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【新文速递】2024年6月27日复合材料SCI期刊最新文章

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今日更新:Composite Structures 4 篇,Composites Part A: Applied Science and Manufacturing 4 篇,Composites Part B: Engineering 3 篇,Composites Science and Technology 2 篇

Composite Structures

Isogeometric analysis of functionally graded panels using Bézier triangles

Francisco Davyd Pereira Silva, Elias Saraiva Barroso, Gabriel Braga Alves de Matos, Evandro Parente, João Batista Marques de Sousa

doi:10.1016/j.compstruct.2024.118310

使用贝塞尔三角形对功能分级板进行等值分析

Isogeometric Analysis is a numerical method that integrates the concepts of geometric modeling and structural analysis. It approximates the displacement field using the same basis functions employed by CAD systems to describe the structure’s geometry. This work proposes an isogeometric formulation for analysis of functionally graded panels based on rational Bézier triangles, allowing the exact geometry representation and automatic discretization of topologically complex models. The formulation is applied to the free vibration and stability analysis of functionally graded plates and curved panels. Monotonic convergence under mesh refinement was observed in all examples. Furthermore, results show that curved functionally graded panels display a complex nonlinear behavior and can present bifurcation buckling before reaching the limit load.

等时几何分析是一种融合了几何建模和结构分析概念的数值方法。它使用与 CAD 系统相同的基函数来近似位移场,以描述结构的几何形状。本研究提出了一种基于有理贝塞尔三角形的等几何公式,用于分析功能分级板,允许精确的几何表示和拓扑复杂模型的自动离散化。该公式适用于功能分级板和曲面板的自由振动和稳定性分析。在所有例子中都观察到了网格细化下的单调收敛。此外,结果表明,曲面功能分级板显示出复杂的非线性行为,并可能在达到极限载荷之前出现分叉屈曲。


Frequency trajectory and modal analysis of variable stiffness composite cylindrical shells with flange

Xiaofeng Liu, Wei Sun, Honghao Liu, Hongwei Ma, Hui Li

doi:10.1016/j.compstruct.2024.118315

 

带翼缘的变刚度复合圆柱壳的频率轨迹和模态分析

Variable stiffness composite structures show great application potential due to their flexible spatial stiffness adjustment ability. In this paper, the accurate and efficient dynamic models of variable stiffness composite cylindrical shells considering the effects of the flange are established based on a semi-analytic frame. Then, the finite element models of the corresponding structures are established by using the ANSYS commercial software. Through the comparison of the calculation results between models under two analytical frameworks, the correctness and efficiency of the proposed modeling method are well verified and reflected. In addition, an instant hammering test of a composite cylindrical shell with flange is carried out to verify the accuracy of the modeling method at the experimental level. Then, the influence of design parameters on frequency trajectories and modals of the variable stiffness composite cylindrical shell with flange is studied. The analysis results show rich and interesting phenomena, among which, the circumferential variable stiffness composite cylindrical shell with and without flange exhibits complex frequency veering behavior under continuous variations of design parameters. The research work has a certain guiding significance for the dynamic optimization design of the variable stiffness composite cylindrical shell with flange.

变刚度复合材料结构因其灵活的空间刚度调节能力而显示出巨大的应用潜力。本文基于半解析框架,建立了考虑翼缘效应的变刚度复合材料圆柱壳体精确高效的动力学模型。然后,利用 ANSYS 商业软件建立了相应结构的有限元模型。通过比较两种分析框架下模型的计算结果,很好地验证和反映了所提出建模方法的正确性和高效性。此外,还对带凸缘的复合圆柱壳体进行了瞬时锤击试验,在实验层面验证了建模方法的准确性。然后,研究了设计参数对带凸缘的变刚度复合圆柱壳的频率轨迹和模态的影响。分析结果显示了丰富而有趣的现象,其中,有翼缘和无翼缘圆周变刚度复合材料圆柱壳在设计参数连续变化的情况下表现出复杂的频率矢量行为。该研究工作对带凸缘变刚度复合圆柱壳的动态优化设计具有一定的指导意义。


Effects of moisture absorption on penetration performance of FRP sandwich structures

Norman Osa-uwagboe, Vadim V. Silberschmidt, Konstantinos P. Baxevanakis, Emrah Demirci

doi:10.1016/j.compstruct.2024.118319

吸湿对玻璃钢夹层结构渗透性能的影响

Fiber-reinforced plastic sandwich structures (FRPSSs) are increasingly used in marine applications thanks to their high levels of stiffness, lightweight, buoyancy and damage resistance to penetration and impacts. This paper investigates the effect of exposure to seawater conditions on mechanical behavior of FRPSSs with various core configurations loaded with indenters with different geometries. A new in-situ acoustic emission (AE) methodology is applied to monitor the moisture evolution process, while X-ray micro-computed tomography validated its influence on out-of-plane failure modes observed in quasi-static indentation experiments. Results indicate that AE velocity can effectively monitor the moisture uptake, serving as an in situ structural health monitoring approach. It was also revealed that the core configuration had a limited effect on moisture ingress. Samples exposed to sharp indentation exhibited the greatest decrease in load-bearing capacity (in excess of 50% in some cases) while that for blunt indentation was the lowest. This can be explained by reduced penetration forces resulting from matrix plasticization and degraded matrix/fiber interface, exacerbated by a smaller contact area. Also, early damage initiation and intensified damage progression were observed for sharp indenters after the seawater exposure. The core of FRPSSs significantly influenced localized damage in samples indented with conical and flat indenters, unlike those subjected to hemispherical ones. The seawater exposure adversely affected the energy absorption and penetration performance, enhancing macroscale damage mechanisms. These findings offer valuable insights for design and optimization of FRPSSs for marine applications.

纤维增强塑料夹层结构(FRPSS)具有刚度高、重量轻、浮力大、抗穿透和抗冲击等优点,因此在海洋应用中得到越来越广泛的应用。本文研究了暴露在海水条件下对 FRPSS 的机械行为的影响,FRPSS 具有不同的核心配置,装有不同几何形状的压头。采用了一种新的原位声发射(AE)方法来监测水分演变过程,同时利用 X 射线微观计算机断层扫描验证了其对准静态压痕实验中观察到的面外破坏模式的影响。结果表明,AE 速度可有效监测水分吸收,是一种现场结构健康监测方法。研究还发现,芯材结构对水分吸收的影响有限。受到尖锐压痕作用的样本承载能力下降幅度最大(在某些情况下超过 50%),而受到钝压痕作用的样本承载能力下降幅度最小。这是因为基体塑化和基体/纤维界面退化导致穿透力降低,而较小的接触面积又加剧了这一现象。此外,在海水暴露后,还观察到尖锐压痕的早期损伤开始和损伤发展加剧。与半球形压头不同,FRPSS 的核心对锥形和扁平压头压入的样品的局部损伤有明显影响。海水暴露对能量吸收和穿透性能产生了不利影响,增强了宏观损伤机制。这些发现为设计和优化用于海洋的 FRPSS 提供了宝贵的见解。


Stress based fracture criteria for mixed-mode I/II delamination of unidirectional composite laminates

