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【新文速递】2024年1月21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 3 篇,Composites Science and Technology 2 篇

Composite Structures

Free vibration and buckling analysis of functionally graded beams using the DMCDM

Zeyu Jiao, Guannan Wang, Rongqiao Xu, Weiqiu Chen, J.N. Reddy

doi:10.1016/j.compstruct.2024.117905

用DMCDM分析功能梯度梁的自由振动和屈曲

In this paper, the Dual Mesh Control Domain Method (DMCDM) is used to carry out the free vibration and buckling analysis of two-constituent Functionally Graded Beams (FGBs) with through-thickness material variation. The material composition (modulus and density) is varied continuously through the beam thickness according to a power-law. The Euler-Bernoulli beam model consisting of the displacements and bending moment as the primary nodal degrees of freedom (i.e., mixed model) and the Timoshenko beam model with the displacement degrees of freedom (i.e., displacement model) are formulated as eigenvalue problems using the DMCDM. The numerical examples presented consider typical beam boundary conditions and various power-law exponents and slenderness ratios. The accuracy of this method is demonstrated by comparing the numerical results with those available in the literature.

本文采用双网格控制域法(Dual Mesh Control Domain Method, DMCDM)对材料厚度变化的双组分功能梯度梁(fgb)进行了自由振动和屈曲分析。材料成分(模量和密度)随梁厚呈幂律连续变化。采用DMCDM将以位移和弯矩为主要节点自由度的Euler-Bernoulli梁模型(即混合模型)和以位移自由度为主要节点自由度的Timoshenko梁模型(即位移模型)表述为特征值问题。给出的数值算例考虑了典型的梁边界条件和各种幂律指数和长细比。通过将数值结果与文献中已有的结果进行比较,证明了该方法的准确性。


Higher gradient homogenization of quasi-periodic media and applications to inclusion-based composites

Nagham Mawassy, S.E. Alavi, Hilal Reda, Jean-Francois Ganghoffer

doi:10.1016/j.compstruct.2024.117912

准周期介质的高梯度均匀化及其在内含基复合材料中的应用

This paper introduces quasi-periodic homogenization schemes for quasi-periodic media, those without strict periodicity, but that can be mapped to a parent periodic medium. Quasi-periodic homogenization relies on the conceptual idea of mapping a non-periodic domain to a reference periodic one through a point mapping of material points within the domain of an identified repetitive unit cell. The theoretical background of quasi-periodic homogenization introduced in the first part of this paper relies on expressing the microscopic position of micropoints within a physical unit cell as a sum of the macroscopic position (the center of area of the unit cell) and the relative position of micropoints with respect to the center of area. This decomposition parameterized by the small-scale parameter entails a corresponding additive decomposition of the tangent map defining the geometrical transformation of the periodic UC into the quasi-periodic one in terms of an additive decomposition into macroscopic and microscopic contributions. The quasi-periodic homogenized effective moduli are then determined, starting from the average of the microscopic energy, those being expressed in terms of the periodic moduli and a perturbation term, both expressed in a volumetric format as surface integrals over the reference unit cell domain in a 2D context. In the second part of this contribution, a surface formulation of the quasi-periodic moduli is derived, based on the notion of shape derivative of the total potential energy stored within the unit cell. This approach relies on introducing a shape velocity field at the boundary of the periodic unit cell to change its design, driven by the normal projection of Eshelby stress onto both the internal and external boundaries of the unit cell. This second scheme offers comparatively to the first one a simpler way to compute the quasi-periodic moduli as it only requires the evaluation of the mechanical fields on the unit cell boundaries. Application of the proposed homogenization schemes are done for inclusion-based composites, underlining the importance of strain gradient energetic contribution in the situation of a micrograding of the unit cell geometry.

本文介绍了准周期介质的准周期均匀化方案,这些准周期介质没有严格的周期性,但可以映射到父周期介质。准周期均匀化依赖于将非周期域映射到参考周期域的概念,通过对已识别的重复单元胞域中的物质点进行点映射。本文第一部分介绍的准周期均匀化的理论背景是将物理单元胞内微点的微观位置表示为宏观位置(单元胞的面积中心)和微点相对于面积中心的相对位置的总和。这种由小尺度参数参数化的分解需要对切线映射进行相应的加性分解,根据宏观和微观贡献的加性分解,定义周期UC到准周期UC的几何变换。然后确定准周期均质化有效模量,从微观能量的平均值开始,这些能量以周期模量和扰动项表示,两者都以体积格式表示为参考单元胞域上的二维背景下的表面积分。在本论文的第二部分,基于存储在单元胞内的总势能的形状导数的概念,导出了准周期模的表面公式。这种方法依赖于在周期单元胞的边界引入形状速度场来改变其设计,由Eshelby应力在单元胞内外边界的法向投影驱动。相对于第一种方案,第二种方案提供了一种更简单的计算准周期模的方法,因为它只需要计算单元胞边界上的力学场。将提出的均质化方案应用于包体基复合材料,强调了应变梯度能量贡献在单元胞几何结构微级配情况下的重要性。


A meshfree method for functionally graded triply periodic minimal surface plates

Chien H. Thai, P.T. Hung, H. Nguyen-Xuan, P. Phung-Van

doi:10.1016/j.compstruct.2024.117913

功能梯度三周期最小曲面板的无网格法

The goal of this study is to utilize a higher order shear deformation theory (HSDT) and the moving Kriging meshfree method for analyzing bending, free vibration, and buckling behaviors of functionally graded (FG) triply periodic minimal surface (TPMS) plates. The FG-TPMS plates are modeled using porous structures of Primitive (P), Gyroid (G) and wrapped package-graph (IWP) patterns with six different volume distribution cases for each pattern. The mechanical properties such as elastic modulus, shear modulus, and Poisson's ratio, are estimated using a fitting technique based on a two-phase piece-wise function. The governing equations of the FG-TPMS plates are established using the virtual work principle and then solved using the moving Kriging meshfree method. The study examines various geometries including square, circular, annular, and square with a cutout heart, to investigate the displacement, natural frequency, and critical buckling load parameters of the FG-TPMS plates. Additionally, those parameters are also analyzed with respect to different length-to-thickness ratios, TPMS types, volume distribution cases, and boundary conditions. The numerical results are compared to the original reference ones obtained by isogeometric analysis in the literature.

