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【新文速递】2024年7月26日固体力学SCI期刊最新文章

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今日更新:International Journal of Solids and Structures 2 篇,Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,Thin-Walled Structures 1 篇

International Journal of Solids and Structures

Uniform stretching behavior of single crease origami arrays

Qian Zhang, Hui Qiu, Qiuhong Lin, Jian Feng, Jianguo Cai

doi:10.1016/j.ijsolstr.2024.112993

单折纸阵列的均匀拉伸行为

Origami arrays featuring ideal purely rotational creases inherently possess multiple kinematic degrees of freedom. The incorporation of crease rotational stiffness introduces additional constraint relations to the kinematic morphology of the origami array, due to the interaction between the plate and the crease. This paper concentrates on elucidating the coupling effect, employing two theoretical models to systematically analyze the uniform stretch process of a single crease origami array. The validity of our theoretical approaches is substantiated through verification in the finite element method. Firstly, the mechanical equations of the origami unit, together with the length and angle constraint equations of the origami array, are amalgamated to formulate a comprehensive set of morphological computational equations specific to the single crease origami array. This set enables the realization of morphological analysis for general origami arrays. Moreover, energy equations for the origami array are computed using an equivalent rigid plate nonlinear creasing element. When combined with constraint equations corresponding to horizontal stretch displacement, these energy equations contribute to the establishment of a nonlinear optimization framework for determining the morphology of uniform single crease origami arrays. Notably, our investigation reveals that during the early stages of the unfolding process for a single crease origami array, even a small relative horizontal stretch displacement can induce a drastic change in the center crease. Through finite element analysis of general origami arrays, it is shown that the proposed theoretical analysis method applies to different crease stiffness, both unfolding and folding processes, and different plate types. The research method in this paper can provide ideas for systematically analyzing the influence mechanism of crease properties on the morphological features of origami structures.

具有理想的纯旋转折痕的折纸阵列固有地具有多个运动自由度。由于板与折痕之间的相互作用,折痕旋转刚度的结合为折纸阵列的运动学形态引入了额外的约束关系。本文着重阐述了耦合效应,采用两种理论模型系统地分析了单折纸阵列的均匀拉伸过程。通过有限元方法的验证,证实了理论方法的有效性。首先,将折纸单元的力学方程与折纸阵列的长度和角度约束方程合并,形成一套完整的单折纸阵列形态计算方程;该集 合可以实现一般折纸阵列的形态分析。此外,利用等效刚性板非线性压痕单元计算了折纸阵列的能量方程。将这些能量方程与水平拉伸位移的约束方程相结合,建立了确定均匀单折纸阵列形态的非线性优化框架。值得注意的是,我们的研究表明,在单折痕折纸阵列展开过程的早期阶段,即使是很小的相对水平拉伸位移也会引起中心折痕的剧烈变化。通过对一般折纸阵列的有限元分析,表明所提出的理论分析方法适用于不同的折痕刚度、展开和折叠过程以及不同的板型。本文的研究方法可以为系统分析折纸结构的折痕特性对形态特征的影响机理提供思路。


Multimodal self-operation of a liquid crystal elastomer spring-linkage mechanism under constant light

Yunlong Qiu, Yuntong Dai, Kai Li

doi:10.1016/j.ijsolstr.2024.112998

恒光条件下液晶弹性体弹簧连杆机构的多模态自运行

Multimodal self-operating systems can provide abundant functionality and adaptability, efficiently handling various tasks and offering enhanced capabilities for complex applications. To suit various application scenarios, it is necessary to build a wider variety of multimodal self-operating systems. Inspired by the classic spring-linkage mechanism, we proposed a multimodal self-operating liquid crystal elastomer spring-linkage mechanism, consisting of a liquid crystal elastomer fiber, rigid rod and mass block under constant light. To explore the dynamic behavior of the spring-linkage mechanism, we propose a nonlinear dynamic model derived from a photothermally responsive liquid crystal elastomer model. The numerical calculation shows that four self-operation states of the spring-linkage mechanism are discovered with a supercritical Hopf bifurcation condition existing between the states. The liquid crystal elastomer fiber utilizes thermal energy provided by ambient light to compensate for damping dissipation during its motion. Furthermore, we perform a comprehensive analysis of the Hopf bifurcation condition of the spring-linkage mechanism, examining the key parameters that impact the frequency and amplitude of the self-operation. The structural simplicity of the spring-linkage mechanism and its multimodal self-operation distinguish it from many existing self-operation systems, holding promise for intriguing applications in the fields of micro-electro-mechanical systems, sensing and actuation.