Tiancheng Cao, Yu Gong, Libin Zhao, Linjuan Wang, Ning Hu

doi:10.1016/j.compstruct.2024.118325

基于应力的单向复合材料层压板 I/II 混合模式分层断裂标准

Mixed mode delamination is prone to occur in composite laminates subjected to complicated loading. In current study, the modified maximum principal stress (M-MPS) criterion and the modified maximum shear stress (M-MSS) criterion considering the effect of mode ratio on the critical distance are developed to predict the mixed mode delamination of unidirectional laminates. The accuracy of the proposed fracture criteria is validated by the comparison of the predicted fracture locus curve with extensive experimental data available in the literatures, a higher correlation is observed between the predicted results and the experimental data. Finally, comprehensive discussion on the capability of the proposed M-MPS and M-MSS criteria is conducted, a dimensionless parameter named fracture index composed of the difference of elastic properties and the difference of pure mode fracture toughness is proposed to reveal the fracture mechanisms of the unidirectional composites

在承受复杂载荷的复合材料层压板中,混合模式分层很容易发生。在本研究中,考虑到模式比对临界距离的影响,开发了修正的最大主应力(M-MPS)准则和修正的最大剪应力(M-MSS)准则,用于预测单向层压板的混合模式分层。通过将预测的断裂位置曲线与文献中的大量实验数据进行比较,验证了所提出的断裂准则的准确性,并观察到预测结果与实验数据之间具有较高的相关性。最后,对所提出的 M-MPS 和 M-MSS 标准的能力进行了全面讨论,并提出了由弹性特性差值和纯模式断裂韧性差值组成的无量纲参数--断裂指数,以揭示单向复合材料的断裂机制。


Composites Part A: Applied Science and Manufacturing

Study on the composition-property relationships of basalt fibers based on symbolic regression and physics-informed neural network

X. Wang, Q. Kan, M. Petru, G. Kang

doi:10.1016/j.compositesa.2024.108324

基于符号回归和物理信息神经网络的玄武岩纤维成分-属性关系研究

Despite the known influence of chemical composition on the mechanical properties of basalt fibers, a clear understanding of this relationship is lacking. Chemical composition analysis and mechanical property tests are performed on basalt fiber samples. Test data is collected from various countries and regions to expand the dataset. An improved Physics-Informed Neural Network (PINN) approach is specifically designed to address the complexities of this relationship. By incorporating physical models like the Makishima-Mackenzie model, Rocherulle model and a symbolic regression formula, the PINN leverages established physical principles to enhance its ability to understand the underlying mechanisms governing the influence of chemical composition on mechanical properties. This focus on physical mechanisms not only improves the interpretability of the model but also empowers it to make accurate predictions, as evidenced by the high squared correlation coefficients of 0.8767 and 0.8145 between predicted and experimental values of modulus and strength, respectively.

尽管化学成分对玄武岩纤维机械性能的影响众所周知,但对这种关系却缺乏清晰的认识。我们对玄武岩纤维样品进行了化学成分分析和机械性能测试。测试数据收集自不同国家和地区,以扩大数据集。改进的物理信息神经网络(PINN)方法专门用于解决这种关系的复杂性。通过结合牧岛-麦肯齐模型、罗舍鲁尔模型和符号回归公式等物理模型,PINN 利用既定的物理原理,提高了理解化学成分对机械性能影响的内在机制的能力。这种对物理机制的关注不仅提高了模型的可解释性,还使其能够做出准确的预测,模量和强度的预测值与实验值之间分别高达 0.8767 和 0.8145 的平方相关系数就是证明。


Multifunctional composite phase change materials: Preparation, enhanced properties and applications

Yihang Li, Xiaoguang Zhao, Daokui Li, Xiaochao Zuo, Huaming Yang

doi:10.1016/j.compositesa.2024.108331

 

多功能复合相变材料:制备、增强性能和应用

Thermal energy harvesting, storage, conversion and utilization technologies based on phase change materials (PCMs) have received widely attention. The intelligent integration of PCMs with functional carriers or nano-additives enables the application of energy such as thermal, light, electricity and magnetism in different fields. Herein, we discuss strategies for the preparation of multifunctional composite PCMs with enhanced properties, including PCMs selection, encapsulation carrier design, thermal performance optimization, and functional integration methods. The latest progress of advanced applications of multifunctional composite PCMs in the fields of thermal management, thermal protection, medical, energy saving, and thermal camouflage is reviewed. The multifunctional design characteristics of PCMs for different applications are emphasized, as well as the relationship between the structure and thermo-physical properties of multifunctional composite PCMs. Finally, the remaining challenges of multifunctional composite PCMs and the fields that need to be broken through for advanced applications are envisioned.

基于相变材料(PCMs)的热能采集、存储、转换和利用技术受到广泛关注。通过将 PCM 与功能载体或纳米添加剂智能集成,可将热能、光能、电能和磁能等能量应用于不同领域。在此,我们将从 PCMs 选择、封装载体设计、热性能优化和功能集成方法等方面探讨制备性能增强型多功能复合 PCMs 的策略。综述了多功能复合 PCM 在热管理、热保护、医疗、节能和热伪装等领域的先进应用的最新进展。重点介绍了不同应用领域 PCM 的多功能设计特点,以及多功能复合 PCM 的结构与热物理性能之间的关系。最后,展望了多功能复合 PCM 尚存在的挑战以及先进应用需要突破的领域。


Concurrent optimisation of structural topology and fibre paths for 3D printing of continuous fibre composites based on chain primitive projection

Shuai Wang, Jie Liu, Zhelong He, Dongmin Yang

doi:10.1016/j.compositesa.2024.108333

基于链式基元投影的连续纤维复合材料三维打印结构拓扑和纤维路径的同步优化

This study proposes a novel topology optimisation method based on the Geometry Projection Topology Optimisation method (GPTO) with the consideration of manufacturing constraints for the 3D printing of continuous fibre reinforced polymer composite structures. The proposed method uses connecting bars in chains to represent the continuous fibre filaments in the composite structure, as opposed to the use of separate bars as primitives. Thus, the method is termed as Chain Projection Topology Optimisation (CPTO), in which the chain-like primitives are equivalent to clusters of real printing paths. The 3D printing paths can be acquired by splitting the primitives evenly, which simplified the printing path design procedure to a great extent. In addition, manufacturing constraints can be easily imposed on the primitives, making it superior to density-based topology optimisation methods. An MBB beam, a cantilever beam, and a bridge case are optimised to demonstrate the CPTO’s efficiency. It was found that the designs by CPTO possess comparable mechanical properties when compared to those by the Solid Orthotropic Material Penalization (SOMP) method while guaranteeing the composite structures are suitable for 3D printing and contain less microscopic defects in the printed fibre filaments.

本研究提出了一种基于几何投影拓扑优化法(GPTO)的新型拓扑优化方法,该方法考虑了连续纤维增强聚合物复合结构三维打印的制造约束。所提出的方法使用链状连接条来表示复合材料结构中的连续纤维丝,而不是使用单独的条作为基元。因此,该方法被称为 "链式投影拓扑优化(CPTO)",其中的链式基元等同于真实打印路径集群。通过均匀分割基元,可以获得三维打印路径,这在很大程度上简化了打印路径的设计过程。此外,还可以方便地在基元上施加制造约束,从而使其优于基于密度的拓扑优化方法。通过对 MBB 梁、悬臂梁和桥梁进行优化,证明了 CPTO 的高效性。研究发现,与固体各向同性材料惩罚(SOMP)方法相比,CPTO 的设计具有相当的力学性能,同时还能保证复合材料结构适合三维打印,并且打印纤维丝中的微观缺陷较少。


Synergistic enhancement of strength and toughness of fiber-reinforced composites by constructing biomimetic intermittent porous structure

Yaozu Hui, Yijie Wang, Xiaoming Chen, Xin Wang, Yanjie Gao, Kaiqiang Wen, Siyi Cheng, Jie Zhang, Jinyou Shao

doi:10.1016/j.compositesa.2024.108335

通过构建仿生物间歇多孔结构协同提高纤维增强复合材料的强度和韧性

Achieving a balance between strength and toughness is a vital requirement for the development of high-performance fiber-reinforced composites. Inspired by nature, this study integrates biomimetic intermittent porous carbon nanotubes (PCNT) structure into the composite for synergistically enhancing its strength and toughness. It was found that the interfacial shear strength interfacial fracture toughness, 45FBT tensile strength, and interlaminar fracture toughness of the intermittent porous structure-coated fiber/resin composites obtained significant increases of 63.4%, 107.7%, 31.2%, and 64.3% than the baseline composites, respectively. The strengthening effect was contributed by the synergistic enhancement of the interfacial bonding areas and mechanical interlocking morphologies, as well as the significant frictional stresses induced by the morphological mismatches between adjacent gaps. The toughening mechanism was associated with the micro-crack formation, the PCNT structure rupture, and the crack deflection during the crack propagation. This work provides a promising pathway to overcome the trade-off between strength and toughness.