本研究的目的是利用高阶剪切变形理论(HSDT)和移动Kriging无网格方法来分析功能梯度(FG)三周期最小表面(TPMS)板的弯曲、自由振动和屈曲行为。FG-TPMS板采用原始(P),陀螺(G)和包裹包图(IWP)模式的多孔结构建模,每种模式有六种不同的体积分布情况。力学性能,如弹性模量、剪切模量和泊松比,使用基于两相分段函数的拟合技术进行估计。利用虚功原理建立了FG-TPMS板的控制方程,并采用移动Kriging无网格法求解。为了研究FG-TPMS板的位移、固有频率和临界屈曲载荷参数,研究了各种几何形状,包括方形、圆形、环形和带心形的方形。此外,还针对不同的长厚比、TPMS类型、体积分布情况和边界条件对这些参数进行了分析。将数值计算结果与文献中采用等几何分析法得到的原始参考结果进行了比较。


Recent Advances and Future Trends in Enhancing the Compressive Strength of Aluminum Matrix Foam Composites Reinforced with Ceramic Hollow Spheres: A Review

Kai Sun, Lin Wang, Guoliang Wei, Qiang Zhang, Zengyan Wei, Bing Wang, S.V. Shil'ko, Gaohui Wu

doi:10.1016/j.compstruct.2024.117918

陶瓷空心球增强铝基泡沫复合材料抗压强度研究进展及发展趋势

Aluminum matrix foam composites have garnered significant interest among researchers due to their exceptional strength and energy absorption capabilities. However, the compressive strength of the hollow spheres in these composites is relatively low compared to that of conventional structural materials. As a result, the primary focus in developing aluminum matrix foam composites is to enhance their strength. Although researchers have conducted several reviews on the preparation methods and typical properties of these composites, less attention has been given to the factors influencing their strength and the structural design methods employed to bolster it. Therefore, this paper provides a comprehensive review of the factors impacting the strength of aluminum matrix foam composites and the available structural design options for strength enhancement. The summarization of structural design methods presented herein is crucial for gaining a deeper understanding of strategies to strengthen aluminum matrix foam composites.

铝基泡沫复合材料由于其优异的强度和能量吸收能力而引起了研究人员的极大兴趣。然而,与传统结构材料相比,这些复合材料中的空心球体的抗压强度相对较低。因此,提高铝基泡沫复合材料的强度是目前研究的重点。虽然研究人员对这些复合材料的制备方法和典型性能进行了多次综述,但对影响其强度的因素和支撑其结构设计方法的关注较少。因此,本文全面综述了影响铝基泡沫复合材料强度的因素以及增强强度的可用结构设计方案。本文所提出的结构设计方法的总结对于深入理解铝基泡沫复合材料的强化策略至关重要。


Composites Part A: Applied Science and Manufacturing

Exceptionally low ablation rates realized in the cellular-structured MCMB@WC composites via biomimetic design

Wenqi Xie, Biao Zhang, Bangzhi Ge, Zhilei Wei, Zhichao Xiao, Lei Zhuang, Zhanwu Wu, Jiajia Wu, Yingjie Zhang, Kai He, Zhongqi Shi

doi:10.1016/j.compositesa.2024.108035

通过仿生设计,在细胞结构MCMB@WC复合材料中实现了极低的烧蚀率

Thermal protection materials (TPMs) with extra-low ablation rate in long-term are ungently required in reusable spacecrafts. However, the ablation property and operation life of conventional graphite/carbon-based composites with ultra-high temperature ceramic coatings are rather limited. Inspired by the self-healing behavior of plants, we designed and fabricated cellular-structured tungsten carbide (WC) reinforced graphite composites via the combination of molten salt coating and spark plasma sintering. Owing to the intelligent biomimetic structure and regeneration of WC during the ablation process, the composites exhibited not only excellent thermal shock resistance but also exceptionally low ablation rates. In the cyclic ablation test under 4.18 MW·m-2 for 360 s, the linear and mass ablation rates of the composite at the last ablation period decreased to 0.33 mg·s-1 and 0.17 μm·s-1, respectively. The biomimetic structural design offers new insights for fabricating graphite-based composites with exceptionally low ablation rates, which are promisingly applied in reusable spacecrafts.

具有长期超低烧蚀率的热防护材料是可重复使用航天器的迫切需求。然而,传统的超高温陶瓷涂层石墨/碳基复合材料的烧蚀性能和使用寿命相当有限。受植物自我修复行为的启发,我们通过熔盐涂层和火花等离子烧结相结合的方法设计并制造了细胞结构碳化钨增强石墨复合材料。由于智能仿生结构和碳化钨在烧蚀过程中的再生,复合材料不仅具有优异的抗热震性能,而且具有极低的烧蚀率。在4.18 MW·m-2条件下进行360 s的循环烧蚀试验,复合材料在最后一个烧蚀周期的线性烧蚀率和质量烧蚀率分别降至0.33 mg·s-1和0.17 μm·s-1。仿生结构设计为制造极低烧蚀率的石墨基复合材料提供了新的见解,这在可重复使用的航天器中有很好的应用前景。


High Performance Ductile and Pseudo-ductile Polymer Matrix Composites: a Review

M.R. Wisnom, S. Pimenta, M. S. P. Shaffer, P. Robinson, K.D. Potter, I. Hamerton, G. Czél, M. Jalalvand, M. Fotouhi, D.B. Anthony, H. Yu, M.L. Longana, X. Wu, A. Bismarck

doi:10.1016/j.compositesa.2024.108029

高性能延性和伪延性聚合物基复合材料研究进展

The ability of fibre reinforced composites to deform with a non-linear stress-strain response and gradual, rather than sudden, catastrophic failure is reviewed. The principal mechanisms by which this behaviour can be achieved are discussed, including ductile fibres, progressive fibre fracture and fragmentation, fibre reorientation, and slip between discontinuous elements. It is shown that all these mechanisms allow additional strain to be achieved, enabling a yield-like behaviour to be generated. In some cases, the response is ductile and in others pseudo-ductile. Mechanisms can also be combined, and composites which give significant pseudo-ductile strain can be produced. Notch sensitivity is reduced, and there is the prospect of increasing design strains whilst also improving damage tolerance. The change in stiffness or visual indications of damage can be exploited to give warning that strain limits have been exceeded. Load carrying capacity is still maintained, allowing continued operation until repairs can be made. Areas for further work are identified which can contribute to creating structures made from high performance ductile or pseudo-ductile composites that fail gradually.

纤维增强复合材料的变形能力与非线性应力应变响应和渐进的,而不是突然的,灾难性的破坏进行了审查。讨论了实现这种行为的主要机制,包括韧性纤维、纤维渐进断裂和破碎、纤维重定向和不连续单元之间的滑移。结果表明,所有这些机制都允许获得额外的应变,从而产生类似屈服的行为。在某些情况下,响应是延性的,而在其他情况下,响应是伪延性的。机制也可以结合起来,可以生产出具有显著伪延性应变的复合材料。缺口灵敏度降低,并且有增加设计应变的前景,同时也提高了损伤容忍度。可以利用刚度的变化或损坏的视觉指示来警告已超过应变极限。承载能力仍然保持,允许继续运行,直到维修可以作出。确定了进一步工作的领域,这些领域有助于创建由高性能延性或逐渐失效的伪延性复合材料制成的结构。


Field stiffening: A way to break the bounds on the properties of composites

Dongze Yan, Tianyu Wang, Jianxiang Wang, Li-Hua Shao

doi:10.1016/j.compositesa.2024.108037

场强化:一种突破复合材料性能限制的方法

It is common practice for humans to enhance the stiffness of a material by adding stiffer ingredients into it, which leads to the development of various composites of wide applications. However, irrespective of the configuration of the constituents of a multiphase composite, its compression elastic moduli are always between some bounds which are determined by the volume fractions and elastic moduli of the constituents inherently. Here, we report a magnetic composite material that is composed of a soft matrix material and two magnetic thin plates with small volume fraction. The compressive elastic modulus of the composite material is 25 times higher than the Halpin-Tsai upper bound due to the effect of the internal magnetic field. The measured maximum initial tangent modulus of the magnetic composite is ca. 40 times and 54 times higher than that of the nonmagnetic composite and PDMS matrix, respectively. This work provides a new direction for improving the performance of materials by fields.

