首页/文章/ 详情

【新文速递】2023年12月12日固体力学SCI期刊最新文章

1月前浏览748

今日更新:Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,Thin-Walled Structures 6 篇

Journal of the Mechanics and Physics of Solids

Mechanical forces quench frontal polymerization: Experiments and theory

Xuanhe Li, Tal Cohen

doi:10.1016/j.jmps.2023.105517

机械力淬灭正面聚合:实验与理论

Frontal polymerization is a promising energy-saving method for rapid fabrication of polymer components with good mechanical properties. In these systems, a small energy input is sufficient to convert monomers, from a liquid or soft solid state, into a stiff polymer component. Once the reaction is initiated, it propagates as a self-sustaining front that is driven by the heat released from the reaction itself. While several studies have been proposed to capture the coupling between thermodynamics and extreme chemical kinetics in these systems, and can explain experimentally observed thermo-chemical instabilities, only few have considered the potential influence of mechanical forces that develop in these systems during fabrication. Nonetheless, some experiments do indicate that local volume changes induced by the competing effects of thermal expansion and chemical shrinkage, can lead to significant deformation or even failure in the resulting component. In this work, we present a unique experimental approach to elucidate the effect of mechanics on the propagation. Our experiments reveal that residual stresses that arise in frontal polymerization are not only a potential cause of undesired deformations in polymer products, but can also quench the reaction front. This thermo-chemo-mechanically coupled effect is captured by our theoretical model, which explains the mechanical limitations on frontal polymerization and can guide future fabrication. Overall, the findings of this work suggest that mechanical coupling needs to be taken into consideration to enable industrial applications of frontal polymerization at large scales.

正面聚合是一种快速制备具有良好力学性能的聚合物构件的节能方法。在这些系统中,一个小的能量输入就足以将单体从液体或软固体状态转化为坚硬的聚合物组分。一旦反应开始,它就像一个由反应本身释放的热量驱动的自我维持的锋面一样传播。虽然已经提出了一些研究来捕捉这些系统中热力学和极端化学动力学之间的耦合,并且可以解释实验观察到的热化学不稳定性,但只有很少的研究考虑了在制造过程中这些系统中产生的机械力的潜在影响。尽管如此,一些实验确实表明,由热膨胀和化学收缩的竞争效应引起的局部体积变化可能导致产生的部件发生重大变形甚至破坏。在这项工作中,我们提出了一种独特的实验方法来阐明力学对传播的影响。我们的实验表明,在正面聚合中产生的残余应力不仅是聚合物产品中不期望变形的潜在原因,而且还可以淬灭反应前沿。我们的理论模型捕捉到了这种热-化学-机械耦合效应,这解释了正面聚合的机械局限性,并可以指导未来的制造。总的来说,这项工作的发现表明,需要考虑机械耦合,以实现大规模正面聚合的工业应用。


Mechanics of Materials

Metamaterial invisibility of a corner target with proportional integral active control

Jing-Wei Jiang, Yi-Ze Wang

doi:10.1016/j.mechmat.2023.104883

比例积分主动控制拐角目标的超材料不可见性

Wave invisibility in confined space has been proved practical significance in mechanical engineering and military fields. In this work, a flexural wave cloak of a corner-domain target in a metamaterial plate with proportional integral (PI) active control circuit is proposed. According to the double reflection principle and mechanical characteristic at the boundary, wave fields for a corner-domain target are defined as a collection of incident, scattering and three mirror domains. The unknown scattering mode coefficients are determined by the image method and boundary conditions. The dynamic stress concentration, scattering amplitude and scattering cross-section for the corner-domain target are obtained. The cloaking configuration is composed of multiple equally spaced concentric layers, which are filled with piezoelectric (PZT) patches. In addition, these PZT patches are connected to the active control circuit with proportional integral (PI) control module. The results indicate that the flexural wave cloak can reduce the dynamic stress concentration, scattering amplitude and scattering cross-section in corner domain. Compared to the original structure without PI active control, the effective frequency range of the active cloak can be extended by 20%.