实现强度和韧性之间的平衡是开发高性能纤维增强复合材料的重要要求。受大自然的启发,本研究将仿生间歇多孔碳纳米管(PCNT)结构集成到复合材料中,以协同增强其强度和韧性。研究发现,间歇多孔结构涂覆纤维/树脂复合材料的界面剪切强度、界面断裂韧性、45FBT 拉伸强度和层间断裂韧性比基线复合材料分别显著提高了 63.4%、107.7%、31.2% 和 64.3%。这种增强效果得益于界面结合区域和机械互锁形态的协同增强,以及相邻间隙之间形态不匹配所引起的显著摩擦应力。增韧机制与微裂纹形成、PCNT 结构断裂以及裂纹扩展过程中的裂纹偏转有关。这项研究为克服强度和韧性之间的权衡问题提供了一条可行的途径。


Composites Part B: Engineering

A Unified Geometrical Modeling and Analysis Method for Evaluating CFRP Machining Performance: Cutting Geometry Space

Jiongqi Li, Kai Xu, Zhiwei Lin, Jianzhong Fu

doi:10.1016/j.compositesb.2024.111649

 

评估 CFRP 加工性能的统一几何建模和分析方法:切削几何空间

Carbon Fiber Reinforced Polymer (CFRP) is extensively utilized in the cutting-edge industries, attributed to its superior mechanical performances. The machining performance of CFRP, however, is significantly influenced by its pronounced anisotropy, particularly the fiber orientation. Consequently, Fiber Cutting Angle (FCA) is widely employed to assess the relationships between cutting geometry and machining performance, yet the coupling of cutting orientation and fiber orientation, along with the absence of feeding angle, limits the further exploration into the underlying mechanisms. This article introduced a novel geometrical framework termed “Cutting Geometry Space” (CGS), for modeling CFRP machining process. Incorporating feeding orientation, cutting orientation and fiber orientation, CGS is applied in milling process for an enhanced comprehension of cutting geometry. Additionally, a pragmatic milling experiment is designed, efficiently evaluating the performances of 1,092 combinations of CGS parameters in 13 T700-12K/epoxy CFRP specimens. Microscopical observations and morphological analyses reveals four predominant fracture mechanisms in CFRP machining, with fiber-matrix debonding and bending-induced fracture identified as the key contributors to macroscopic cavity formation. A designated "Damage Zone" within the CGS, encompassing a cutting angle range of 90° to 270° and a fiber tilt angle of 15° to 60°, is identified as a high-risk area for machining-induced surface cavities. Additionally, the impact of feeding orientation on the surface integrity is confirmed and explained by the influence on the equivalent FCA. Furthermore, the study elucidates chatter marks as a phenomenon induced by a confluence of factors, including generalized down milling, high FCA, and a significant effective cutting fiber count. The observed shift in chatter mark with varying feeding angles provides deep insights into the complex dynamics of machining parameters.

碳纤维增强聚合物(CFRP)因其卓越的机械性能而被广泛应用于尖端行业。然而,CFRP 的加工性能受其明显的各向异性,尤其是纤维取向的影响很大。因此,纤维切削角(FCA)被广泛用于评估切削几何形状与加工性能之间的关系,但切削取向与纤维取向之间的耦合关系以及进给角的缺失限制了对其潜在机制的进一步探索。本文介绍了一种名为 "切削几何空间"(CGS)的新型几何框架,用于对 CFRP 加工过程进行建模。CGS 将进料方向、切削方向和纤维方向结合在一起,应用于铣削过程,以增强对切削几何的理解。此外,还设计了一个实用的铣削实验,在 13 个 T700-12K/epoxy CFRP 试样中有效评估了 1,092 种 CGS 参数组合的性能。显微观察和形态分析揭示了 CFRP 加工中的四种主要断裂机制,其中纤维-基质脱粘和弯曲诱导断裂被确定为宏观空腔形成的关键因素。CGS 中指定的 "损伤区"(切削角范围为 90° 至 270°,纤维倾斜角范围为 15° 至 60°)被确定为加工引起表面空洞的高风险区域。此外,进给方向对表面完整性的影响得到了证实,并通过对等效 FCA 的影响得到了解释。此外,研究还阐明了颤振痕是由多种因素共同诱发的一种现象,包括普遍下铣、高 FCA 和大量有效切削纤维数。随着进给角度的变化,观察到的颤振痕迹也会发生变化,这让我们对加工参数的复杂动态有了更深入的了解。


Recent progress on carbon-based microwave absorption materials for multifunctional applications: A review

Feng Zhang, Nan Li, Jun-Feng Shi, Ling Xu, Li-Chuan Jia, Yue-Yi Wang, Ding-Xiang Yan

doi:10.1016/j.compositesb.2024.111646

用于多功能应用的碳基微波吸收材料的最新进展:综述

With the rapid development of 5G wireless communication and radar detection technology, how to reduce the threat of microwave radiation to people's health and achieve the excellent stealth performance are highly required. Microwave absorption (MA) materials are crucial to solving these problems and have received widespread attention. Compared to other MA materials, carbon-based materials stand out for the unique structure and properties, such as low density, strong dielectric loss, chemical durability and outstanding mechanical properties. These outstanding features make carbon-based materials become the most potential MA materials and be widely used in the development of multi-functional applications. This work reviews the new frontiers of carbon-based MA materials as well as the special absorption mechanisms. Subsequently, the new advancements in the multifunctional carbon-based MA materials are highlighted, including thermal insulation, infrared stealth, corrosion-resistant, self-healing and other applications of carbon-based MA materials. Finally, this review summarizes the future research direction, the main challenges and possible solutions on carbon-based MA materials.