通过向材料中加入更硬的成分来提高材料的刚度是人类的普遍做法,这导致了各种应用广泛的复合材料的发展。然而,无论多相复合材料组分的结构如何,其压缩弹性模量总是在由组分的体积分数和固有弹性模量决定的某个边界之间。本文报道了一种由软基材料和两块体积分数小的磁性薄板组成的磁性复合材料。由于内部磁场的影响,复合材料的压缩弹性模量比Halpin-Tsai上界高25倍。测得磁性复合材料的最大初始切线模量分别比非磁性复合材料和PDMS基体高约40倍和54倍。本工作为从场的角度提高材料的性能提供了新的方向。


Composites Science and Technology

Reduced graphene oxide/cyanoethyl cellulose composite: An example of dielectric tailoring design for efficient microwave absorption materials

Zixuan You, Shiqiao Liu, Boya Kuang, Ziqiang Shao, Chengzhi Wang, Haibo Jin, Jingbo Li

doi:10.1016/j.compscitech.2024.110441

 

还原氧化石墨烯/氰乙基纤维素复合材料:高效微波吸收材料的介电剪裁设计实例

Nowadays, electromagnetic pollution is becoming increasingly severe, causing disturbances to electronic devices and posing a potential threat to human health. Therefore, there is an urgent demand for lightweight and efficient electromagnetic wave absorbing (EMA) materials. Our study proposes a dielectric regulation idea to create graphene/polymer efficient electromagnetic wave absorbers. Cyanoethyl cellulose (CEC) with high dielectric real part (ɛ’) and low dielectric imaginary part (ɛ”) is used as the matrix to composite with high-ɛ’ and high-ɛ” reduced graphene oxides (rGO). The interwoven long fibers of CEC provide a framework for rGO attachment, allowing the fabrication of the 3D rGO structure that suppresses graphene stacking and improves the dispersibility of rGO. Beneficial from these advantages, a small addition of rGO makes the rGO/CEC composites acquire high ɛ’ and appropriate ɛ”, which are essential for impedance matching and efficient EMA performance. As a result, the rGO/CEC with only 0.7 wt% rGO achieves the minimum reflection loss (RLmin) of −42.8 dB at 10.6 GHz with the effective absorption bandwidth (RL < −10 dB) spanning 3.6 GHz. This work demonstrates an effective material-design strategy for developing efficient EMA materials through dielectric regulation, which opens up a new dimension for advanced EMA materials design.

如今,电磁污染日益严重,对电子设备造成干扰,并对人类健康构成潜在威胁。因此,人们对轻质高效的电磁波吸收(EMA)材料有着迫切的需求。我们的研究提出了一种介电调节思路,以制造石墨烯/聚合物高效电磁波吸收器。高介电实部(ɛ')和低介电虚部(ɛ")的氰乙基纤维素(CEC)被用作基体,与高ɛ'和高ɛ "还原石墨烯氧化物(rGO)复合。CEC 的交织长纤维为 rGO 的附着提供了一个框架,使三维 rGO 结构的制造成为可能,从而抑制了石墨烯堆叠并提高了 rGO 的分散性。得益于这些优势,只需添加少量 rGO,rGO/CEC 复合材料就能获得较高的ɛ'和适当的ɛ",这对于阻抗匹配和高效的 EMA 性能至关重要。因此,仅含有 0.7 wt% rGO 的 rGO/CEC 在 10.6 GHz 频率下实现了 -42.8 dB 的最小反射损耗(RLmin),有效吸收带宽(RL < -10dB)跨越 3.6 GHz。这项工作展示了一种通过介电调节开发高效 EMA 材料的有效材料设计策略,为先进的 EMA 材料设计开辟了新的领域。


Highly stretchable and room-temperature self-healing sheath-core structured composite fibers for ultrasensitive strain sensing and visual thermal management

Zhonglei Ma, Yan Zhang, Ruochu Jiang, Liang Shao, Jinan Cao, Hao Guo, Guangcheng Zhang

doi:10.1016/j.compscitech.2024.110460

 

用于超灵敏应变传感和视觉热管理的高度可拉伸和室温自修复的鞘芯结构复合纤维

Highly stretchable and self-healing wearable electronics for strain sensing and Joule heating are highly desirable for future emerging applications of wearable devices, smart robots, human-machine interface and artificial intelligence, etc. Herein, the highly stretchable and room-temperature self-healing sheath-core structured composite fibers are fabricated via the feasible in-situ polymerization modification followed by electroless silver-plating approach. Benefitting from the simultaneous incorporation of dual dynamic reversible chemical networks and construction of sheath-core structures, the composite fibers show ultrasensitive strain sensing and visual thermal management performances with excellent room-temperature self-healing capacity at ultralow Ag loadings. The composite fibers after cutting and self-healing also exhibit outstanding strain sensing performances with a high gauge factor (GF) of 64.0 and visual thermal management performances with tailorable Joule heating temperatures. Furthermore, they possess excellent working stability and reliability in practical applications of human motion detection and personal thermal management. This work demonstrates the fabrication of highly stretchable and room-temperature self-healing composite fibers for next-generation wearable devices, smart robots, human-machine interface and artificial intelligence, etc.

用于应变传感和焦耳加热的高度可拉伸和自修复的可穿戴电子设备对于可穿戴设备,智能机器人,人机界面和人工智能等未来新兴应用非常理想。本文采用原位聚合改性后化学镀银的方法制备了具有高拉伸性能和室温自愈性能的鞘芯结构复合纤维。得益于双动态可逆化学网络的同时加入和鞘芯结构的构建,复合纤维在超低银负载下具有超灵敏的应变传感和视觉热管理性能,以及出色的室温自修复能力。经过切割和自修复的复合纤维还表现出出色的应变传感性能,其测量因子(GF)高达64.0,并且具有可定制的焦耳加热温度的视觉热管理性能。此外,它们在人体运动检测和个人热管理的实际应用中具有优异的工作稳定性和可靠性。这项工作展示了用于下一代可穿戴设备,智能机器人,人机界面和人工智能等的高拉伸和室温自修复复合纤维的制造。



来源:复合材料力学仿真Composites FEM
ACTMechanicalAdditiveInspireMarc振动断裂复合材料非线性化学航天电子理论材料机器人仿生控制人工智能
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【新文速递】2024年1月6日固体力学SCI期刊最新文章

