATS and polyester resin. The results hint at promising applications across military defense, automotive, aerospace sectors, and even potential replacements for articulated human skeletal components.

本文研究了一种新型超材料的设计、性能和实验分析,该材料是由注入聚酯树脂的不对称三维结构(AATS)组成的。利用FDM增材打印,通过不同的设计参数创建具有可定制的压缩载荷响应的样品。目标是通过增强刚度和能量吸收来超越传统的材料混合。在利用树脂刚度的同时,保持了AATS能量吸收特性,达到了微妙的平衡。尽管其紧凑的立方体形式,每边不超过27毫米,这种超材料展示了放大的特性,混合了AATS和聚酯树脂。研究结果表明,该技术在军事国防、汽车、航空航天领域的应用前景广阔,甚至可能替代人体骨骼的关节部件。


A novel damage localization technique for type III composite pressure vessels based on guided wave mode-matching method

Chaojie Hu, Xiaoli Fu, Yiwen Yuan, Biao Xiao, Maoxun Sun, Bin Yang

doi:10.1016/j.compstruct.2024.118414

基于导波模态匹配的III型复合材料压力容器损伤定位新方法

Damage monitoring during the service life of Type III composite overwrapped pressure vessels (COPVs) is crucial for ensuring their safe operation. This paper focuses on the damage localization in COPVs using ultrasonic guided waves structural health monitoring (SHM) techniques. Firstly, dispersion curves were plotted to establish a foundation for experiments and simulations based on the propagation theory of guided waves in multilayered anisotropic structures. Subsequently, a 3D finite element model of COPV was constructed to capture the propagation characteristics of guided waves within the COPV and their interaction with damage. The effects of different fiber angles and fiber layer numbers on guided waves propagation were analyzed, and their interrelationships were established. Furthermore, the “Wave Velocity Directionality” effect of the A0 mode was identified during its propagation in COPV. The monitoring signals obtained from experiments were analyzed to assess the impact of damage on the time-domain and frequency-domain signals of guided waves. Finally, a damage localization algorithm based on mode-matching was proposed, and its localization accuracy was verified in COPVs with different damage locations and fiber layer numbers. The results demonstrate the significant potential of the proposed damage localization algorithm in the damage monitoring of COPV structures.

在第三类复合材料包覆压力容器(COPV)的使用寿命期间进行损伤监测对于确保其安全运行至关重要。本文重点介绍利用超声导波结构健康监测(SHM)技术对 COPV 进行损伤定位。首先,根据导波在多层各向异性结构中的传播理论,绘制了频散曲线,为实验和模拟奠定了基础。随后,构建了 COPV 的三维有限元模型,以捕捉导波在 COPV 内的传播特性及其与损伤的相互作用。分析了不同纤维角度和纤维层数对导波传播的影响,并建立了它们之间的相互关系。此外,还确定了 A0 模式在 COPV 中传播时的 “波速方向性 ”效应。通过分析实验获得的监测信号,评估了损伤对导波时域和频域信号的影响。最后,提出了一种基于模式匹配的损伤定位算法,并在不同损伤位置和光纤层数的 COPV 中验证了该算法的定位精度。结果证明了所提出的损伤定位算法在 COPV 结构损伤监测中的巨大潜力。


Composites Part A: Applied Science and Manufacturing

Development of an electro-thermo-mechanical 4D printed multi-shape smart actuator: Experiments and simulation

R. Delbart, C. Robert, T. Quynh Truong Hoang, F. Martinez-Hergueta

doi:10.1016/j.compositesa.2024.108381

电-热-机械4D打印多形状智能执行器的研制:实验与仿真

This investigation presents an experimental and numerical approach to developing 4D printed multi-shape actuators with an integrated electrical self-triggering system. It employs a multifunctional shape memory carbon black Polylactic Acid (PLA) layer embedded within rubbery thermoplastic polyurethane (TPU). Notably, these thermo-responsive actuators are programmed and triggered using Joule’s effect, eliminating the need for an external heat source and enabling precise control of temperature gradients. Two distinct motion mechanisms are employed: the differences in thermal expansion coefficient between the PLA/TPU polymers below the glass transition temperature, and the shape memory effect of the PLA layer above the glass transition temperature. As a result, a diverse range of motion responses can be achieved by adjusting the potential differences. A coupled electro-thermo-mechanical finite element model is used to gain further insight into the motion mechanisms, offering predictive capabilities beyond the ones reported by previous models. The developed technology provides enhanced actuation capabilities to conventional bi-shape SMP actuators, offering a versatile range of bending cycles. Furthermore, Joule’s effect enables the implementation of closed-loop control systems, which is essential for developing autonomous robotic systems.