随着 5G 无线通信和雷达探测技术的飞速发展,如何降低微波辐射对人体健康的威胁,并实现优异的隐身性能,是人们亟待解决的问题。微波吸收(MA)材料是解决这些问题的关键,受到广泛关注。与其他微波吸收材料相比,碳基材料具有独特的结构和性能,如密度低、介电损耗大、化学耐久性好、机械性能优异等。这些突出特点使碳基材料成为最具潜力的 MA 材料,并被广泛应用于多功能应用的开发。本研究综述了碳基 MA 材料的新领域及其特殊的吸收机制。随后,重点介绍了多功能碳基 MA 材料的新进展,包括碳基 MA 材料的隔热、红外隐身、耐腐蚀、自修复等应用。最后,本综述总结了碳基 MA 材料的未来研究方向、主要挑战和可能的解决方案。


Aromatic phase change microspheres constructed nanocomposite films for fluorine-free self-cleaning, absorption-dominated EMI shielding, and high-temperature thermal camouflage

Jinju You, Chenchen Liu, Shuangzhu Li, Niu Jiang, Xiaofang Feng, Xiaoqing Liu, Xiaobo Liu

doi:10.1016/j.compositesb.2024.111650

 

用于无氟自清洁、以吸收为主的电磁干扰屏蔽和高温热伪装的芳香族相变微球构造纳米复合薄膜

The combination of high shielding effectiveness and excellent thermal insulation is highly attractive for electromagnetic interference (EMI) shielding materials, yet remains challenging in the absence of thermal stability and self-cleaning effect. Here, poly(arylene ether nitrile) (PEN), an aromatic super engineering polymer, is synthesized and one-step self-assembled into phase-changeable microspheres in an oil-in-water microemulsion system, synchronously settling thermal lability and leakproof of conventional phase change materials. Pre-functionalized multi-wall carbon nanotubes are subsequently immobilized on PEN-based phase change microspheres for EMI shielding and thermal camouflage compartments. The resultant compartments are integrated into macroscopical nanocomposite films with segregated structures via hot-compressing densification. Due to the 3D interconnected cavities, the shielding effectiveness of the PEN-based nanocomposite film is strikingly up to 43 dB with an excellent absorption coefficient of 0.99. Meanwhile, the nanocomposite film exhibits outstanding thermal camouflage throughout a wide temperature range of 80 to 200 °C at a low thickness of ∼1.5 mm. Interestingly, superb fluorine-free self-cleaning is endowed with its inherent hydrophobic surface (contact angle up to 148.6°) overlaid with micropapillaes. Our work sheds light on such application integration of fluorine-free self-cleaning, absorption-dominated EMI shielding, and high-temperature thermal camouflage.

对于电磁干扰(EMI)屏蔽材料而言,高屏蔽效果和出色的隔热性能的完美结合极具吸引力,但在缺乏热稳定性和自清洁效果的情况下,这种材料仍具有挑战性。本文合成了芳香族超级工程聚合物聚(芳基醚腈)(PEN),并在水包油微乳液体系中一步自组装成可相变微球,同步解决了传统相变材料的热稳定性和防漏性问题。预功能化多壁碳纳米管随后被固定在基于 PEN 的相变微球上,用于 EMI 屏蔽和热伪装隔间。通过热压致密化,将由此产生的隔间集成到具有分离结构的宏观纳米复合薄膜中。由于存在三维相互连接的空腔,基于 PEN 的纳米复合薄膜的屏蔽效果惊人地高达 43 dB,吸收系数高达 0.99。同时,该纳米复合薄膜在 80 至 200 °C 的宽温度范围内,以 1.5 毫米的低厚度表现出卓越的热伪装性能。有趣的是,其固有的疏水表面(接触角高达 148.6°)叠加了微胶囊,因而具有超强的无氟自清洁能力。我们的工作揭示了无氟自清洁、以吸收为主的电磁干扰屏蔽和高温热伪装的应用集成。


Composites Science and Technology

A matrix failure criterion independent of empirical parameters for brittle fiber-reinforced composites

Naiyu Liu, Puhui Chen

doi:10.1016/j.compscitech.2024.110726

 

与脆性纤维增强复合材料经验参数无关的基体失效标准

Based on Hashin’s fracture plane assumption, a matrix failure criterion for brittle fiber-reinforced composites is proposed. The failure function is expressed as a quadratic polynomial of the stress components on the fracture plane. The unknown coefficients in the failure criterion are only calibrated by the three basic strengths of unidirectional composites, i.e., the transverse tensile strength, transverse compressive strength, and longitudinal shear strength, thus overcoming the limitation of requiring empirical parameters in most previous matrix failure criteria. Especially, under plane stress states (), an analytical solution for the fracture angle of unidirectional composites can be provided. The prediction results of the proposed criterion are consistent with a large number of experimental data, confirming its applicability. In addition, the study establishes the relationship among the three transverse basic strengths (,  and ). It can be used to predict  which is difficult to measure experimentally.

根据 Hashin 的断裂面假设,提出了脆性纤维增强复合材料的基体失效准则。失效函数表示为断裂面上应力分量的二次多项式。失效准则中的未知系数仅由单向复合材料的三个基本强度(即横向拉伸强度、横向压缩强度和纵向剪切强度)标定,从而克服了以往大多数基体失效准则需要经验参数的限制。特别是在平面应力状态()下,可以提供单向复合材料断裂角的解析解。所提标准的预测结果与大量实验数据一致,证实了其适用性。此外,研究还建立了三种横向基本强度(、和)之间的关系。它可用于预测难以用实验测量的强度。


A structural battery with carbon fibre electrodes balancing multifunctional performance

Karl Bouton, Lynn Schneider, Dan Zenkert, Göran Lindbergh

doi:10.1016/j.compscitech.2024.110728

 

兼顾多功能性能的碳纤维电极结构电池

Structural multifunctional materials have the potential to transform current technologies by implementing several functions to one material. In a multifunctional structural battery, mass saving and energy efficiency are created by the synergy between the mechanical and electrochemical properties of the material’s constituents. Consequently, structural batteries could e.g. mitigate electric vehicle overweight or enable thinner portable electronics. This requires combining the best composite and battery manufacturing practices. In the present work this is achieved through the infusion of a stack of carbon fibre-based electrodes with a hybrid polymer-liquid electrolyte. The realised full cell structural battery is based on carbon fibre electrodes with a lithium iron phosphate (LiFePO4) coating on the positive side. This battery laminate shows a very good balance between energy density, stiffness and strength of 33.4 Wh/kg, 38 GPa and 234 MPa, respectively. To push these performances further, different improvement strategies are discussed, and the results are compared with previously published target performances. Ultimately, we demonstrate the feasibility of designing and manufacturing all-fibre solid-state structural batteries as a material solution for future lightweight electric commodities.

多功能结构材料通过在一种材料上实现多种功能,有可能改变当前的技术。在多功能结构电池中,通过材料成分的机械和电化学特性之间的协同作用,可以节省质量和提高能效。因此,结构电池可以减轻电动汽车的超重或实现更薄的便携式电子产品。这就需要将最佳的复合材料和电池制造方法结合起来。在目前的工作中,通过将碳纤维基电极与混合聚合物-液态电解质灌注在一起,实现了这一目标。实现的全单元结构电池以碳纤维电极为基础,正极涂有磷酸铁锂(LiFePO4)涂层。这种电池层压板在能量密度、刚度和强度之间实现了很好的平衡,分别达到 33.4 Wh/kg、38 GPa 和 234 MPa。为了进一步提高这些性能,我们讨论了不同的改进策略,并将结果与之前公布的目标性能进行了比较。最终,我们证明了设计和制造全纤维固态结构电池作为未来轻质电动商品材料解决方案的可行性。


来源:复合材料力学仿真Composites FEM
ACTMechanicalAdditiveSystemInspire振动断裂复合材料非线性化学隐身拓扑优化汽车电子通信海洋裂纹材料仿生
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首次发布时间:2024-11-20
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【新文速递】2024年6月6日固体力学SCI期刊最新文章