今日更新:International Journal of Solids and Structures 5 篇,Journal of the Mechanics and Physics of Solids 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 6 篇International Journal of Solids and StructuresAnalytical solution of multilayered structures with Green’s functionShouming Shang, Jinxin Xiao, Tianlin Jiang, Wen-Hua Zhangdoi:10.1016/j.ijsolstr.2023.112636具有格林函数的多层结构的解析解It is well known that for solving the problem of thin multilayered structures in complex working conditions, the calculation accuracy and efficiency of the finite element method are significantly inferior to those of the analytical solution. However, the prediction of road life requires precise and detailed mechanical performance analysis. To satisfy this requirement, this study first utilized the three-dimensional Green’s function adapted to transversely isotropic multilayered structures with arbitrary thicknesses based on the mirroring image principle. Then, the analytical solution of multilayered pavements subjected to multiple loadings without complex integral or inverse transformations was derived. Furthermore, an equivalent sliding interface model was proposed to simulate the imperfect interface or thin interlayer of multilayered pavements. Numerical examples verified the suitability and accuracy of the analytical solution thorough the comparison with the other theory and experimental results. Moreover, the key factors affecting the performance of pavements, such as the anisotropy and thickness of each layer, loading direction, and pavement friction coefficient, were investigated to provide reliable numerical and theoretical bases for the optimal design of pavement structures.众所周知,在解决复杂工况下的薄多层结构问题时,有限元法的计算精度和效率明显低于解析法。然而,道路寿命的预测需要精确详细的力学性能分析。为了满足这一要求,本研究首先利用了基于镜像原理的三维格林函数,该函数适用于任意厚度的横向各向同性多层结构。然后,在不进行复杂积分或反变换的情况下,推导出了多层路面在多重荷载作用下的解析解。此外,还提出了一个等效滑动界面模型,用于模拟多层路面的不完美界面或薄夹层。通过与其他理论和实验结果的对比,数值实例验证了分析解决方案的适用性和准确性。此外,还研究了影响路面性能的关键因素,如各层的各向异性和厚度、加载方向和路面摩擦系数等,为路面结构的优化设计提供了可靠的数值和理论依据。Approximate contact force model for viscoelastic materials based on generalized Maxwell modelSuhang Ding, Yiqun Hu, Bin Jian, Yuhang Zhang, Lei Su, Re Xia, Guoming Hudoi:10.1016/j.ijsolstr.2024.112645 基于广义麦克斯韦模型的粘弹性材料近似接触力模型This paper proposes a novel approximate model for estimating the normal contact force between a rigid sphere and a viscoelastic half-space based on the generalized Maxwell model. The relaxation function derived from the generalized Maxwell model is applied to the solution to the elastic contact problem based on the elastic-viscoelastic correspondence to obtain an integral expression of pressure for viscoelastic contact. Using the approximate method on the basis of Taylor series, the integral expression is translated into an explicit function of displacement, velocity, time and material properties. A normal contact force model is established by integrating the pressure over contact area. A relaxation test of Nafion® XL is conducted to capture the viscoelastic parameters, and these parameters are employed to simulate the contact behaviors using the finite element method (FEM) to determine the scale factor in the contact force model. In order to verify the validity of the approximate model, the outcomes obtained from the model are compared with those generated by the FEM. A parametric study is conducted to analyze the effects of variations in parameters on normal contact behaviors. The results indicate that the established model is able to predict the contact responses of the viscoelastic materials with complex mechanical characteristics.本文基于广义麦克斯韦模型,提出了一种估算刚性球体与粘弹性半空间之间法向接触力的新型近似模型。根据弹性-粘弹性对应关系,将广义麦克斯韦模型导出的松弛函数应用于弹性接触问题的解,从而得到粘弹性接触压力的积分表达式。利用基于泰勒级数的近似方法,将积分表达式转化为位移、速度、时间和材料属性的显式函数。通过对接触面积上的压力进行积分,建立了法向接触力模型。对 Nafion® XL 进行松弛测试以获取粘弹性参数,并利用这些参数通过有限元法(FEM)模拟接触行为,以确定接触力模型中的比例因子。为了验证近似模型的有效性,将模型得出的结果与有限元法得出的结果进行了比较。还进行了参数研究,分析参数变化对正常接触行为的影响。结果表明,所建立的模型能够预测具有复杂机械特性的粘弹性材料的接触响应。A fully coupled electromagnetic-thermo-mechanical model for honeycomb microwave absorbing structureHan Yan, Bin Fu, Yimeng Shan, Yungang Sun, Xuefeng Yaodoi:10.1016/j.ijsolstr.2024.112646 蜂窝微波吸收结构的全耦合电磁-热力学模型Honeycomb microwave absorbing structures typically operate under multiple physical fields, resulting in complex electromagnetic-thermo-mechanical coupling phenomena. In the present work, a multi-physics macroscopic model of the absorbing performance for honeycomb microwave absorption structures is proposed by incorporating the concept of load factor and the transmission line theory. Then, the interactive relationship between electromagnetic-thermo-mechanical coupling fields and the absorbing performance of the structure were thoroughly explored. Furthermore, the evolution law of the load factors under both single-field and multi-field coupling is analyzed and verified. The main originality of the proposed model is its capability to predict the evolution of absorbing performance under electromagnetic-thermo-mechanical coupling loading, which provides valuable theoretical guidance for designing advanced honeycomb microwave absorbing structures.蜂窝微波吸收结构通常在多个物理场下工作,从而产生复杂的电磁-热力学耦合现象。本研究结合负载因子概念和传输线理论,提出了蜂窝微波吸收结构吸收性能的多物理场宏观模型。然后,深入探讨了电磁-热力学耦合场与结构吸波性能之间的交互关系。此外,还分析并验证了单场耦合和多场耦合下负载因子的演化规律。该模型的主要独创性在于能够预测电磁-热力学耦合载荷下的吸波性能演变,为设计先进的蜂窝微波吸波结构提供了宝贵的理论指导。Magnetoactive asymmetric mechanical metamaterial for tunable elastic cloakingQuan Zhang, Gengkai Hu, Stephan Rudykhdoi:10.1016/j.ijsolstr.2024.112648用于可调弹性隐形的磁活性非对称机械超材料We propose a magnetic field-induced asymmetric mechanical metamaterial for tunable transformation-based elastic cloaking. The metamaterial is designed by integrating hard-Magnetic Active Elastomers (hMAEs) and combining zero-stress collapse modes to produce a unique asymmetric behavior controlled by an external magnetic field. The relationship bridging the microstructure and the desired cloaking performance is presented. This magneto-metamaterial design is applied to achieve tunable static elastic cloaking. The theoretical predictions, together with the numerical tests under various static loads, demonstrate encouraging cloaking performance. The study also highlights the impact of magneto-mechanical coupling and offers the first remotely-controllable hMAE-based cloaking solution, with promising potential in various applications including stress shielding and stealth technologies.