多模式自操作系统可以提供丰富的功能和适应性,有效地处理各种任务,并为复杂的应用程序提供增强的功能。为了适应不同的应用场景,需要构建种类更多的多式联运自操作系统。在经典弹簧连杆机构的启发下,我们提出了一种由液晶弹性体纤维、刚性杆和质量块组成的多模态自动液晶弹性体弹簧连杆机构。为了探索弹簧连杆机构的动力学行为,我们提出了一个由光热响应液晶弹性体模型导出的非线性动力学模型。数值计算表明,发现了弹簧连杆机构的4种自运行状态,状态之间存在一个超临界Hopf分岔条件。液晶弹性体纤维利用环境光提供的热能来补偿其运动过程中的阻尼耗散。此外,我们对弹簧连杆机构的Hopf分岔条件进行了全面的分析,研究了影响自动频率和幅值的关键参数。弹簧连杆机构的结构简单,其多模态自操作使其区别于许多现有的自操作系统,在微机电系统、传感和驱动领域有着有趣的应用前景。


Journal of the Mechanics and Physics of Solids

Intrinsic Fracture Toughness of a Soft Viscoelastic Adhesive

Xingwei Yang, Michael J. Wald, Ryan Birringer, Jonathan Kemling, Aaron Hedegaard, John Martin, Jason Clapper, Rong Long

doi:10.1016/j.jmps.2024.105797

一种软粘弹性胶粘剂的内在断裂韧性

The fracture toughness of inelastic materials consists of an intrinsic component associated with the crack tip fracture process and a dissipative component due to bulk dissipation. Experimental characterization of the intrinsic component of fracture toughness is important for understanding the fracture mechanism and predictive modeling of the fracture behavior. Here we present an experimental study on the intrinsic toughness of a soft viscoelastic adhesive. We first obtained full-field and full-history data of the displacement and deformation fields in pure shear fracture tests using a particle tracking method. By combining these data with a nonlinear constitutive model, we extracted the intrinsic toughness through an energy balance analysis. A two-stage crack propagation behavior was observed in our fracture experiments: under monotonic loading the crack first underwent a slow propagation stage and then suddenly entered a fast propagation stage. We found that the intrinsic toughness was highly scattered for the slow propagation stage, but remained consistent for the fast propagation stage. Further examination of the fracture surface and the onset of fast propagation revealed that transition from the slow to the fast propagation stage was governed by the applied stretch and was likely due to a change in the crack tip fracture process.

非弹性材料的断裂韧性由与裂纹尖端断裂过程有关的固有分量和由于体积耗散而产生的耗散分量组成。断裂韧性固有成分的实验表征对于理解断裂机理和断裂行为的预测建模具有重要意义。本文对软粘弹性胶粘剂的固有韧性进行了实验研究。我们首先利用颗粒跟踪方法获得了纯剪切断裂试验中位移和变形场的全场和全历史数据。将这些数据与非线性本构模型相结合,通过能量平衡分析提取固有韧性。在我们的断裂实验中观察到两阶段的裂纹扩展行为:在单调加载下,裂纹先经历缓慢扩展阶段,然后突然进入快速扩展阶段。研究发现,在缓慢扩展阶段,本征韧度高度分散,而在快速扩展阶段,本征韧度保持一致。对断口表面和快速扩展开始的进一步检查表明,从缓慢扩展到快速扩展阶段的转变是由施加的拉伸控制的,可能是由于裂纹尖端断裂过程的变化。


Mechanics of Materials

A high-rate, impact-driven biaxial fragmentation experiment for ductile materials