今日更新:Journal of the Mechanics and Physics of Solids 3 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 7 篇Journal of the Mechanics and Physics of SolidsOrigami of multi-layered spaced sheetsGuowei Wayne Tu, Evgueni T. Filipovdoi:10.1016/j.jmps.2024.105730 多层间隔纸的折纸Two-dimensional (2D) origami tessellations such as the Miura-ori are often generalized to build three-dimensional (3D) architected materials with sandwich or cellular structures. However, such 3D blocks are densely packed with continuity of the internal material, while for many engineering structures with multi-physical functionality, it is necessary to have thin sheets that are separately spaced and sparsely connected. This work presents a framework for the design and analysis of multi-layered spaced origami, which provides an origami solution for 3D structures where multiple flat sheets are intentionally spaced apart. We connect Miura-ori sheets with sparsely installed thin-sheet parallelogram-like linkages. To explore how this connectivity approach affects the behavior of the origami system, we model the rigid-folding kinematics using analytic trigonometry and rigid-body transformations, and we characterize the elastic-folding mechanics by generalizing a reduced order bar and hinge model for these 3D assemblies. The orientation of the linkages in the multi-layered spaced origami determines which of three folding paths the system will follow including a flat foldable type, a self-locking type, and a double-branch type. When the origami is flat foldable, a maximized packing ratio and a uniform in-plane shear stiffness can be achieved by strategically choosing the link orientation. We show possible applications by demonstrating how the multi-layered spaced origami can be used to build deployable acoustic cloaks and heat shields.二维(2D)折纸镶嵌,如Miura-ori,通常被推广到构建具有三明治或细胞结构的三维(3D)建筑材料。然而,这种3D块体内部材料的连续性密集堆积,而对于许多具有多物理功能的工程结构来说,必须有单独间隔和稀疏连接的薄片。这项工作提出了一个设计和分析多层间隔折纸的框架,它提供了一个三维结构的折纸解决方案,其中多个平面被故意分开。我们用稀疏安装的薄片状平行四边形连接三浦ori板。为了探索这种连接方法如何影响折纸系统的行为,我们使用解析三角学和刚体变换对刚性折叠运动学进行建模,并通过推广这些3D组件的降阶杆和铰链模型来表征弹性折叠力学。多层间隔折纸中连杆的方向决定了系统将遵循的三种折叠路径中的哪一种,包括平面可折叠型、自锁型和双分支型。当折纸可平折时,通过对连杆方向的策略选择,可以获得最大的填充比和均匀的面内剪切刚度。我们通过展示多层间隔折纸如何用于建造可展开的声学斗篷和隔热罩来展示可能的应用。A discrete dislocation analysis of size-dependent plasticity in torsionA. Cruzado, M.P. Ariza, A. Needleman, M. Ortiz, A.A. Benzergadoi:10.1016/j.jmps.2024.105709扭转中尺寸相关塑性的离散位错分析A method for solving three dimensional discrete dislocation plasticity boundary-value problems using a monopole representation of the dislocations is presented. At each time step, the displacement, strain and stress fields in a finite body are obtained by superposition of infinite body dislocation fields and an image field that enforces the boundary conditions. The three dimensional infinite body fields are obtained by representing dislocations as being comprised of points, termed monopoles, that carry dislocation line and Burgers vector information. The image fields are obtained from a three dimensional linear elastic finite element calculation. The implementation of the coupling of the monopole representation with the finite element method, including the interaction of curved dislocations with free surfaces, is presented in some detail because it differs significantly from an implementation with a line based dislocation representation. Numerical convergence and the modeling of dislocation loop nucleation for large scale computations are investigated. The monopole discrete dislocation plasticity framework is used to investigate the effect of size and initial dislocation density on the torsion of wires with diameters varying over three orders of magnitude. Depending on the initial dislocation source density and the wire diameter, three regimes of torsion-twist response are obtained: (i) for wires with a sufficiently small diameter, plastic deformation is nucleation controlled and is strongly size dependent; (ii) for wires with larger diameters dislocation plasticity is dislocation interaction controlled, with the emergence of geometrically necessary dislocations and dislocation pile-ups playing a key role, and is strongly size dependent; and (iii) for wires with sufficiently large diameters plastic deformation becomes less heterogeneous and the dependence on size is greatly diminished.提出了一种用位错单极子表示来求解三维离散位错塑性边值问题的方法。在每个时间步,通过将无限体 位错场与强制边界条件的图像场叠加得到有限体的位移场、应变场和应力场。三维无限体场通过将位错表示为由携带位错线和伯格矢量信息的单极子组成的点来获得。图像场是通过三维线弹性有限元计算得到的。单极子表示与有限元方法耦合的实现,包括弯曲位错与自由表面的相互作用,由于它与基于线的位错表示的实现有很大的不同,因此给出了一些细节。研究了大规模计算中位错环形核的数值收敛和模拟。采用单极离散位错塑性框架研究了尺寸和初始位错密度对直径变化超过3个数量级的金属丝扭转的影响。根据初始位错源密度和线材直径的不同,可以得到三种扭扭响应模式:(i)对于直径足够小的线材,塑性变形受形核控制,且与尺寸密切相关;(ii)对于直径较大的金属丝,位错塑性受位错相互作用的控制,几何上必要的位错和位错堆积的出现起着关键作用,并且与尺寸密切相关;(3)对于直径足够大的线材,塑性变形的不均匀性降低,对尺寸的依赖性大大降低。Exploiting dynamic bifurcation in elastic ribbons for mode skipping and selectionWeicheng Huang, Tian Yu, Dominic Vella, K. Jimmy Hsia, Mingchao Liudoi:10.1016/j.jmps.2024.105721利用弹性带的动态分岔进行模式跳转和选择In this paper, we systematically study the dynamic snap-through behavior of a pre-deformed elastic ribbon by combining theoretical analysis, discrete numerical simulations, and experiments. By rotating one of its clamped ends with controlled angular speed, we observe two snap-through transition paths among the multiple stable configurations of a ribbon in three-dimensional (3D) space, which is different from the classical snap-through of a two-dimensional (2D) bistable beam. Our theoretical model for the static bifurcation analysis is derived based on the Kirchhoff equations, and dynamical numerical simulations are conducted using the Discrete Elastic Rods (DER) algorithm. The planar beam model is also employed for the asymptotic analysis of dynamic snap-through behaviors. The results show that, since the snap-through processes of both planar beams and 3D ribbons are governed by the saddle–node bifurcation, the same scaling law for the delay applies. We further demonstrate that, in elastic ribbons, by controlling the rotating velocity at the end, distinct snap-through pathways can be realized by selectively skipping specific modes, moreover, particular final modes can be strategically achieved. Through a parametric study using numerical simulations, we construct general phase diagrams for both mode skipping and selection of snapping ribbons. The work serves as a benchmark for future investigations on dynamic snap-through of thin elastic structures and provides guidelines for the novel design of intelligent mechanical systems.本文采用理论分析、离散数值模拟和实验相结合的方法,系统地研究了预变形弹性带的动态通断行为。通过以控制的角速度旋转其夹紧的一端,我们观察到三维(3D)空间中条带的多个稳定构型之间有两条卡通过渡路径,这与传统的二维(2D)双稳光束的卡通不同。