我们提出了一种磁场诱导的非对称机械超材料,用于基于可调变换的弹性隐形。这种超材料是通过整合硬磁活性弹性体(hMAEs)设计的,并结合了零应力塌缩模式,从而产生了一种由外部磁场控制的独特非对称行为。本文介绍了微结构与所需隐形性能之间的关系。这种磁性超材料设计可用于实现可调静态弹性隐形。理论预测和各种静态负载下的数值测试都证明了令人鼓舞的隐形性能。该研究还强调了磁-机械耦合的影响,并提供了首个可远程控制的基于 hMAE 的隐形解决方案,在包括应力屏蔽和隐形技术在内的各种应用中具有广阔的发展前景。Non-contact reconstitution of the traction distribution using incomplete deformation measurements: Methodology and Experimental ValidationYue Mei, Dongmei Zhao, Rongyao Kang, Xinyu Wang, Bo Wang, Dawei Song, Li Dong, Hao Jiang, Stephane Avrildoi:10.1016/j.ijsolstr.2024.112650利用不完全变形测量对牵引力分布进行非接触式重组:方法与实验验证Traction distribution is often unknown in solid mechanics. However, identifying traction distribution with both high accuracy and spatial resolution can sometimes be critical. In this paper, we consider the frequent situation where incomplete deformation measurements, such as partial surface measurements obtained by digital image correlation, are available. For such situations, we propose to achieve the complete identification of boundary tractions, using an optimization based inverse method. The feasibility and robustness of the proposed approach are firstly assessed with numerical simulations. We show that complete traction distributions can be identified with high accuracy even when there is noise added to the deformation measurements. More specifically, the relative error was less than 3% even with 10% noise. Moreover, the effect of noise depends significantly on the level of incompleteness of the deformation data. We show for instance that when the measurement area is 8.3% of the solid, the relative error can be 5 times larger than when the measurement area is 33.3%. However, even with 8.3% deformation measurement area of the solid, the relative error of the mapped traction distribution can be less than 6%. Besides, the accuracy of the mapped traction distribution can be further improved if the region of the deformation measurement is closer to the traction boundary. We eventually validate the proposed inverse approach using incomplete experimental datasets consisting in tensile tests carried out on two elastic samples. We obtain very promising results, with relative errors below 4% using the measured displacements of only 3 points, which is promising to open potential applications in different fields of engineering.在固体力学中,牵引力分布往往是未知的。然而,以高精度和高空间分辨率识别牵引力分布有时至关重要。在本文中,我们考虑了经常出现的不完整变形测量的情况,例如通过数字图像相关性获得的部分表面测量。针对这种情况,我们建议使用基于优化的逆方法来实现边界牵引的完整识别。我们首先通过数值模拟评估了所提方法的可行性和稳健性。我们发现,即使在变形测量中添加了噪声,也能高精度地识别出完整的牵引力分布。更具体地说,即使噪声为 10%,相对误差也小于 3%。此外,噪声的影响很大程度上取决于变形数据的不完整程度。例如,我们发现当测量区域为实体的 8.3% 时,相对误差可能比测量区域为 33.3% 时大 5 倍。然而,即使变形测量面积为实体的 8.3%,绘制的牵引力分布图的相对误差也可小于 6%。此外,如果变形测量区域更靠近牵引边界,则绘制牵引力分布图的精度还能进一步提高。最终,我们利用对两个弹性样本进行拉伸测试的不完整实验数据集验证了所提出的逆方法。我们获得了非常有前景的结果,使用仅 3 个点的测量位移,相对误差低于 4%,这为在不同工程领域的潜在应用带来了希望。Journal of the Mechanics and Physics of SolidsThermal fluctuations (eventually) unfold nanoscale origamiMatthew Grasinger, Pradeep Sharmadoi:10.1016/j.jmps.2023.105527热波动(最终)展开纳米级折纸Origami is a scale invariant paradigm for morphing robotics, deployable structures (e.g. satellites, disaster relief shelters, medical stents), and metamaterials with tunable thermal, mechanical, or electromagnetic properties. There has been a resurgence of interest in using origami principles–along with 2D materials or DNA–to design a wide array of nanoscale devices. In this work, we take cognizance of the fact that small-scale devices are vulnerable to entropic thermal fluctuations and thus a foundational question underlying small-scale origami pertains to its stability, i.e. the origami structure’s propensity to “unfold” due to thermal fluctuations and the rate at which the unfolding will ensue. To properly understand the behavior of these origami-based nanodevices, we must simultaneously consider the geometric mechanics of origami along with the interplay between thermal fluctuations, entropic repulsive forces, van der Waals attraction, and other molecular-scale phenomena. In this work, to elucidate the rich behavior underpinning the evolution of an origami device at the nanoscale, we develop a minimal statistical mechanics model of folded nanoscale sheets. We use the model to investigate (1) the thermodynamic multistability of nanoscale origami structures and (2) the rate at which thermal fluctuations drive its unfolding–that is, its temporal stability. We identify, for the first time, an entropic torque that is a critical driving force for the unfolding process. Both the thermodynamic multistability and temporal stability have a nontrivial dependence on the origami’s bending stiffness, the radii of curvature of its creases, the ambient temperature, its thickness, and its interfacial energy (between folded layers). Specifically, for graphene, we show that there is a critical side length below which it can no longer be folded with stability; similarly, there exists a critical crease diameter, membrane thickness (e.g. for multilayer graphene), and temperature above which a crease cannot be stably folded. To investigate the rate of thermally driven unfolding, we extend Kramers’ escape rate theory to cases where the minima of the energy well occurs at a boundary. Rates of unfolding are found to span from effectively zero to instantaneous, and there is a clear interplay between temperature, geometry, and mechanical properties on the unfolding rate.折纸是变形机器人、可部署结构(如卫星、救灾避难所、医疗支架)以及具有可调热、机械或电磁特性的超材料的规模不变范例。人们对利用折纸原理以及二维材料或 DNA 设计各种纳米级设备的兴趣再次升温。在这项研究中,我们认识到小尺度器件容易受到熵热波动的影响,因此小尺度折纸的一个基本问题是其稳定性,即折纸结构由于热波动而 &quot;展开 &quot;的倾向以及展开的速度。