密闭空间波隐身技术在机械工程和军事领域具有重要的现实意义。本文提出了一种基于比例积分有源控制电路的超材料板角域目标的弯曲波斗篷。根据双反射原理和边界处的力学特性,将角域目标的波场定义为入射域、散射域和三个镜像域的集 合。利用图像法和边界条件确定了未知的散射模式系数。得到了角域目标的动应力集中、散射幅值和散射截面。该隐形结构由多个等间距的同心层组成,其中填充了压电片。此外,这些PZT贴片与比例积分(PI)控制模块连接到有源控制电路。结果表明,弯曲波包覆可以减小角域的动应力集中、散射幅值和散射截面。与无PI主动控制的原结构相比,该主动斗篷的有效频率范围可延长20%。


Thin-Walled Structures

Generalized Rayleigh waves in a multi-layered structure of porous piezoelectric materials overlying a functionally graded porous piezoelectric base

Anil K. Vashishth, Vishakha Gupta, Umang Bareja

doi:10.1016/j.tws.2023.111448

多孔压电材料多层结构中的广义瑞利波覆盖在功能梯度多孔压电基上

Functionally graded materials (FGM) are materials in which there is a gradual variation in functional properties of the material so as to make it useful for different purposes. The life span and efficiency of Surface Acoustic Waves (SAW) devices can be increased by taking FGM into consideration. Further, FGM as a substrate can help to improve the structural integrity of a component or device. FGM substrates offer flexibility in design, enabling engineers to tailor the substrate’s characteristics for specific functions within a device or system. Rayleigh-type surface waves, known for their numerous advantageous attributes, find extensive applications in various functional devices, and Rayleigh waves in functionally graded porous piezoelectric medium have not been studied so far and for more accurate simulation of field conditions, porous layers should be taken into account when determining the excitation and propagation processes of Rayleigh surface waves. Taking these considerations into account, this paper introduces a new model of composites of ‘n’ porous piezoelectric layers over functionally graded porous piezoelectric half-space (FGPPHS) and different characteristics of generalized Rayleigh waves in this model are studied. The material properties of the FGPPHS are taken to vary along the vertical direction (thickness). Closed form frequency equations are obtained for electrically short and open boundaries. Computing the model numerically, the impacts of gradation and wavenumber on the phase velocity and group velocity of generalized Rayleigh waves are examined. Also, lateral and vertical fluctuations of the electric potentials, stresses, mechanical displacements and electrical displacements are depicted by plotting 3D surface and contour graphs. In acoustic devices, a crucial measure that reflects the impact of piezoelectricity on wave phase velocity is the electromechanical coupling factor, therefore, the numerical analysis in terms of the electromechanical coupling factor is done and it is observed that the gradation coefficient can be adjusted to produce fairly high electromechanical coupling factor for the structure at a particular wave number. Numerical results are presented for alternating layers of Barium Titanate Crystal, PZT-5H, and PZT-7H and it is found that phase velocity decreases as the number of porous piezoelectric layers above FGPPHS increases for a particular wavenumber. The particle motion, in the layers and the half-space, is also determined and is found to be elliptic, in general, but its eccentricity changes with layer to FGPPHS and with depth. The outcome of the study provides a deeper understanding of the nature of generalized Rayleigh wave propagation in non-homogeneous functionally graded porous materials and may find applications in designing high performance SAW devices and also in the optimization of Rayleigh wave based devices for engineering applications.