本研究提出了一种实验和数值方法来开发具有集成电自触发系统的4D打印多形状执行器。它采用了一种多功能形状记忆碳黑聚乳酸(PLA)层嵌入橡胶热塑性聚氨酯(TPU)。值得注意的是,这些热响应执行器使用焦耳效应进行编程和触发,从而消除了对外部热源的需求,并能够精确控制温度梯度。采用两种不同的运动机制:低于玻璃化转变温度的PLA/TPU聚合物之间的热膨胀系数差异,以及高于玻璃化转变温度的PLA层的形状记忆效应。因此,通过调整电位差可以实现不同范围的运动响应。一个耦合的电-热-机械有限元模型用于进一步深入了解运动机制,提供超出先前模型报告的预测能力。开发的技术为传统的双形状SMP执行器提供了增强的驱动能力,提供了多种弯曲循环。此外,焦耳效应能够实现闭环控制系统,这对于开发自主机器人系统至关重要。


Composites Part B: Engineering

3D crack recognition in Engineered Cementitious Composites (ECC) based on super-resolution reconstruction and semantic segmentation of X-ray Computed Microtomography

Zhexin Hao, Cong Lu, Biqin Dong, Victor C. Li

doi:10.1016/j.compositesb.2024.111730

基于超分辨率重建和x射线计算机微断层扫描语义分割的工程胶凝复合材料三维裂纹识别

Characterization of internal 3D crack morphology in Engineered Cementitious Composites (ECC) using X-ray Computed Microtomography (μ-CT) supports in-depth studies of ECC's post-cracking properties. However, it is challenging due to the need to minimize specimen size for improving precision and the difficulty in distinguishing fine cracks from pores/noise. This study develops a Transformer-based super-resolution model to enhance μ-CT voxel precision, from the perspective of Computer-Vision. State-of-the-art performance is achieved in both Peak Signal to Noise Ratio (PSNR) and Structural Similarity Index Measure (SSIM). Further, a scenario-customized semantic segmentation model is built to realize pixel-wise recognition, confirming low errors compared to manual measurements. The proposed two-stage method facilitates μ-CT precision enhancement and 3D crack segmentation without human intervention, enabling reconstruction of 3D cracks in ECC with accurate width and detailed information. This approach provides the potential for automated, high precision quantitative analysis of multiple 3D cracks in ECC.

利用x射线计算机微断层扫描(μ-CT)表征工程胶凝复合材料(ECC)内部三维裂纹形态,为深入研究ECC的开裂后特性提供了基础。然而,由于需要最小化试样尺寸以提高精度,并且难以从孔隙/噪声中区分细微裂纹,因此具有挑战性。本文从计算机视觉的角度出发,开发了一种基于transformer的超分辨率模型,以提高μ-CT体素精度。在峰值信噪比(PSNR)和结构相似性指数测量(SSIM)中均实现了最先进的性能。此外,建立了一个场景定制的语义分割模型来实现逐像素识别,与手动测量相比,确认了较低的误差。该方法实现了μ-CT精度增强和三维裂缝分割,无需人工干预,实现了ECC中三维裂缝的重建,具有准确的宽度和详细信息。这种方法为ECC中多个三维裂缝的自动化、高精度定量分析提供了可能。



来源:复合材料力学仿真Composites FEM
ACTMechanicalAdditiveSystemDeform疲劳断裂复合材料航空航天汽车增材裂纹理论材料机器人控制试验
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首次发布时间:2024-11-21
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【新文速递】2024年8月1日固体力学SCI期刊最新文章