要正确理解这些基于折纸的纳米器件的行为,我们必须同时考虑折纸的几何力学以及热波动、熵排斥力、范德华吸引力和其他分子尺度现象之间的相互作用。在这项工作中,为了阐明折纸器件在纳米尺度上演化的丰富行为,我们建立了一个折叠纳米级薄片的最小统计力学模型。我们利用该模型研究了:(1) 纳米级折纸结构的热力学多稳定性;(2) 热波动驱动其展开的速率,即其时间稳定性。我们首次发现了一种熵力矩,它是展开过程的关键驱动力。热力学多稳定性和时间稳定性都与折纸的弯曲刚度、折痕曲率半径、环境温度、厚度和界面能(折叠层之间)有着非同小可的关系。具体来说,对于石墨烯,我们发现存在一个临界边长,低于该边长的折纸无法再稳定折叠;同样,存在一个临界折痕直径、膜厚(例如多层石墨烯)和温度,高于该温度的折痕无法稳定折叠。为了研究热驱动解折的速率,我们将克拉默逃逸率理论扩展到能量井的最小值出现在边界的情况。研究发现,展开率从实际为零到瞬时展开,温度、几何形状和机械特性对展开率的影响是显而易见的。International Journal of PlasticityA dislocation-based damage-coupled constitutive model for single crystal superalloy: unveiling the effect of secondary orientation on creep life of circular holeZixu Guo, Ziyuan Song, Haohao Liu, Daijun Hu, Dawei Huang, Xiaojun Yan, Wentao Yandoi:10.1016/j.ijplas.2024.103874 基于位错的单晶超合金损伤耦合构造模型:揭示二次取向对圆孔蠕变寿命的影响Circular holes in single crystal (SX) turbine blades are susceptible to creep failure at high temperatures, due to the stress concentrations near the holes. In this study, a dislocation-based damage-coupled constitutive model for SX superalloys is developed, validated, and applied to unveil the effect of secondary orientation on the creep life of circular holes. The structure-induced geometrically necessary dislocations (GND) density resulting from the macroscopic strain gradient is incorporated. The dissipated energy is employed as the indicator to predict crack nucleation. Initially, the specimens without a hole are employed to calibrate the parameters and validate the model in the absence of structure-induced GND. Creep experiments incorporating the digital image correlation technique are conducted on the specimens with a hole under different secondary orientations, which aims to validate the simulated strain distribution, crack nucleation location, and creep life under the influence of structure-induced GND. The results indicate that the incorporation of structure-induced GND contributes to mitigating the conservatism in the creep life prediction of circular holes. Because, the GND can enhance dislocation hardening near the hole, extending the predicted life and improving the accuracy of life prediction. Meanwhile, both experiments and simulations indicate that the secondary orientation influences the crack nucleation locations at the hole edge. The variation in the creep life at different secondary orientations is attributed to the changes in both the maximum value and uniformity of resolved shear stresses distributed across slip systems. Finally, the model is applied to simulate the creep behavior of a circular hole under various secondary orientations, stresses, and temperatures. An empirical model is developed to rapidly evaluate the creep life of a circular hole in the SX superalloy, which facilitates the engineering application of the proposed model.由于单晶(SX)涡轮叶片上的圆孔附近存在应力集中,因此在高温下很容易发生蠕变破坏。本研究针对 SX 超合金开发、验证并应用了基于位错的损伤耦合构成模型,以揭示二次取向对圆孔蠕变寿命的影响。宏观应变梯度导致的结构诱发的几何必要位错(GND)密度被纳入其中。耗散能量被用作预测裂纹成核的指标。起初,采用无孔试样来校准参数,并在无结构诱导 GND 的情况下验证模型。结合数字图像相关技术,在有孔的试样上进行了不同次要方向的蠕变实验,旨在验证结构诱导 GND 影响下的模拟应变分布、裂纹成核位置和蠕变寿命。结果表明,加入结构诱导 GND 有助于减轻圆孔蠕变寿命预测的保守性。因为 GND 可以增强孔附近的位错硬化,延长预测寿命,提高寿命预测的准确性。同时,实验和模拟都表明,二次取向会影响孔边缘的裂纹成核位置。不同次要方向上蠕变寿命的变化归因于分布在滑移系统上的解析剪应力的最大值和均匀性的变化。最后,应用该模型模拟了圆孔在不同次生方向、应力和温度下的蠕变行为。建立的经验模型可快速评估 SX 超级合金圆孔的蠕变寿命,从而促进了所提模型的工程应用。Thin-Walled StructuresPost-fire behaviour and resistances of square recycled aggregate concrete-filled stainless steel tube stub columnsZiyi Wang, Yukai Zhong, Ke Jiang, Meini Su, Ou Zhaodoi:10.1016/j.tws.2024.111564方形再生骨料混凝土填充不锈钢管桩柱的火灾后行为和抗性Experimental and numerical studies on the cross-section compressive behaviour and residual resistances of square recycled aggregate concrete-filled stainless steel tube (RACFSST) stub columns after exposure to fire are reported in this paper. An experimental programme was firstly carried out on twelve stub column specimens with three recycled coarse aggregate replacement ratios (0%, 35% and 70%) after exposure to the ISO-834 standard fire for 0 min (i.e. at ambient temperature), 15 min, 30 min and 45 min. The test results, including load–end shortening curves, failure loads and failure modes, were presented, with the initial compressive stiffness and confinement effect analysed. The experimental programme was followed by a numerical modelling programme, where thermal and mechanical finite element models were developed and validated against the test results and afterwards used to conduct parametric studies to generate additional numerical data over a wide range of cross-section dimensions. Based on the test and numerical data, the relevant design rules for square natural aggregate concrete-filled carbon steel tube stub columns at ambient temperature, as specified in the European code, Australia/New Zealand standard and American specification, were evaluated, using post-fire material properties, for their applicability to square RACFSST stub columns after exposure to fire. The evaluation results generally revealed that the European code and Australian/New Zealand standard led to a good level of design accuracy, while the American specification resulted in slightly conservative post-fire cross-section compression resistance predictions.本文报告了对方形再生骨料混凝土填充不锈钢管(RACFSST)短柱在遭受火灾后的截面抗压行为和残余阻力的实验和数值研究。首先,对 12 个具有三种再生粗骨料替代率(0%、35% 和 70%)的短柱试样进行了试验,这些试样在 ISO-834 标准火灾中暴露了 0 分钟(即在环境温度下)、15 分钟、30 分钟和 45 分钟。试验结果包括荷载端缩短曲线、破坏荷载和破坏模式,并分析了初始压缩刚度和约束效应。实验计划之后是数值建模计划,根据测试结果开发和验证了热和机械有限元模型,之后用于开展参数研究,以生成更多横截面尺寸范围的数值数据。根据测试和数值数据,对欧洲规范、澳大利亚/新西兰标准和美国规范中规定的环境温度下方形天然骨料混凝土填充碳钢管桩柱的相关设计规则进行了评估,使用了火灾后材料特性,以确定其是否适用于火灾后的方形 RACFSST 桩柱。评估结果普遍表明,欧洲规范和澳大利亚/新西兰标准的设计精确度较高,而美国规范对火灾后截面抗压性的预测略显保守。