功能梯度材料(FGM)是一种材料的功能特性逐渐变化,从而使其可用于不同目的的材料。考虑女性生殖器切割可以提高表面声波(SAW)器件的寿命和效率。此外,FGM作为衬底可以帮助提高组件或器件的结构完整性。FGM基板在设计上具有灵活性,使工程师能够根据器件或系统中的特定功能定制基板的特性。瑞利型表面波以其众多的优势属性在各种功能器件中得到了广泛的应用,而瑞利波在功能梯度多孔压电介质中的应用至今尚未得到研究,为了更精确地模拟现场条件,在确定瑞利表面波的激发和传播过程时应考虑到多孔层。考虑到这一点,本文提出了一种基于功能梯度多孔压电半空间(FGPPHS)的“n”多孔压电层复合材料的新模型,并研究了该模型中广义瑞利波的不同特性。FGPPHS的材料性能沿垂直方向(厚度)变化。得到了电短边界和开边界的闭型频率方程。通过数值计算,考察了梯度和波数对广义瑞利波相速度和群速度的影响。此外,电势、应力、机械位移和电位移的横向和垂直波动通过绘制3D表面和等高线图来描述。在声学器件中,反映压电性对波相速度影响的关键指标是机电耦合系数,因此,本文从机电耦合系数的角度进行了数值分析,发现通过调整级配系数可以使结构在特定波数下产生较高的机电耦合系数。对钛酸钡晶体与PZT-5H和PZT-7H交替层进行了数值计算,发现在一定波数下,相速度随FGPPHS以上多孔压电层数的增加而减小。粒子在层和半空间内的运动也被确定为椭圆运动,但其偏心率随层至FGPPHS和深度的变化而变化。该研究结果为非均匀功能梯度多孔材料中广义瑞利波传播的本质提供了更深入的理解,并可能在设计高性能SAW器件以及优化基于瑞利波的工程应用器件方面找到应用。


Unveiling the Mechanics of Deep-Sea Sponge-Inspired Tubular Metamaterials: Exploring Bending, Radial, and Axial Mechanical Behavior

Zhennan Zhang, Lei Liu, Jordan Ballard, Fatih Usta, Yanyu Chen

doi:10.1016/j.tws.2023.111476

揭示深海海绵启发的管状超材料的力学:探索弯曲,径向和轴向力学行为

Strengthened tubular structures have had a significant impact on various industries. Advancements in aircraft, construction, medical implants, robotics, and renewable energy have improved safety, efficiency, and durability in multiple sectors. This section explores the practical applications of medical health, using Nasal Swabs as an example, under different loading scenarios. The study focuses on incorporating bioinspired structural elements, drawing inspiration from the skeletal lattice of sea sponges. By utilizing the sea sponge's process of trial and error in evolution, this bioinspired approach provides a promising perspective on enhancing the mechanical performance of tubular structures. To evaluate the mechanical advantages of the bioinspired design approach, we conducted 3-point bending, radial, and axial compression tests on 3D printed tubular lattice structures. The tests showed that the tubular structure, inspired by sponges, displayed improved bending properties and was approximately twice as stiff as traditional tubular designs. Furthermore, the sponge-inspired design exhibits significantly higher strength and toughness compared to traditional designs, with approximate improvements of 3 and 4 times, respectively. Numerical simulations revealed that these enhancements are attributed to the strengthening effect of diagonally double diagonal struts, which distribute stress evenly and allow for bending without excessive stress concentration. The bio-inspired design shows improved resistance to radial and axial loading, with approximately 1.3/3 times greater radial/axial compression stiffness compared to unreinforced designs. These improved mechanical properties of sea sponge-inspired tubular metamaterials make them suitable for a wide range of applications.

强化管状结构对各行各业产生了重大影响。飞机、建筑、医疗植入物、机器人和可再生能源的进步提高了多个领域的安全性、效率和耐用性。本节以鼻腔拭子为例,探讨医疗卫生在不同负载场景下的实际应用。该研究的重点是结合生物启发的结构元素,从海绵的骨骼晶格中汲取灵感。通过利用海绵在进化过程中的反复试验,这种受生物启发的方法为提高管状结构的机械性能提供了一个有希望的前景。为了评估生物启发设计方法的机械优势,我们对3D打印的管状晶格结构进行了三点弯曲、径向和轴向压缩测试。试验表明,受海绵启发的管状结构显示出更好的弯曲性能,并且刚度大约是传统管状设计的两倍。此外,与传统设计相比,海绵设计的强度和韧性显著提高,分别提高了约3倍和4倍。数值模拟表明,这些增强是由于对角双对角支柱的强化作用,它均匀分布应力,允许弯曲而不会过度集中应力。仿生设计提高了抗径向和轴向载荷的能力,与未加固设计相比,径向/轴向压缩刚度提高了1.3/3倍。海绵启发的管状超材料的这些改进的机械性能使它们适用于广泛的应用。


Nonlinear Vibration of the Sandwich Beam with Auxetic Honeycomb Core under Thermal Shock