Gary Simpson, Justin Moreno, Matthew Shaeffer, K.T. Ramesh

doi:10.1016/j.mechmat.2024.105102

一种高速率、冲击驱动的延性材料双轴破碎实验

The experimental investigation of high strain rate fragmentation has generally been limited to one of two cases: analytically powerful but simple one-dimensional loading configurations, or complicated multiaxial experiments more closely approximating use applications. The former, exemplified by Mott-style ring fragmentation, promotes simple and confident analysis—forming the backbone of the field and revealing the basic nature of dynamic fragmentation in solids—but ignores some critical mechanisms in order to achieve that simplicity. The latter, while informing applications of interest such as ballistic impact, may provide limited insight and is often difficult to access diagnostically. This work presents an attempt to help bridge the gap between 1D ring expansion and 3D fragmentation experiments in the form of impact driven, high-strain-rate biaxial tensile fragmentation experiments. The impact target system consists of a thin specimen plate and a thick polymer impact buffer. The latter serves as a fluid-like medium allowing momentum transfer between an impacting projectile and a rapidly growing near-hemispherical bulge in the specimen plate. The deformation of the specimen and fragmentation pattern are observed using ultra-high-speed optical imaging as well as flash x-ray imaging, and individual fragments are recovered and characterized post-mortem. Using this method, the fragmentation behavior of 6061-T6 Aluminum is investigated at tensile strain rates exceeding 10^5s−1 and at higher stress triaxiality than that commonly achieved.

对高应变速率破碎的实验研究通常局限于两种情况之一:分析能力强但简单的一维加载配置,或更接近使用应用的复杂多轴实验。前者以莫特式环破碎为例,促进了简单而可靠的分析,成为该领域的支柱,并揭示了固体动态破碎的基本性质,但为了实现这种简单性,忽略了一些关键机制。后者虽然为弹道撞击等相关应用提供了信息,但可能提供的洞察力有限,而且往往难以进行诊断。本研究试图通过冲击驱动的高应变率双轴拉伸碎裂实验,弥合一维环形膨胀和三维碎裂实验之间的差距。冲击目标系统由薄试样板和厚聚合物冲击缓冲器组成。后者是一种类似于流体的介质,允许撞击弹丸和试样板上迅速增大的近半球形凸起之间进行动量传递。使用超高速光学成像和闪光 X 射线成像技术观察试样的变形和碎裂模式,并在死后回收和鉴定单个碎片。利用这种方法,可以研究 6061-T6 铝在拉伸应变速率超过 10^5s-1 和应力三轴度高于通常情况下的碎裂行为。


Thin-Walled Structures

Localized loading behavior of cold-formed stainless steel RHS under Interior-One-Flange load case at elevated temperatures

Chen-Yu Xu, Hai-Ting Li

doi:10.1016/j.tws.2024.112265

高温下冷弯不锈钢RHS内单法兰局部加载行为

The localized loading behavior of cold-formed stainless steel (CFSS) rectangular hollow section (RHS) members at elevated temperatures is investigated in this paper. Fifteen localized loading tests conducted at various temperatures up to 800°C were reported. The tests were carried out under the Interior-One-Flange (IOF) load case as specified in American Specification for the design of cold-formed stainless steel structural members. Tensile coupon tests were performed to obtain the material properties of the CFSS RHS at various temperatures. Detailed information on dimensions, temperature history, failure modes, load-deformation curves, localized loading capacities of specimens at various temperatures were presented. In addition, a numerical investigation was supplemented, where a total of 192 finite element (FE) analyses were undertaken after validation of developed FE model against the elevated-temperature test results. The influence of various parameters on the localized loading capacities of CFSS RHS at different temperatures under IOF load case was revealed. The obtained results were utilized to assess the applicability of the localized loading design provision for CFSS RHS under IOF load case codified in the American Specification to elevated temperature conditions. Moreover, the results were also compared with predictions based on existing design rules in literatures for cold-formed RHS at elevated temperatures. Furthermore, reliability analyses were carried out to assess the reliability levels of the assessed design methods. It is shown that the existing design rules can generally provide conservative and reliable predictions of the localized loading capacities for the CFSS RHS under IOF load case at elevated temperatures.