今日更新:Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 3 篇Journal of the Mechanics and Physics of SolidsMechanochemical patterning and wave propagation in multicellular tubesPengyu Yu, Bo Lidoi:10.1016/j.jmps.2024.105801多细胞管中的机械化学模式和波传播Multicellular tubes are fundamental tissues for transporting and distributing liquids and gases in living organisms. Although the molecular, cellular and mechanical aspects in tube formation have been addressed experimentally, how these factors are coupled to control tube patterning and dynamics at the tissue level remains incompletely understood. Here, we propose a three-dimensional (3D) vertex model that incorporates a mechanochemical feedback loop correlating cell deformation and actomyosin signaling pathway to probe the morphodynamics of multicellular tubes. We show that diverse patterns, including ring, helix, double helix, and labyrinth, are generated in tubes through pitchfork bifurcation, where spatial fluctuations of both biochemical signaling and 3D cell deformation are remarkably involved. The mechanochemical feedback loop enables cell oscillations via Hopf bifurcation, which induces the mechanical and chemical patterns to propagate successively as either travelling or pulse waves while their spatial configurations are maintained, strikingly distinct from the classical Turing instability. Our simulations, together with stability analysis of a minimal model, uncover the essential role of mechanochemical principles in sculpting biological tubes.多细胞管是生物体内运输和分配液体和气体的基本组织。虽然试管形成的分子、细胞和力学方面已经在实验中得到了解决,但这些因素如何耦合到组织水平上控制试管的模式和动力学仍然不完全清楚。在这里,我们提出了一个三维(3D)顶点模型,该模型结合了与细胞变形和肌动球蛋白信号通路相关的机械化学反馈回路,以探测多细胞管的形态动力学。我们发现不同的模式,包括环,螺旋,双螺旋和迷宫,通过干草叉分叉在管中产生,其中生化信号和三维细胞变形的空间波动显著参与。机械化学反馈回路通过Hopf分岔使细胞振荡,这诱导机械和化学模式作为行波或脉冲波连续传播,同时保持它们的空间构型,与经典的图灵不稳定性明显不同。我们的模拟,连同最小模型的稳定性分析,揭示了机械化学原理在雕刻生物管中的重要作用。Mechanics of MaterialsMedium entropy alloy-induced strong size dependence in the strengthening and shear instability of nanolayered metallic compositesFeng Qin, Kaiqing Dai, Junhua Hou, Wenjun Lu, Shaohua Chen, Jianjun Lidoi:10.1016/j.mechmat.2024.105107中熵合金对纳米层金属复合材料的增强和剪切失稳具有很强的尺寸依赖性Medium/high entropy alloys (M/HEAs)-based nanolayered metallic composites have attracted intensive scientific interests due to their superior mechanical properties. However, the shear instability of the M/HEAs-based composites is rarely studied and the underlying mechanism remains uncovered. A combination of theoretical analysis and nano/microindentation tests was conducted to investigate the size-dependent strengthening and shear instability of Cu/CrCoNi composites. The results show that the shear banding-induced instability of the composites exhibit a clear transition from layer interfaces-mediated kinking to grain boundaries-accommodated one at a critical layer thickness of 25 nm, which apparently differs from those in traditional M/HEAs-free composites. The sudden change in the deformation mode originates from the MEA-induced size-dependent microstructure transformation, i.e., from horizontally aligned layer interfaces at large layer thicknesses to vertically aligned grain boundaries at small ones. The size-dependent strengthening and plasticity can be respectively captured by the confined layer slip model and the proposed theoretical model.中高熵合金(M/HEAs)基纳米层金属复合材料以其优异的力学性能引起了科学界的广泛关注。然而,对M/ heas基复合材料剪切失稳的研究很少,其潜在机制也尚未揭示。采用理论分析和纳米/微压痕试验相结合的方法研究了Cu/CrCoNi复合材料的尺寸依赖性强化和剪切不稳定性。结果表明,在25 nm的临界层厚处,剪切带诱导的复合材料的失稳表现出从层界面介导的扭结到晶界调节的扭结的明显转变,这与传统的无M/ heas复合材料明显不同。变形模式的突变源于mea诱导的尺寸相关的微观结构转变,即从大层厚处水平排列的层界面到小层厚处垂直排列的晶界。约束层滑移模型和本文提出的理论模型可以分别捕获与尺寸相关的强化和塑性。