P.Q. Li, K.F. Wang, B.L. Wang

doi:10.1016/j.tws.2023.111479

热冲击作用下蜂窝芯夹层梁的非线性振动

The nonlinear thermally induced vibration (TIV) characteristics of sandwich beams with auxetic honeycomb cores under general boundary conditions are studied. Based on first-order shear deformation theory, the dynamic governing equations are obtained through Hamilton principle, in which geometric nonlinearity and temperature dependence are considered. The temperature field along the thickness is calculated by finite element method and nonlinear TIV responses are solved via Newton-Raphson-Newmark method. The effects of temperature dependency, thermal shock forms, geometric nonlinearity, thicknesses of beam and face-sheet, boundaries and honeycomb geometrical parameters are studied. Results show that the reduction of the absolute inclined angle of the auxetic honeycomb can weaken the TIV responses. The influence of geometric nonlinearity on quasi-static and dynamic responses depends on the thermal shock form. Thermal buckling is the necessary condition for the occurrence of the TIV in clamped beams with immovable ends. Moreover, the research provides some design references to suppress the TIV responses of the sandwich beam with auxetic honeycomb core.

研究了一般边界条件下蜂窝芯夹层梁的非线性热激振动特性。基于一阶剪切变形理论,利用Hamilton原理得到了考虑几何非线性和温度依赖性的动力控制方程。采用有限元法计算了沿厚度方向的温度场,采用newton - rapson - newmark法求解了非线性TIV响应。研究了温度依赖性、热冲击形式、几何非线性、梁和面板厚度、边界和蜂窝几何参数的影响。结果表明,减小消声蜂窝的绝对倾斜角可以减弱TIV响应。几何非线性对准静态和动态响应的影响取决于热冲击的形式。热屈曲是端部不动的固支梁发生TIV的必要条件。研究结果为抑制蜂窝芯夹层梁的TIV响应提供了一定的设计参考。


Numerical investigation of cold-formed steel channels with edge-stiffened and unstiffened elongated web holes under shear

Dinesh Lakshmanan Chandramohan, Krishanu Roy, Zhiyuan Fang, G Beulah Gnana Ananthi, James B.P. Lim

doi:10.1016/j.tws.2023.111472

剪切作用下带边加筋和未加筋细长腹板孔冷弯型钢通道的数值研究

Over the past decade, cold-formed steel (CFS) channel sections having edge-stiffened circular web holes have been developed in New Zealand. Such edge-stiffened holes increase the strength of the CFS channel sections, compared to an equivalent section having unstiffened web holes, while still allowing full building service integration. In the case of shear, previous research has found that the use of edge-stiffened web holes significantly improves the shear strength of such channel sections. However, no studies are available in the literature investigating the shear strength of CFS channel sections with edge-stiffened elongated web holes. The issue is addressed herein. Non-linear finite element (FE) analyses are used to investigate the shear strength of CFS channel sections with a shear span aspect ratio of 2.0. The FE models were validated against the experimental test results of sections having unstiffened elongated web holes and edge-stiffened circular web holes; good agreement in terms of the load-displacement curves and failure behaviour was shown. Using the validated FE models, a parametric study was conducted, comprising 2,124 finite element analyses (FEA) results. The parametric results were then compared to the design predictions of the American Iron and Steel Institute (AISI 2016), and Australia/New Zealand Standards (AS/NZS 2018) and Wanniarchchi et al. (2017) for unstiffened elongated web holes, showing that the design predictions are unconservative in comparison results. Moreover, the direct strength method (DSM) approach of Pham et al. (2020a and 2023) provides conservative results for channels with unstiffened elongated web holes. It was also found that the design equations proposed by Chen et al. (2018) for edge-stiffened circular web holes were unconservative in predicting the shear strength of channels having edge-stiffened elongated web holes. Therefore, design equations in the form of a shear reduction factor and a modified DSM approach for CFS channel sections having unstiffened and edge-stiffened elongated web holes were proposed. Finally, a reliability analysis was carried out to ensure that the proposed equations are reliable to predict the shear strength of CFS channel sections with edge-stiffened and unstiffened web holes.