研究了冷弯不锈钢(CFSS)矩形空心截面构件在高温下的局部加载行为。报告了在800°C的不同温度下进行的15次局部加载试验。试验是在美国冷弯不锈钢结构构件设计规范中规定的内单法兰(IOF)荷载工况下进行的。对CFSS RHS材料在不同温度下的性能进行了拉伸试验。给出了试件在不同温度下的尺寸、温度历史、破坏模式、荷载-变形曲线、局部加载能力等详细信息。此外,还补充了一项数值研究,在将开发的有限元模型与高温试验结果进行验证后,进行了总共192次有限元分析。揭示了在IOF工况下,不同温度下各参数对CFSS RHS局部承载能力的影响。利用获得的结果来评估CFSS RHS在美国规范中规定的IOF荷载情况下局部加载设计条款在高温条件下的适用性。此外,还将结果与基于现有设计规则的高温冷弯RHS预测结果进行了比较。此外,还进行了可靠性分析,以评估所评估的设计方法的可靠性水平。结果表明,现有设计规则一般能保守可靠地预测高温工况下CFSS RHS局部载荷能力。




来源:复合材料力学仿真Composites FEM
ACTMechanicalOpticalSystemInspire断裂非线性光学裂纹理论材料控制试验
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首次发布时间:2024-11-21
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【新文速递】2024年7月28日复合材料SCI期刊最新文章