基于Kirchhoff方程推导了静态分岔分析的理论模型,并采用离散弹性杆(DER)算法进行了动态数值模拟。平面梁模型也被用于动态卡通行为的渐近分析。结果表明,由于平面梁和三维带的穿透过程都受鞍节点分岔的支配,因此时延的标度规律是相同的。我们进一步证明,在弹性带中,通过控制末端的旋转速度,可以通过选择性地跳过特定模式来实现不同的snap-through路径,并且可以策略性地实现特定的最终模式。通过数值模拟的参数化研究,我们构造了模跳变和夹带选择的一般相图。该研究为今后薄弹性结构的动态贯通研究提供了一个基准,并为智能机械系统的新型设计提供了指导。Mechanics of MaterialsA multiscale model for the multiaxial anisotropic damage of double-network gelsLionel Ogouari, Qiang Guo, Fahmi Zaïri, Thanh-Tam Mai, Jian Ping Gong, Kenji Urayamadoi:10.1016/j.mechmat.2024.105058双网凝胶多轴各向异性损伤的多尺度模型Double-network (DN) gels possess exceptional mechanical properties and hold great promise as innovative soft materials due to their peculiar inherent structure made of a first highly cross-linked brittle short-chain network and a second flexible loosely cross-linked long-chain network. The stretch-induced molecular ordering in DN gels causes anisotropic effects along with complex interactions between the two networks. This paper attempts to contribute to the understanding of the history-dependent anisotropic multiaxial damage behavior of DN gels. A multiscale model is formulated for the constitutive description of the internal network physics in DN gels, such as the stretch-induced molecular ordering and damage, in connection to their multiaxial mechanics. The scission mechanism in the short-chain network is considered at the chain-scale using statistical mechanics by treating the breakage of internal molecular bonds as an energy activation process related to the thermal oscillation and stimulated by the chain stretch. The transition scale microsphere-based method is employed to realize the transition from the short-chain scale to the network scale while considering the statistical variability in chain lengths and their evolution due to the chain rearrangement consecutive to the progressive chain scission events. A two-phase microstructure representation allows accounting for the presence of the superimposed long-chain network along with the effective coupling due to mutual interpenetration of the two networks. The model capabilities to capture the biaxial behavior of gel material systems are critically evaluated by comparing the model outputs with a few available experimental observations under various loading modes highlighting both internal network coupling and anisotropic damage. The relevance of the proposed approach is highlighted by the favorable alignment of the model simulations with experimental observations of gel systems subjected to uniaxial stretching along orthogonal directions and exhibiting history-dependent anisotropic features induced by prior biaxial loading. The damage and rearrangement micro-mechanisms are discussed with respect to the model in connection to loading history.双网(DN)凝胶具有优异的力学性能,由于其独特的固有结构,第一高度交联的脆性短链网络和第二柔性松散交联的长链网络。拉伸诱导的DN凝胶中的分子排序导致各向异性效应以及两个网络之间复杂的相互作用。本文试图对DN凝胶的各向异性多轴损伤行为的历史相关的理解作出贡献。建立了一个多尺度模型,用于描述DN凝胶内部网络物理的本构描述,例如拉伸诱导的分子有序和损伤,以及与它们的多轴力学有关的本构描述。利用统计力学的方法在链尺度上考虑短链网络的断裂机理,将分子内部键的断裂视为与热振荡有关的能量激活过程,并受到链拉伸的刺 激。采用基于微球的过渡尺度方法,在考虑连续的链断裂事件导致的链重排和链长演化的统计变异性的同时,实现了从短链尺度向网络尺度的过渡。两相微观结构表示允许考虑重叠长链网络的存在以及由于两个网络相互渗透而产生的有效耦合。通过将模型输出与几种不同加载模式下的实验观察结果进行比较,重点分析了内部网络耦合和各向异性损伤,对模型捕捉凝胶材料体系双轴行为的能力进行了严格评估。所提出的方法的相关性突出了模型模拟与实验观察的良好一致性,凝胶体系受到沿正交方向的单轴拉伸,并表现出由先前的双轴加载引起的历史相关的各向异性特征。结合加载历史,讨论了该模型的损伤和重排微观机制。International Journal of PlasticityPseudo-twin boundary improves flow stress and cyclic stability of TiAl single crystalYiqi Zhu, Min Yi, Wanlin Guodoi:10.1016/j.ijplas.2024.104021 伪孪晶界改善了TiAl单晶的流动应力和循环稳定性Polysynthetically twinned (PST) TiAl single crystal with lamellar structures exhibits great mechanical properties at room temperature. Therein twin boundaries (TBs) are important for achieving optimized ductile and fatigue performance of PST TiAl, but their role and the associated mechanism are elusive. Herein, we decipher the role of true TB (TTB) and pseudo TB (PTB) by a combined atomistic simulation and mesoscopic modeling, and find that PTB could remarkably improve room-temperature flow stress and cyclic stability of TiAl single crystal. It is revealed that dislocations pile up at PTB while unobstructedly traverse TTB. The emergency of back stress and the movement of dislocations along PTB contribute to the strengthening mechanism. The flow stress of TiAl single crystal with PTB is 34% higher than that with TTB. It is further found that as the twin thickness decreases, the flow stress of TiAl single crystal with TTB initially increases and then decreases (i.e., inverse Hall–Petch like behavior), whereas that with PTB always increases owing to the extra back stress (i.e., Hall–Petch like behavior). Atomistic-informed mesoscopic theoretical models are then proposed to describe the flow stress as a function of twin thickness. Under cyclic loading, PTB is found to facilitate strain delocalization of TiAl single crystal during plastic deformation and thus noticeably improve the cyclic stability. These findings should shed light on achieving strong TiAl alloys with enhanced fatigue performance by the introduction and design of PTB.具有片层结构的PST TiAl单晶在室温下表现出良好的力学性能。其中,孪晶界对优化PST TiAl的延性和疲劳性能具有重要意义,但其作用机制尚不明确。本文通过原子模拟和介观模拟相结合的方法分析了真TB (TTB)和伪TB (PTB)的作用,发现PTB可以显著改善TiAl单晶的室温流变应力和循环稳定性。揭示了位错在无阻碍地穿过TTB时在PTB处堆积。背应力的出现和位错沿PTB的移动有助于加强机制。添加PTB后TiAl单晶的流变应力比添加TTB时高34%。进一步发现,随着孪晶厚度的减小,加入TTB的TiAl单晶的流动应力先增大后减小(即逆Hall-Petch行为),而加入PTB的TiAl单晶由于额外的背应力(即Hall-Petch行为)而始终增大。然后提出了原子信息介观理论模型来描述流动应力作为孪晶厚度的函数。在循环加载下,PTB可促进TiAl单晶在塑性变形过程中的应变离域,从而显著提高循环稳定性。这些发现将有助于通过引入和设计PTB来获得具有增强疲劳性能的强TiAl合金。Thin-Walled StructuresStrength-induced peridynamic model for the dynamic failure of porous materialsJiuYi Li, Yong Mei, JingHui Peng, YunHou Sundoi:10.1016/j.tws.2024.112064多孔材料动态破坏的强度诱导周动力模型Predicting the dynamic failure process of porous materials is a challenging task due to their complex structure. To minimize the use of time-consuming peridynamic (PD) models and to avoid surface effect issues in the dynamic failure of complex porous materials, this paper proposes a strength-induced PD model. The paper first presents the dynamic formula and relevant finite element discrete equation of the coupled PD and classical continuum mechanics (PD-CCM) model based on the Morphing method. The Morphing function is implemented to control the material parameters and enable the free transformation of PD and CCM models. Based on the coupled PD-CCM model, the strength-induced PD model is established to adaptively expand the PD subdomain in porous materials by controlling the Morphing function value through the strength state of the structure. This model enables the PD subdomain to appear automatically when the porous materials reach the critical stress state. The proposed model accurately predicts the location of crack initiation and path while minimizing computational costs and improving efficiency. Three two-dimensional numerical examples are used to verify the effectiveness, efficiency, and accuracy of the model. The results of the simulation suggest that the location where the crack initiates in the porous materials is strongly influenced by the amplitude of the dynamic load. Cracking is dependent on the pores and typically occurs through them.