在过去的十年中,冷弯型钢(CFS)槽段的边缘加劲圆形腹板孔已在新西兰开发。与具有未加劲腹板孔的等效截面相比,这种边缘加劲孔增加了CFS通道截面的强度,同时仍然允许完整的建筑服务集成。在剪切的情况下,先前的研究发现,使用边加筋腹板孔可以显著提高这类通道截面的抗剪强度。然而,目前文献中还没有关于带边加劲细长腹板孔的CFS通道截面抗剪强度的研究。这里讨论这个问题。采用非线性有限元法研究了剪跨比为2.0的CFS通道截面的抗剪强度。对比未加筋细长腹板孔和边缘加筋圆形腹板孔截面的试验结果,对有限元模型进行了验证;在荷载-位移曲线和破坏行为方面表现出良好的一致性。利用验证的有限元模型,对2,124个有限元分析结果进行了参数化研究。然后,将参数化结果与美国钢铁协会(AISI 2016)、澳大利亚/新西兰标准(AS/NZS 2018)和Wanniarchchi等人(2017)对非加筋细长腹板孔的设计预测进行比较,表明设计预测在比较结果中具有非保守性。此外,Pham等人(2020a和2023)的直接强度法(DSM)方法对于具有未加筋的细长腹板孔的通道提供了保守的结果。研究还发现,Chen等人(2018)提出的边缘加劲圆形腹板孔的设计方程在预测具有边缘加劲细长腹板孔的通道的抗剪强度方面是不保守的。因此,提出了以剪切折减因子形式的设计方程和改进的DSM方法,用于具有未加筋和边加筋的细长腹板孔的CFS通道截面。最后,进行了可靠性分析,以确保所提出的方程能够可靠地预测具有边加劲和未加劲腹板孔的CFS通道截面的抗剪强度。


Modeling the joint rotational stiffness of a radial-type flight intersection joint: an analytical approach, numerical simulation, and experimental validation

R. Mohapatra, S. Palathingal, V. Narayanamurthy, M. Ramji

doi:10.1016/j.tws.2023.111473

径向型飞行交会关节转动刚度建模:解析方法、数值模拟和实验验证

Joint rotational stiffness (JRS) of a flight intersection joint (FIJ) and its accurate quantification plays an essential role in studying the dynamic modal characteristics of a flight vehicle. This JRS of a FIJ is mostly determined through elaborate experiments due to the non-availability of a reliable predictive model. Therefore, in this paper, an analytical model is proposed to evaluate JRS of a radial type FIJ when subjected to external bending moment. In this model, at first, the tensile and compressive part of the FIJ section is identified by determining the neutral axis position. The respective part's contributing stiffness is then estimated by employing a spring-mass model. Later, the JRS expression is derived from the moment equilibrium condition and expressed as a function of the stiffness of the tensile and compressive part and neutral axis position. Subsequently, finite element analysis (FEA) is conducted with different numbers of screws, followed by detailed experimental investigations. The proposed analytical model is validated with the results from FEA and experiments for different screw configurations of FIJ. Further, the proposed model is extended to account for the effect of joint clearances on the JRS and the corresponding moment-rotation characteristics of the FIJ.

飞行交节的关节转动刚度(JRS)及其精确量化是研究飞行器动态模态特性的关键。由于没有可靠的预测模型,因此FIJ的JRS主要是通过精心设计的实验来确定的。因此,本文提出了一种分析模型来评估径向型光纤接头在受外部弯矩作用下的JRS。在该模型中,首先通过确定中性轴位置来识别FIJ截面的拉伸和压缩部分。然后通过采用弹簧-质量模型估计各部分的贡献刚度。随后,由力矩平衡条件导出JRS表达式,并将其表示为拉伸、压缩部分刚度和中性轴位置的函数。随后,对不同数量螺钉进行了有限元分析,并进行了详细的实验研究。采用有限元分析和实验结果验证了该分析模型的正确性。此外,所提出的模型进行了扩展,以考虑关节间隙对JRS的影响以及FIJ的相应力矩旋转特性。


Nonlinear Forced Vibration Analysis of PFG-GPLRC Conical Shells under Parametric Excitation Considering Internal and External Resonances