International Journal of PlasticityChromium Gradient Stainless Steels with Simultaneous High Strength, Ductility, and Corrosion-resistant: In-depth Study of Continuous Hardening MechanismsHaodi Yang, Zhutian Xu, Linfa Peng, Xinmin Lai, Mingwang Fudoi:10.1016/j.ijplas.2024.104082 同时具有高强度、延展性和耐腐蚀性的铬梯度不锈钢:连续硬化机制的深入研究Cr-rich stainless steel sheets exhibit superior corrosion resistance but low ductility, which presents a trade-off between fabrication complexity and performance of the materials in multiple industrial applications, such as marine equipment and microreactors. By transitioning the Cr-rich (30 wt.% Cr) stainless steel component to SS 316L with a smooth composition gradient in the thickness direction, the intrinsic homogeneous elongation of the Cr-rich layer was increased by 260 % while maintaining the naturally high corrosion resistance (100 %) and retaining most of the strength (more than 80 %). By employing in-situ tensile testing and electron backscatter diffraction analysis, it was revealed that the Cr-rich layer in the gradient structure underwent a profound deformation mechanism, including significant heterogeneous deformation-induced hardening and grain reorientation induced by multiplication and accumulation of geometrically necessary dislocations, in such a way to enable a substantial plastic strain and thereby retarding the occurrence of fracture. The proportion of the Cr-rich layer makes a significant impact on the magnitude of the strain gradient in the gradient specimens, therefore affecting the increment of density of geometrically necessary dislocations. The critical proportion value of the Cr-rich layer is found to be around 22 %. Before and after the critical value the gradient specimens showed different sensitivities to the proportion. This discovery underlines the significance of intrinsic plasticity in low-ductility metals and the role of compositional gradient materials in enhancing strength and ductility.富铬不锈钢板具有优异的耐腐蚀性,但延展性低,这在多种工业应用(如船舶设备和微反应器)中提出了制造复杂性和材料性能之间的权衡。通过将富Cr (30wt .% Cr)不锈钢组分转变为具有光滑厚度梯度的SS 316L,富Cr层的本构均匀伸长率提高了260%,同时保持了天然的高耐腐蚀性(100%)和大部分强度(80%以上)。通过原位拉伸测试和电子背散射衍射分析,发现梯度结构中的富cr层发生了深刻的变形机制,包括显著的非均质变形诱导的硬化和几何必要位错的增殖和积累引起的晶粒重定向,从而产生了大量的塑性应变,从而延缓了断裂的发生。富cr层的比例对梯度试样中应变梯度的大小有显著影响,从而影响几何必要位错密度的增量。富cr层的临界比例值在22%左右。在临界值前后,梯度试样对比例的敏感性不同。这一发现强调了低延性金属的内在塑性的重要性,以及成分梯度材料在提高强度和延性方面的作用。Thin-Walled StructuresExperimental, numerical, and analytical studies of asymmetric bolted square hollow section splices in bendingRui Yan, Milan Veljkovic, Luís Simões Da Silvadoi:10.1016/j.tws.2024.112282非对称螺栓方空心截面接头弯曲的实验、数值和分析研究The flexural behaviour of two types of asymmetric bolted square hollow section (SHS) splices is investigated in this paper. The asymmetric bolted SHS splices are derived from the traditional bolted end plate SHS joints but with the end plate flushed to the SHS surface on one side or two adjacent sides, where a cover plate connects two SHSs. Firstly, four-point bending tests are conducted for two configurations under different loading conditions. Next, finite element (FE) analysis is carried out to simulate the experiments. To reduce the computational time, a simplified FE model is developed, which is further employed for a parametric study. Finally, the component method, which was extended for the asymmetric bolted SHS splices under tensile load, is verified against the FE models in the parametric study. The results show that the extended component method could effectively predict the stiffness and the resistance of bolted asymmetric SHS splices under different bending loads.本文研究了两种非对称螺栓方空心截面(SHS)接头的抗弯性能。非对称螺栓连接SHS是在传统螺栓端板SHS连接的基础上发展而来的,但其端板在一侧或相邻的两侧冲到SHS表面,其中盖板连接两个SHS。首先,对两种结构进行了不同加载条件下的四点弯曲试验。其次,对实验进行了有限元模拟分析。为了减少计算时间,建立了一个简化的有限元模型,并将其进一步用于参数化研究。最后,通过参数化研究中的有限元模型验证了对拉伸载荷作用下非对称螺栓SHS接头的构件分析方法。结果表明,扩展分量法可以有效地预测不同弯曲载荷下螺栓非对称SHS接头的刚度和阻力。