今日更新:Composite Structures 1 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 1 篇,Composites Science and Technology 1 篇Composite StructuresExperimental behaviour and design model of FRP-UHPC-steel tubular columns under monotonic axial compressionZhang Bing, Zhou Chong, Zhang Sumei, Lin Shuhong, Fan Zhihong, Peng Yutao, Sun Jiaming, Lin Guandoi:10.1016/j.compstruct.2024.118416frp - uhpc -钢管柱在单调轴压作用下的试验性能及设计模型By integrating structural steel with Fiber-Reinforced Polymer (FRP) and Ultra-High Performance Concrete (UHPC), FRP-UHPC-steel tubular columns (FUSTs) emerge as innovative composite members that offer exceptional corrosion resistance and lightweight properties. FUSTs hold significant potential for use as thin-walled tubular columns working in harsh environments, such as wind turbines and high-voltage transmission towers. To obtain in-depth understanding of key parameters including the steel fiber ratio of UHPC, the specimen void ratio and the FRP thickness, this paper tested 24 specimens to evaluate their compressive behaviour, including 18 FUSTs and 6 UHPC-filled FRP tubes (UCFFTs). Experimental results showed that: (1) FUSTs demonstrated ductile behavior with significant strain enhancement and notable strength improvement; (2) the steel fibers in UHPC had marginal influences on the ultimate condition of FUSTs; (3) a larger inner void had a general effect to lead to more localized rupture for the FRP tube; (4) the FRP thickness was the predominant influencing factor on both the general shape and the ultimate point of the normalized axial stress–strain curves. Finally, a design model was proposed, which was able to capture the general shape of the axial load–strain curves, and could generate reasonably accurate predictions for the peak load.通过将结构钢与纤维增强聚合物(FRP)和超高性能混凝土(UHPC)相结合,FRP-UHPC钢管柱(FUSTs)成为创新的复合材料构件,具有卓越的耐腐蚀性和轻质性能。fsts在恶劣环境中作为薄壁管柱,如风力涡轮机和高压输电塔,具有巨大的应用潜力。为了深入了解UHPC的钢纤维比、试件空隙率和FRP厚度等关键参数,本文对24个试件进行了压缩性能评估,其中包括18个FUSTs和6个UHPC填充FRP管(UCFFTs)。试验结果表明:(1)FUSTs具有显著的应变增强和强度提高的延性;(2) UHPC中钢纤维对fsts极限状态的影响较小;(3)较大的内空隙对玻璃钢筒的局部破裂有普遍影响;(4) FRP厚度是影响归一化轴向应力-应变曲线总体形状和终点的主要因素。最后,提出了一个设计模型,该模型能够捕捉轴向载荷-应变曲线的一般形状,并能够合理准确地预测峰值载荷。Composites Part A: Applied Science and ManufacturingRevolutionizing textile: Advanced techniques for superior thermal conductivityYang Hong, Zhanxiao Kang, Jintu Fandoi:10.1016/j.compositesa.2024.108380革命性的纺织品:先进的技术,优越的导热性Improving thermal conductivity in textile/composites is crucial for heat dissipation in apparel and engineering. Apparel textiles’ thermal conductivities rarely exceed 1.0 W/(m·K), limiting efficient personal thermal management. Advances in silver conductive yarn and heat-stretched polyethylene show promise for ultra-high thermal conductivity materials. In electronic packaging, materials’ thermal conductivities rarely exceed 40 W/(m·K), causing overheating and reduced reliability. Techniques like freeze-drying and templating can enhance boron nitride composites’ thermal conductivity. Aerospace and automotive composites with mechanical and flame-retardant properties rarely exceed 120 W/(m·K), leading to potential safety hazards. Recent advancements indicate that mechanical structure enhancement and chemical surface modification can improve carbon composites’ thermal conductivity. Understanding existing enhancement techniques and mechanisms is essential. This paper reviews these techniques, discussing their potentials and limitations for future high thermal conductive textiles and composites development.提高纺织/复合材料的导热性是服装和工程散热的关键。服装纺织品的热导率很少超过1.0 W/(m·K),限制了有效的个人热管理。银导电纱和热拉伸聚乙烯的进展显示出超高导热材料的前景。在电子封装中,材料的热导率很少超过40 W/(m·K),导致过热和可靠性降低。冷冻干燥和模板等技术可以提高氮化硼复合材料的导热性。具有机械和阻燃性能的航空航天和汽车复合材料很少超过120 W/(m·K),从而导致潜在的安全隐患。近年来的研究进展表明,机械结构增强和化学表面改性可以提高碳复合材料的导热性。理解现有的增强技术和机制是必要的。本文综述了这些技术,讨论了它们在未来高导热纺织品和复合材料发展中的潜力和局限性。