Reza Saboori, Majid Ghadiri

doi:10.1016/j.tws.2023.111474

考虑内外共振的PFG-GPLRC锥形壳参数激励下的非线性强迫振动分析

Comprehending the vibration dynamics of porous functionally graded-graphene platelet reinforced composite (PFG-GPLRC) structures is vital for accurate predictions and reliability in practical applications. This study addresses gaps in nonlinear dynamics, instability, and frequency response research within truncated PFG-GPLRC conical shells under parametric loading and ½ subharmonic and 1:1 internal resonance. To achieve this, three porosity distributions in metal foam (uniform, non-uniform symmetric, and non-uniform asymmetric) are considered, along with various graphene platelet dispersion patterns (GPL-O, GPL-V, GPL-U, GPL-A, and GPL-X) within the matrix. These considerations lead to a comprehensive conical shell model. Utilizing the first-order shear deformation theory and von-Karman's assumptions, stress-strain relations are extracted, yielding nonlinear motion equations for the truncated conical shell. Employing Galerkin's method and considering simply supported boundaries, two-degree-of-freedom equations of motion are derived. The research culminates in steady state frequency responses obtained through perturbation theory and the multiple scales method, encompassing ½-subharmonic excitation resonance and 1:1 internal resonance. Bifurcation points are analysed to highlight the influence of parametric excitation and system instabilities. A parametric study underscores the significance of porosity and graphene platelets within the metal foam in relation to system instability, revealing their intricate impact on PFG-GPLRC structure behavior.

了解多孔功能梯度-石墨烯血小板增强复合材料(PFG-GPLRC)结构的振动动力学对于在实际应用中准确预测和可靠性至关重要。本研究解决了截断PFG-GPLRC锥形壳在参数加载和1 / 2次谐波和1:1内共振下的非线性动力学、不稳定性和频率响应研究的空白。为了实现这一目标,研究人员考虑了金属泡沫中的三种孔隙率分布(均匀、非均匀对称和非均匀不对称),以及基体内各种石墨烯血小板分散模式(GPL-O、GPL-V、GPL-U、GPL-A和GPL-X)。这些考虑导致了一个全面的锥形壳模型。利用一阶剪切变形理论和von-Karman假设,提取应力-应变关系,得到截顶圆锥壳的非线性运动方程。采用伽辽金法,考虑简支边界,导出了两自由度运动方程。研究最终通过微扰理论和多尺度方法获得稳态频率响应,包括1 / 2 -次谐波激励共振和1:1内共振。对分岔点进行了分析,以突出参数激励和系统不稳定性的影响。一项参数研究强调了金属泡沫中的孔隙率和石墨烯薄片对系统不稳定性的重要性,揭示了它们对PFG-GPLRC结构行为的复杂影响。




来源:复合材料力学仿真Composites FEM
ACTMechanicalSystemInspireDeform振动复合材料非线性化学电路隐身建筑理论材料机器人仿生
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2024-11-05
最近编辑:1月前
Tansu
签名征集中
获赞 6粉丝 0文章 795课程 0
点赞
收藏
作者推荐