Nonlinear vibrations of variable speed rotating graphene platelets reinforced blades subjected to combined parametric and forced excitationJin-Peng Song, Gui-Lin She, M.A. Eltaherdoi:10.1016/j.tws.2024.112283参数激励与强制激励联合作用下石墨烯片增强叶片的非线性振动It is generally acknowledged that the disturbance of rotating speed will cause parametric resonance for blades, and the presence of rotor displacement also can make the blade vibrate transversely. However, the coupled resonance mechanism of blades under the combined action of rotating speed disturbance and rotor displacement is not yet clear. To answer this question, this article investigates the nonlinear coupled resonance behavior of rotating blades in two cases: typical tuned (the frequency ratio of parametric and forced excitations equals 2:1) and frequency ratio detuned. A nonlinear vibration equation for rotating blades is established based on Euler beam theory in conjunction with geometric nonlinearity. The mixing rule and modified Halpin-Tsai model are used to calculate the effective properties of GPLRMF materials. Subsequently, using the method of varying amplitudes (MVA), an approximate analytical solution of the coupled resonance response is derived, the Jacobian matrix is used to determine the stability of non-trivial solutions, and the accuracy of the analytical results is verified with the aid of numerical solutions. Finally, the steady-state response of typical tuned and detuned coupled resonance is analyzed, and the influence mechanism of factors such as excitation amplitude, excitation phase angle and other parameters on coupled resonance is studied in detail. The results indicate that the supercritical coupled resonance curve exhibits double resonance peaks and jumps. Meanwhile, the steady-state response of coupled resonance highly depends on the excitation phase angle.一般认为转速的扰动会引起叶片的参数共振,转子位移的存在也会使叶片产生横向振动。然而,叶片在转速扰动和转子位移共同作用下的耦合共振机理尚不清楚。为了回答这个问题,本文研究了两种情况下旋转叶片的非线性耦合共振行为:典型调谐(参数激励与强迫激励的频率比等于2:1)和频率比调谐。基于欧拉梁理论,结合几何非线性,建立了旋转叶片的非线性振动方程。采用混合规则和修正的Halpin-Tsai模型计算了GPLRMF材料的有效性能。随后,采用变幅法推导了耦合共振响应的近似解析解,利用雅可比矩阵确定了非平凡解的稳定性,并借助数值解验证了解析结果的准确性。最后,分析了典型调谐和失调谐耦合谐振的稳态响应,详细研究了激励幅值、激励相位角等参数对耦合谐振的影响机理。结果表明,超临界耦合共振曲线呈现双共振峰和双共振跳变。同时,耦合谐振的稳态响应高度依赖于激励相位角。Cushioning Performance of Origami Negative Poisson's ratio Honeycomb Steel StructureYiyi Zhou, Dan Jiang, Lu Wang, Ping Xiang, Liang-Jiu Jiadoi:10.1016/j.tws.2024.112284折纸负泊松比蜂窝钢结构的减震性能The honeycomb structure with a negative Poisson's ratio, inspired by the Miura origami unit, exhibits three-dimensional negative Poisson's ratio characteristics and effective energy dissipation performance. This unique property provides significant potential in the field of protection applications. This study aims to comprehensively understand the impact of auxetic and origami structures on the cushioning performance of honeycomb structures. For this purpose, 316L stainless steel specimens were fabricated using 3D printing technology and subjected to drop hammer impact tests, and the results were verified by finite element simulation. This paper focuses on assessing the deformation mode and energy dissipation performance of origami auxetic honeycomb structures with varying width-to-thickness ratios and folding angles under different impact energy levels. The results indicate that the negative Poisson's ratio origami specimens exhibit higher plateau stress and specific energy absorption compared to their positive and zero Poisson's ratio origami counterparts with the same geometry. In addition, a smaller width-to-thickness ratio and higher input impact energy enhance the cushioning performance of honeycomb structures.负泊松比的蜂窝结构,受折纸单元的启发,具有三维负泊松比特性和有效的能量耗散性能。这种独特的特性在保护应用领域提供了巨大的潜力。本研究旨在全面了解辅助结构和折纸结构对蜂窝结构缓冲性能的影响。为此,采用3D打印技术制作316L不锈钢试件,进行落锤冲击试验,并通过有限元模拟对结果进行验证。研究了在不同冲击能级下,不同宽厚比和折叠角度的折纸减振蜂窝结构的变形模式和耗能性能。结果表明,与相同几何形状的正泊松比和零泊松比折纸相比,负泊松比折纸具有更高的平台应力和比能吸收。此外,较小的宽厚比和较高的输入冲击能增强了蜂窝结构的缓冲性能。来源:复合材料力学仿真Composites FEM

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