Composites Part B: EngineeringRecent Approaches of Interfaces Strengthening in Fibre Metal Laminates: Processes, Measurements, Properties and Numerical AnalysisUmut Bakhbergen, Fethi Abbassi, Gulnur Kalimuldina, Reza Montazami, Essam Shehab, Sherif Arabydoi:10.1016/j.compositesb.2024.111744金属纤维层合板界面强化的新方法:工艺、测量、性能和数值分析Recently, there is a pressing need for high-performance and lightweight structural materials in aircraft and automobile industry; fibre metal laminates (FMLs) are suggested ideal candidates for aviation industry. FMLs are hybrid composite material comprised thin-metal sheets and fibre-reinforced polymers (FRPs). By combining the features of both components, FMLs possess high tolerance to fatigue damage, exceptional impact resistance and an outstanding weight-to-strength ratio. However, maintaining high structure integrity of FML layers – without debonding – remains the primary challenge in FMLs-based structures. The present review explores the recent developments in manufacturing techniques and surface treatments aimed at enhancing the interfacial strength between FML layers. Recently, adding nanofillers into FRPs and FMLs is gaining attention. These nanofillers can enhance mechanical performance of FRPs/FMLs, strengthen the interface in FMLs; and add functionalities such as gas and water impermeability. The article discusses the recent studies on employing nanofillers in FMLs and adhesively bonded structures; and their role (nanofillers) in enhancing the crack resistance of FMLs. It also explores failure mechanisms in FMLs through experimental methods and advanced numerical simulations. A comprehensive review of the existing studies assists in understanding the complex failure mechanisms, aiming to find optimal input conditions that yield desired mechanical performance. Furthermore, the article introduces machine learning techniques in adhesively bonded structures and potential application in FMLs-related research. The article concludes with perspectives on the limitations, current challenges, and future prospects for FMLs and nanofiller-reinforced FMLs.近年来,飞机和汽车工业对高性能、轻量化结构材料的需求日益迫切;金属纤维层压板(FMLs)是航空工业的理想选择。FMLs是由金属薄板和纤维增强聚合物(frp)组成的杂化复合材料。结合这两种成分的特点,FMLs具有高的疲劳损伤耐受性,卓越的抗冲击性和出色的重量强度比。然而,保持FML层的高结构完整性(不脱粘)仍然是基于FML结构的主要挑战。本文综述了旨在提高FML层间界面强度的制造技术和表面处理的最新进展。近年来,在frp和fml中添加纳米填料的研究日益受到关注。这些纳米填料可以提高frp /FMLs的力学性能,增强FMLs中的界面;并增加诸如气体和水的不渗透性等功能。本文综述了近年来纳米填料在FMLs和粘接结构中的应用研究进展;以及它们(纳米填料)在增强FMLs抗裂性中的作用。通过实验方法和先进的数值模拟,探讨了FMLs的破坏机制。对现有研究的全面回顾有助于理解复杂的失效机制,旨在找到产生理想力学性能的最佳输入条件。此外,本文还介绍了机器学习技术在粘合结构中的应用以及在fml相关研究中的潜在应用。文章最后对FMLs和纳米填料增强FMLs的局限性、当前挑战和未来前景进行了展望。Composites Science and TechnologyFacile Chemical Surface Modification of Boron Nitride Platelets and Improved Thermal and Mechanical Properties of Their Polymer Compounds for 2.5D/3D Packaging ApplicationsZihao Lin, Jiaxiong Li, Zhijian Sun, Andrew D. Fang, Keyi Han, Shu Jia, Yao-Hao Liu, Michael J. Adams, Kyoung-sik Moon, Ching-Ping Wongdoi:10.1016/j.compscitech.2024.110778 用于2.5D/3D包装的氮化硼薄片的简单化学表面改性及其聚合物化合物的热力学性能的改善Thermally conductive yet electrically insulative epoxy composites are sought after as encapsulation materials to tackle the heat dissipation challenges in modern electronics. In this work, we developed a novel one-step and facile solvothermal reflux method using a high-boiling-point solvent to surface-modify hexagonal boron nitride (h-BN) with glycine. By refluxing glycine at high temperature, amino functional groups are grafted onto the BN surface, which can enhance the affinity of fillers for epoxy and reduce the interfacial thermal resistance of the filler/epoxy composites. We investigated the mechanism of glycine-grafted layer formation, optimizing reactant mass ratios for enhanced interfacial thermal transport. The resulting BN@G11/epoxy composites exhibit a remarkable thermal conductivity of 1.04 W/mK at 30 wt% modified-BN loading, representing a 477.8% increase over neat epoxy and 57.5% higher than h-BN/epoxy composites at equivalent BN filler loading. Additionally, these composites demonstrate improved thermomechanical properties, confirming the strengthened BN/epoxy interface bonding using modified BN fillers. Compared to other surface treatment methods, this solvothermal reflux approach stands out for its scalability and cost-effectiveness. This scalable and eco-friendly innovation presents a competitive strategy for designing polymer-based composites for thermal management, catering to the demands of future 2.5D/3D semiconductor packaging.导热且绝缘的环氧复合材料作为封装材料受到追捧,以解决现代电子产品中的散热挑战。在这项工作中,我们开发了一种新的一步和简单的溶剂热回流方法,使用高沸点溶剂对六方氮化硼(h-BN)进行甘氨酸表面改性。通过高温回流甘氨酸,将氨基官能团接枝到BN表面,增强填料对环氧树脂的亲和力,降低填料/环氧复合材料的界面热阻。我们研究了甘氨酸接枝层形成的机制,优化了反应物质量比以增强界面热传递。所得BN@G11/环氧复合材料在30 wt%的改性BN载荷下的导热系数为1.04 W/mK,比纯环氧提高了477.8%,比同等BN填料载荷下的h-BN/环氧复合材料高57.5%。此外,这些复合材料表现出改善的热机械性能,证实了改性BN填料增强了BN/环氧界面结合。与其他表面处理方法相比,溶剂热回流法因其可扩展性和成本效益而脱颖而出。这种可扩展且环保的创新为设计用于热管理的聚合物基复合材料提供了一种具有竞争力的策略,以满足未来2.5D/3D半导体封装的需求。来源:复合材料力学仿真Composites FEM

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