由于多孔材料结构复杂,对其动态破坏过程进行预测是一项具有挑战性的任务。为了最大限度地减少使用耗时的周动力学(PD)模型,并避免复杂多孔材料动态破坏中的表面效应问题,本文提出了一种强度诱导PD模型。本文首先给出了基于Morphing方法的PD- ccm与经典连续介质力学(PD- ccm)耦合模型的动力学公式和相关的有限元离散方程。实现了对材料参数的控制,实现了PD和CCM模型的自由转换。在耦合PD- ccm模型的基础上,建立了强度诱导PD模型,通过结构的强度状态控制Morphing函数值,自适应扩展多孔材料的PD子域。该模型能够使多孔材料达到临界应力状态时,PD子域自动出现。该模型准确地预测了裂纹起裂位置和路径,降低了计算成本,提高了计算效率。通过三个二维数值算例验证了该模型的有效性、高效性和准确性。模拟结果表明,动载荷的幅值对多孔材料中裂纹的起始位置有很大影响。裂缝依赖于孔隙,通常通过它们发生。Foreign Object Damage Characteristics of a Thin Nickel-based Superalloy Plate at Room and High temperaturesWeizhu Yang, Haowei Yang, Jianjun Liu, Yan Zeng, Xinmei Wang, Lei Lidoi:10.1016/j.tws.2024.112065室温和高温下镍基高温合金薄板的异物损伤特性Turbine blades with thin-walled structures usually works in harsh environments, and foreign object damage (FOD) is one of the conditions of special concern. In this paper, the FOD characteristics of thin nickel-based superalloy plates are studied by a combination of experimental, numerical and analytical methods, considering room and high temperatures, different impact conditions and plate thicknesses. An easy-to-use test system is developed to realize high speed impact of the thin nickel-based superalloy plate under elevated temperature. Crater morphologies, internal microstructure, and residual stress are analyzed after impact with different conditions. Numerical simulation of the impact process is performed by using Johnson-Cook (J-C) constitutive model. Based on Hertz theory, an analytical method for calculating the crater length and depth is proposed considering the deformation of the impact steel sphere. Results shows that the FOD characteristics at high temperature is significantly different from that at room temperature. The crater has lager dimensions under high speed and elevated temperature. Moreover, significant grain refinement is obvious and the dislocation layer is also thicker at higher speed and higher temperature. Due to the effect of high temperature softening, hardness and residual stress after impact with elevated temperature is lower than that at room temperature. Besides, non-normal impact mainly influences Goss texture and distribution of residual stress after high temperature impact. In addition, it is found that thickness have a significant effect on the FOD characteristics especially when the plate is thinner. The validity of the numerical model and analytical method is proved by comparing with the experimental results. The present study can provide data foundation and numerical analysis support for the damage assessment and maintenance of turbine blades.具有薄壁结构的涡轮叶片通常工作在恶劣的环境中,异物损伤(FOD)是人们特别关注的条件之一。本文采用实验、数值和分析相结合的方法,考虑室温和高温、不同冲击条件和板材厚度,研究了镍基高温合金薄板的FOD特性。为实现镍基高温合金薄板在高温下的高速冲击,研制了一种易于操作的测试系统。分析了不同条件下撞击后的弹坑形貌、内部微观结构和残余应力。采用Johnson-Cook (J-C)本构模型对冲击过程进行了数值模拟。基于赫兹理论,提出了一种考虑冲击钢球变形的弹坑长度和深度的解析计算方法。结果表明,高温下的FOD特性与室温下的FOD特性有显著差异。在高速和高温下,陨石坑的尺寸更大。在较高的速度和温度下,晶粒细化明显,位错层也变厚。由于高温软化的作用,高温冲击后的硬度和残余应力均低于常温冲击。非正态冲击主要影响高温冲击后的高斯织构和残余应力分布。此外,发现厚度对FOD特性有显著影响,特别是当板较薄时。通过与实验结果的比较,验证了数值模型和分析方法的有效性。本研究可为涡轮叶片损伤评估和维修提供数据基础和数值分析支持。Low-frequency and broadband vibration absorption of a metamaterial plate with Acoustic Black Hole resonatorsSiting Hao, Hui Sheng, Xusheng Liu, Haiqin Li, Shaohua Li, Qian Dingdoi:10.1016/j.tws.2024.112073具有声学黑洞谐振器的超材料板的低频和宽带振动吸收Acoustic metamaterials with bandgap properties can lead to effective vibration attenuation in a targeted frequency range. In this paper, a novel locally resonant metamaterial plate is proposed, connected with acoustic black hole (ABH) resonators. The structure is shown to achieve low-frequency and broadband vibration absorption. The proposed microunit design consists of three parts: the ABH resonator, supporting beams as the connector, and the frame (FC-ABH). The modal characteristics of the microunit and the dispersion relation of the infinite periodic FC-ABH structure are calculated by both of Gaussian expansion method and finite element method. By the effects of flexural wave absorption of ABH coupled with the local resonance mechanism, a low-frequency and broad vibration attenuation band can be generated. When the damping of materials is included, the attenuation band can be further widened, with relative bandwidth measured by the experiment up to 0.93. The results of numerical simulations and experimental tests demonstrate that the finite periodic FC-ABH can act as an effective vibration absorber and isolator. The proposed structure may provide new ideas for the design and application of broadband vibration mitigation metadevices.具有带隙特性的声学超材料可以在目标频率范围内实现有效的振动衰减。本文提出了一种与声黑洞(ABH)谐振腔相连接的新型局部谐振超材料板。该结构可以实现低频和宽带的吸振。提出的微芯片设计由三部分组成:ABH谐振器、作为连接器的支撑梁和框架(FC-ABH)。采用高斯展开法和有限元法计算了无限周期FC-ABH结构的模态特性和色散关系。利用ABH的弯波吸收作用和局部共振机制,可以产生低频宽的减振带。当考虑材料的阻尼时,衰减带可以进一步加宽,实验测得的相对带宽可达0.93。数值模拟和试验结果表明,有限周期FC-ABH具有有效的吸振和隔振作用。该结构可为宽频带减振元器件的设计和应用提供新的思路。Optically-responsive liquid crystal elastomer thin film motors in linear/nonlinear optical fieldsLin Zhou, Haiming Chen, Kai Lidoi:10.1016/j.tws.2024.112082线性/非线性光场中的光响应液晶弹性体薄膜电机Currently, there is significant interest in photo-excited self-oscillation systems utilizing a thin film of liquid crystal elastomer. However, studying their complex dynamic behaviors is challenging due to the inhomogeneity of the optically driven deformations. In this paper, we derive the asymptotic relationship of the thin film motor module in the inhomogeneous light fields by establishing a theoretical framework for the module. Subsequently, the asymptotic relationship of the module is applied to investigate the liquid crystal elastomer thin film-mass systems in both linear and nonlinear light fields. Through the use of asymptotic relationship, three dynamic behaviors of the system are discovered, namely, damper, spring and motor, each characterized by different effective viscoelasticity coefficients. In particular, the liquid crystal elastomer motor can operate more efficiently in the linear optical field, requiring less energy to generate the same amplitude of self-oscillation as in the nonlinear field. The proposed asymptotic relationship of the optical thin film motors under both linear and nonlinear optical fields can be readily referenced in other research, offering convenience and guidance for soft robotic motors, energy harvesters, and micro-machines.