Compression performance of 3D-printed thermoplastic auxetic structuresPan He, Siwen Wang, Miaomiao Zhang, Lin Sang, Liyong Tong, Wenbin Houdoi:10.1016/j.tws.2024.111558三维打印热塑性辅助结构的压缩性能The influence of lattice structural design on the mechanical property has been abundantly investigated, however, the effect of material on the load-carrying performance and energy absorption was seldom studied. In the current work, the auxetic structures fabricated using four materials including polyamide (PA), carbon fiber (CF) reinforced PA (PA/CF), polyether ether ketone (PEEK) and PEEK/CF were 3D-printed, and the compression performance and deformation behavior were compared and explored. The results showed that the deformation mode of auxetic structure were similar, which was not dependent on the material type. However, the compressive strength and modulus of the auxetic structure showed strong dependence on the material properties. Besides, PA and PA/CF auxetic structures displayed better rebound behavior after compression, which was perhaps attributed to the good resilience of PA resin. Therefore, mathematical equations were utilized to predict the compressive property based on the material parameters, showing a good agreement. On the other hand, the simulation of compression process was established and conducted, which confirmed the deformation process as experimental presented. The rebound behavior was further predicted by a loading-releasing cycle with different compression strains. Accordingly, the compression parameters showed great relations with material parameters but little effect on the deformation behavior.格子结构设计对力学性能的影响已得到大量研究,但材料对承载性能和能量吸收的影响却鲜有研究。本研究采用聚酰胺(PA)、碳纤维(CF)增强 PA(PA/CF)、聚醚醚酮(PEEK)和 PEEK/CF 四种材料制作了 3D 打印辅助结构,并对其压缩性能和变形行为进行了比较和探讨。结果表明,辅助结构的变形模式相似,与材料类型无关。然而,辅助结构的抗压强度和模量与材料特性有很大关系。此外,PA 和 PA/CF 辅助结构在压缩后显示出更好的回弹特性,这可能与 PA 树脂的良好回弹性有关。因此,根据材料参数利用数学方程预测了压缩性能,结果显示两者吻合良好。另一方面,建立并进行了压缩过程模拟,证实了与实验结果一致的变形过程。通过不同压缩应变的加载-释放循环,进一步预测了回弹行为。因此,压缩参数与材料参数关系密切,但对变形行为影响不大。Real-time hybrid model test to replicate high-rise building resonant vibration under wind loadsZhou Huimeng, Shao Xiaoyun, Zhang Jianwen, Yao Hongcan, Liu Yanhui, Tan pin, Chen Yangyang, Xu Li, Zhang Yin, Gong Weidoi:10.1016/j.tws.2024.111559在风荷载作用下复 制高层建筑共振的实时混合模型试验In May 2021, the 72-story Shenzhen Saige building experienced abnormal vibration that was strongly felt on many floors and triggered social panic. The tower was therefore closed for more than 2 months resulting in huge economic losses. A preliminary study consisting of field resonant excitation tests and a series of numerical simulations were carried out. It was concluded that the wind loads provoked the higher modes of the building vibration. Specifically, the vibration of the mast, which is located at the building top, induced this abnormal vibration. To validate this conclusion, real-time hybrid model (RTHM) tests was developed to reproduce this building vibration incident. This paper presents the details of the validation RTHM tests including testing design and result discussions. Structural vibration parameters obtained from the field tests were used in the numerical substructure building model, and the experimental substructures were the two scaled down mast models (the cantilever beam section of the masts). During RTHM test, the restoring force of the experimental substructure due to real wind loads induced by an air fan was measured and used in the numerical simulation to compute interface motions. A shaking table was then used to impose the interface motion back to the bottom of the mast model to reproduce the abnormal vibration incident. The demonstrated ability of the developed RTHM testing method to reproduce the resonant phenomenon of the wind-induced tower vibration provides an alternative experimental method to study vibration responses of high-rise buildings in future.2021 年 5 月,72 层高的深圳赛格大厦发生异常振动,许多楼层都有强烈震感,引发了社会恐慌。赛格大厦因此关闭了两个多月,造成了巨大的经济损失。初步研究包括现场共振激振试验和一系列数值模拟。研究得出的结论是,风荷载引发了建筑物的高频振动模式。具体来说,位于建筑物顶部的桅杆的振动引发了这种异常振动。为了验证这一结论,开发了实时混合模型(RTHM)测试来重现这一建筑振动事件。本文介绍了验证 RTHM 试验的细节,包括试验设计和结果讨论。从现场测试中获得的结构振动参数被用于下层建筑的数值模型,而实验下层建筑则是两个按比例缩小的桅杆模型(桅杆的悬臂梁部分)。在 RTHM 试验期间,测量了实验下部结构在风扇引起的实际风荷载作用下的恢复力,并将其用于数值模拟,以计算界面运动。然后使用振动台将界面运动施加回桅杆模型底部,以重现异常振动事件。所开发的 RTHM 测试方法能够再现风引起的塔楼振动的共振现象,为今后研究高层建筑的振动响应提供了另一种实验方法。Non-linear stability of isotropic stiffened composite channels under compressionAndrzej Teter, Zbigniew Kolakowskidoi:10.1016/j.tws.2024.111560压缩条件下各向同性加劲复合材料通道的非线性稳定性In this study, compressed laminated channels with isotropic stiffeners on their free longitudinal edges are investigated. The use of edge stiffeners in the form of clamps or angles made of an isotropic material significantly affects the behaviour of the structures under study. Two cases of laminate layup are examined, assuming that the columns are freely supported. It is assumed that there are strong interactions between the eigenmodes. In addition to that, in the two analysed cases, the lowest eigenmode is local and does not cause structural failure. Thus, the expected ultimate load-carrying capacity values will be greater than the lowest eigenmode. The perturbation method and the finite element method are employed to solve an eigenproblem and a problem of nonlinear stability loss. The adequacy of the models and boundary conditions used in both methods is validated by comparing local, global, symmetric and antisymmetric as well as distortional eigenmodes. Postbuckling equilibrium paths and ultimate load-carrying capacity values are determined for all analysed cases. In the perturbation analysis, results obtained with the 4- and 5-mode approaches are compared for low pre-deflection amplitudes. Results obtained by all methods showed a very high qualitative agreement. The geometric imperfections used in numerical simulations were assumed to be identical to the eigenmodes with low amplitudes. The FEM results show that this has no effect on the postbuckling equilibrium paths and ultimate load-carrying capacity of the columns. A low amplitude value is enough to disturb the lowest eigenmode.本研究对在自由纵向边缘使用各向同性加劲件的压缩层叠槽进行了研究。使用夹具或各向同性材料制成的角钢等形式的边缘加劲件会对所研究结构的性能产生显著影响。假设柱子是自由支撑的,研究了两种层压板铺设情况。假设特征模态之间存在强烈的相互作用。此外,在分析的两种情况中,最低特征模态是局部的,不会导致结构破坏。