目前,人们对利用液晶弹性体薄膜的光激发自振荡系统非常感兴趣。然而,由于光驱动变形的不均匀性,研究其复杂的动力学行为是具有挑战性的。本文通过建立薄膜电机模块的理论框架,推导出薄膜电机模块在非均匀光场下的渐近关系。随后,应用模量渐近关系研究了液晶弹性体薄膜-质量系统在线性光场和非线性光场下的特性。通过使用渐近关系,发现了系统的三种动态特性,即阻尼器、弹簧和电机,每种特性都具有不同的有效粘弹性系数。特别是液晶弹性体电机可以在线性光场中更有效地工作,产生与非线性光场相同振幅的自振荡所需的能量更少。所提出的光学薄膜电机在线性和非线性光场下的渐近关系可为其他研究提供参考,为软机器人电机、能量采集器和微型机械提供方便和指导。Mode transition of bistable composite panels induced by centrifugal environmentsPengpeng Liu, Yang Guo, Jie Tang, Yinghui Lidoi:10.1016/j.tws.2024.112087离心环境下双稳态复合板的模态转换In this paper, the dynamic characteristics of bistable composite panels in centrifugal environments are studied, and both the deformation of static configuration and the influence of centrifugal field are considered. To achieve this, the classical laminate theory (CLT) is employed, combining with first-order shear deformation theory and von-Kármán geometric nonlinearity. The principle of minimum potential energy is used to determine the static configuration of bistable composite panels under the combined influence of centrifugal field and thermal effect, with residual thermal stress introduced in the constitutive relationship. Meanwhile, Hamilton's principle and Rayleigh-Ritz method were employed for dynamic analysis to identify the natural frequencies and modes of panels. Results show that centrifugal environments generate significant alterations in both the static configurations and dynamic characteristics of bistable composite panels. Centrifugal environments not only lead to discrepancies between the natural frequencies of the upper and lower stable states but also contribute to the loss of bistable characteristics in composite panels, induce mode transitions in bistable composite panels. Adjusting the installation angle, and rotational hub can alter the critical angular velocity at which this transition occurs. This work provides an important foundation for calculating and understanding the complex dynamic behaviors of structures under complex conditions.本文研究了双稳态复合材料板在离心环境下的动态特性,同时考虑了静态变形和离心力场的影响。为此,将经典层合理论(CLT)与一阶剪切变形理论和von-Kármán几何非线性相结合。利用最小势能原理,在本构关系中引入残余热应力,确定了离心场和热效应共同作用下双稳态复合板的静态构型。同时,采用Hamilton原理和Rayleigh-Ritz方法进行动力分析,识别板的固有频率和振型。结果表明,离心环境对双稳态复合材料板的静态结构和动态特性都产生了显著的影响。离心环境不仅会导致上下稳定态固有频率的差异,而且会导致复合材料板双稳态特性的丧失,引起双稳态复合材料板的模态跃迁。调整安装角度和转动轮毂可以改变发生这种转变的临界角速度。这项工作为计算和理解复杂条件下结构的复杂动力行为提供了重要的基础。Thermoelastic damping in symmetrical three-layer piezoelectric microbeam resonatorsNingning Liu, Wanli Zuo, Xuan Liudoi:10.1016/j.tws.2024.112088对称三层压电微束谐振器的热弹性阻尼Thermoelastic damping (TED) plays a crucial role in the design of multilayer micro-resonators, especially in the investigation of coupled multi-physical fields. An analytical model for TED in a symmetrical three-layer piezoelectric microresonator was proposed with electric-mechanical-thermal coupling. The three-layer microbeam consists of piezoelectric ceramic layers covering the upper and lower surfaces of a silicon-based layer, and the beam undergoes forced vibration due to electrical excitation. This model can be verified by comparing experimental data and simplifying to previous models. It is observed that with an increase in the proportion of the piezoelectric layers, there are unimodal-bimodal-unimodal variations. Two-dimensional heat conduction is considered in this model, which makes the peak damping value decrease slightly with the increases of the thickness, length and mode. The presence of piezoelectric layers and a high electromechanical coupling coefficient have inhibitory effects on TED. The simplification of the piezoelectric material into isotropic and a reduced residual polarization intensity all induce an increase in thermal stress modulus, which further amplifies differences in Zener modulus among different materials, thereby accelerating double peak formation and enhancing the contribution of the piezoelectric layers to TED. What's more, increasing the beam thickness, proportion of piezoelectric layers, and decreasing excitation voltage amplitude all contribute to decreasing the beam displacement amplitude.热弹性阻尼(TED)在多层微谐振器的设计中起着至关重要的作用,特别是在耦合多物理场的研究中。建立了具有电-机-热耦合的对称三层压电微谐振器中TED的解析模型。三层微梁由覆盖在硅基层上下表面的压电陶瓷层组成,并且由于电激励,梁承受强制振动。通过对实验数据的比较和对以往模型的简化,可以验证该模型的正确性。随着压电层比例的增加,存在单峰-双峰-单峰的变化。该模型考虑了二维热传导,使得峰值阻尼值随着厚度、长度和模态的增加而略有减小。压电层和高机电耦合系数的存在对TED有抑制作用。压电材料简化为各向同性以及残余极化强度的降低都会引起热应力模量的增加,这进一步放大了不同材料之间齐纳模量的差异,从而加速双峰的形成,增强了压电层对TED的贡献。增加梁的厚度、增加压电层的比例、减小激励电压幅值都有助于减小梁的位移幅值。Study on the attributes of transverse surface waves in a layered piezoelectric semi-space with surface elasticity theory and Extended Stroh formalismXuan Wang, Jiashun Zhou, Qiang Chen, Kefu Huang, Yahui Xuedoi:10.1016/j.tws.2024.112084应用表面弹性理论和扩展Stroh形式论研究层状压电半空间中横表面波的特性Previous works on surface acoustic wave sensors have shown great limitations in selecting piezoelectric materials and the wave propagation direction. To eliminate such limitations in the technological revolution of SAW sensors, the current paper's main purpose is to explore how wave propagation orientation affects the performance of SAW macro- and nano-sensors. Based on Extended Stroh formalism, the theoretical forms are derived and exploited to present the wavenumber of transverse waves in an arbitrary direction of the piezoelectric medium. Furthermore, we consider surface elasticity theory to acquire the phase velocity equation on the basis of the expression of the wavenumber. More intuitively, a physical model is set up to obtain the horizontal shear stiffness of the surface and bulk layers. Then, the numerical case is carried out to determine the relationship between phase velocity and wave propagation orientation. By comparing the numerical study and the physical model, it can be found that the empirical formula of shear stiffness for bulk and surface layers offers a helpful route to precisely predict the mechanical attributes of SAW macro- and nano-sensors, respectively. The summaries of the current theoretical work benefit the manufacturing of surface acoustic wave sensors with improved performance.以往的表面声波传感器在压电材料的选择和波的传播方向上存在很大的局限性。为了消除SAW传感器技术革命中的这些限制,本文的主要目的是探索波的传播方向如何影响SAW宏观和纳米传感器的性能。基于扩展的Stroh形式,导出了压电介质任意方向横波波数的理论表达式。在波数表达式的基础上,利用表面弹性理论推导出相速度方程。更直观的方法是建立物理模型,得到表层和块体层的水平剪切刚度。然后,通过数值算例确定了相速度与波传播方向的关系。通过数值研究与物理模型的对比,可以发现体层和面层剪切刚度经验公式分别为精确预测SAW宏观和纳米传感器的力学属性提供了有益的途径。总结了目前的理论工作,有助于制造性能更好的表面声波传感器。来源:复合材料力学仿真Composites FEM

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