因此,预期的极限承载能力值将大于最低特征模态。采用扰动法和有限元法来解决特征问题和非线性稳定性损失问题。通过比较局部、全局、对称和非对称以及畸变特征模,验证了这两种方法所使用的模型和边界条件的适当性。确定了所有分析案例的屈曲后平衡路径和极限承载能力值。在扰动分析中,对低预偏转振幅时采用 4 模和 5 模方法得出的结果进行了比较。所有方法得出的结果在质量上具有很高的一致性。数值模拟中使用的几何缺陷被假定为与低振幅的特征模态相同。有限元结果表明,这对柱子的屈曲后平衡路径和极限承载能力没有影响。低振幅值足以干扰最低特征模态。Improved semi-analytical solution for longitudinal mechanical response of tunnels crossing active faults considering nonlinear soil-tunnel interactions and shear effectsHenghong Yang, Mingnian Wang, Xiao Zhang, Li Yudoi:10.1016/j.tws.2024.111561考虑非线性土壤-隧道相互作用和剪切效应的穿越活动断层隧道纵向机械响应的改进型半解析解法Tunnels crossing active faults are susceptible to severe damage. This study establishes an improved semi-analytical methodology for analyzing the mechanical responses of tunnels subjected to active fault dislocation. The methodology incorporates nonlinear axial, transverse, and vertical soil-tunnel interactions, shear effects, and geometric nonlinearity within its governing equations. Compared with existing methods, the proposed method has a significantly extended application range with improved accuracy, and the solution procedure demonstrates exceptional computational efficiency, with each case typically being solved in less than 1 s. The proposed methodology demonstrates outstanding qualitative and quantitative agreement with 3D FEM results across various fault types, as well as with the results obtained from the model test. Additionally, neglecting shear effects results in approximately 1.11 to 1.20 times higher bending moments and 1.13 to 1.19 times higher shear forces of the tunnel. Finally, a parametric analysis was conducted based on the proposed methodology to investigate the influence of critical parameters, such as fault displacement, buried depth, tunnel diameter, soil cohesion, and soil friction angle, on the tunnel response under fault dislocation. The results suggest that the tunnel responses positively correlate with the fault displacement, buried depth, and soil cohesion. Increasing the fault displacement amplifies the vertical shear force and bending moment asymmetry while increasing buried depth reduces this asymmetry. An increase in the tunnel diameter and soil friction angle is associated with a decrease in the peak axial force and an increase in the vertical shear force and bending moment. Additionally, variations in the friction angle do not exert a significant effect on the transverse shear force and bending moment.穿越活动断层的隧道容易受到严重破坏。本研究建立了一种改进的半分析方法,用于分析受活动断层错动影响的隧道的机械响应。该方法将非线性轴向、横向和竖向土壤-隧道相互作用、剪切效应和几何非线性纳入其控制方程。与现有方法相比,该方法的应用范围大大扩展,精度也有所提高,而且求解过程具有极高的计算效率,通常每个案例的求解时间不超过 1 秒。此外,忽略剪切效应会导致隧道弯矩增加约 1.11 至 1.20 倍,剪力增加约 1.13 至 1.19 倍。最后,根据所提出的方法进行了参数分析,以研究断层位移、埋深、隧道直径、土壤内聚力和土壤摩擦角等关键参数对断层错动下隧道响应的影响。结果表明,隧道响应与断层位移、埋深和土壤内聚力呈正相关。增加断层位移会放大垂直剪力和弯矩的不对称,而增加埋深则会减小这种不对称。隧道直径和土壤摩擦角的增大与轴向力峰值的减小以及垂直剪切力和弯矩的增大有关。此外,摩擦角的变化对横向剪力和弯矩的影响不大。Seismic behavior of a novel liftable connection for modular steel buildings: Experimental and numerical studiesEn-Feng Deng, Yu-Han Wang, Liang Zong, Zhe Zhang, Jun-Feng Zhangdoi:10.1016/j.tws.2024.111563模块化钢结构建筑新型可升降连接件的抗震性能:实验和数值研究Modular steel buildings (MSBs) have achieved considerable popularity in multi-to-high rise constructions due to the favorable mechanical characteristic, eco-friendliness, cost-effectiveness, and enhanced construction efficiency. As the critical part of MSBs, the inter-module connection has an important influence on determining the seismic performance of MSBs. This study presented an experimental-numerical investigation on an innovative fully prefabricated liftable connection (FPLC) for MSBs. To study the seismic performance of the FPLC, quasi-static tests were conducted on four full-scale specimens. The seismic behavior of the specimens, including failure mode, hysteretic response, strength and stiffness degradation, deformation characteristic, etc. was evaluated and compared in detail. The effect of the section of the twin-beams, the dog-bone weakening of the beam and the connecting method between the corner fitting and twin-beams on the seismic behavior of the FPLC was revealed. Moreover, the feasibility for seismic application of the FPLC was evaluated according to Chinese code GB 50011-2010 and Eurocode 3 Part 1-8. The results indicated that the proposed FPLC met the limit of elastic and elastic-plastic inter-story drift ratios required by GB 50011-2010. According to Eurocode 3 Part 1-8, the FPLC with welded beams should be classified as “semi-rigid” connections, while the FPLC, whose beams were connected to the column walls by the steel angles and bolts, was classified as a “pinned” connection. Then, a refined finite element model (FEM) was developed and verified by the test results. Furthermore, the verified FEM was utilized to analyze the distribution of the equivalent plastic strain, the stress variation path, and the yielding area of the twin-beams to further reveal the energy dissipation and damage mechanism of the FPLC. Finally, a simplified FEM was established and the comparison with the test results proved its reliability and efficiency. The present study will contribute to provide a comprehensive understanding on seismic performance and design of the inter-module connection for MSBs.模块化钢结构建筑(MSB)因其良好的力学性能、环保性、成本效益和更高的施工效率,在多高层建筑中得到了广泛的应用。作为 MSB 的关键部分,模块间连接对决定 MSB 的抗震性能具有重要影响。本研究对用于 MSB 的创新型全预制可升降连接(FPLC)进行了实验-数值研究。为了研究 FPLC 的抗震性能,对四个全尺寸试件进行了准静力试验。详细评估和比较了试件的地震行为,包括破坏模式、滞后响应、强度和刚度退化、变形特征等。研究揭示了双梁截面、梁的狗骨削弱以及角配件与双梁之间的连接方式对 FPLC 地震行为的影响。此外,还根据中国规范 GB 50011-2010 和欧洲规范 3 第 1-8 部分评估了 FPLC 抗震应用的可行性。结果表明,拟议的 FPLC 符合 GB 50011-2010 所要求的弹性和弹塑性层间漂移比限值。根据欧洲规范 3 第 1-8 部分,采用焊接梁的 FPLC 应归类为 &quot;半刚性 &quot;连接,而采用角钢和螺栓将梁与柱壁连接的 FPLC 则归类为 &quot;销钉 &quot;连接。然后,开发了改进的有限元模型(FEM),并通过测试结果进行了验证。此外,还利用验证后的有限元模型分析了双梁的等效塑性应变分布、应力变化路径和屈服区域,进一步揭示了 FPLC 的能量耗散和损坏机制。最后,建立了简化有限元模型,并通过与试验结果的对比证明了其可靠性和高效性。本研究将有助于全面了解 MSB 的抗震性能和模块间连接设计。来源:复合材料力学仿真Composites FEM

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