【新文速递】2023年12月14日固体力学SCI期刊最新文章

今日更新:Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 4 篇Journal of the Mechanics and Physics of SolidsAchieving irreversibility in damage evolution: Extended gradient damage model with decoupled damage profile and cohesive lawLiang Xue, Xiaodan Rendoi:10.1016/j.jmps.2023.105524实现损伤演化的不可逆性:具有解耦损伤轮廓和内聚律的扩展梯度损伤模型The irreversibility of damage evolution is a cornerstone of classical damage mechanics. Unfortunately, the existing gradient damage models in the literature cannot always fulfill this critical condition. Therefore, the Extended Gradient Damage (EGD) model is proposed in the present work in response to this challenge. In the EGD model, the governing equation of damage evolution is developed in the form that the damage evolution and cohesive law are fully decoupled. Thus, the irreversible damage evolution could be easily established by defining a well-behaved damage profile function without any intervention from cohesive law. Other than that, complex cohesive laws for different materials could be well captured in the EGD model with the help of the integral transformation technique. Moreover, the variational form of the proposed EGD model is developed by taking advantage of the dissipative force term, and the principle of thermodynamics is proven to be fulfilled. In the end, the proposed EGD model is validated by four numerical examples.损伤演化的不可逆性是经典损伤力学的基础。遗憾的是,现有文献中的梯度损伤模型并不总是满足这一临界条件。为此,本文提出了扩展梯度损伤(EGD)模型。在EGD模型中,损伤演化控制方程采用损伤演化与内聚律完全解耦的形式。因此,在不受内聚律干扰的情况下,通过定义一个行为良好的损伤剖面函数,可以很容易地建立不可逆损伤演化。除此之外,在积分变换技术的帮助下,EGD模型可以很好地捕获不同材料的复杂内聚规律。此外,利用耗散力项建立了EGD模型的变分形式,证明了该模型符合热力学原理。最后,通过4个数值算例验证了所提出的EGD模型。Mechanics of MaterialsA unified viscoelastic constitutive model for studying the mechanical behaviors of polyelectrolyte complex hydrogels with different crosslinker degreesWeicheng Cai, Zhenhua Xiao, Taolin Sun, Jiong Wangdoi:10.1016/j.mechmat.2023.104896研究不同交联度聚电解质复合水凝胶力学行为的统一粘弹性本构模型Bio-based hydrogels formed by the chemically or physically cross-links are promising materials in the biological system. In this paper, we propose a constitutive model within the framework of finite-strain viscoelasticity to investigate the mechanical behaviors of bio-based polyelectrolyte complex (PEC) hydrogels from the ionic complexation of sodium hyaluronate (HA)/chitosan with and without chemical crosslinkers. The structure of the viscoelastic constitutive model consists of a spring and a Kelvin element, in which two softening factors are adopted to represent the states of ionic bonds and bridges in the hydrogels. Based on some constitutive assumptions and through the conventional approach of thermodynamics, the constitutive equation system of the model is derived. Corresponding to the hydrogels with different crosslinker concentrations, the values of material parameters in the model are identified. To show the validity of the model, it is applied to simulate the mechanical behaviors of the hydrogel samples in the uniaxial tensile tests and cyclic loading-unloading tests. It is found that the model predictions can fit the experimental data quite well. Based on the modeling results, some further analyses regarding the effects of softening factors on the response of HA/chitosan hydrogels have also been conducted.通过化学或物理交联形成的生物基水凝胶是生物系统中很有前途的材料。本文提出了一个有限应变粘弹性框架下的本构模型,研究了透明质酸钠(HA)/壳聚糖(壳聚糖)在有和没有化学交联剂的情况下离子络合生物基聚电解质复合物(PEC)水凝胶的力学行为。粘弹性本构模型的结构由弹簧和开尔文单元组成,其中采用两个软化因子表示水凝胶中离子键和桥的状态。在一些本构假设的基础上,通过传统的热力学方法,导出了该模型的本构方程组。根据不同交联剂浓度的水凝胶,确定了模型中材料参数的取值。为验证该模型的有效性,应用该模型模拟了水凝胶试样在单轴拉伸试验和循环加卸载试验中的力学行为。结果表明,模型预测结果与实验数据拟合较好。在此基础上,进一步分析了软化因素对HA/壳聚糖水凝胶反应的影响。International Journal of PlasticityA general scheme for point defect sink strength calculation and related machine-learning-based expressionsKaizheng Yang, Yichao Zhudoi:10.1016/j.ijplas.2023.103855点缺陷汇强度计算的一般方案及相关的基于机器学习的表达式Irradiation tends to increase the concentration of point defects (PDs) in crystalline materials, whose consecutive interactions with other types of defects, such as dislocation and void, are recognised highly responsible for the characteristic plastic and damaging behaviours of materials under irradiation. Conventional treatments on evaluating the strength of PD sinks see their limitation with strong regularity requirements over the models used for summarising the key underlying microstructural behaviours, where analytical solutions are bound to be the outcome. The present article serves to introduce a general scheme for PD sink strength evaluation, where constraints on solution analyticity are fully resolved with the use of machine learning. In particular, a neural network representation of the PD sink strength due to void/bubble is derived, where PD transportation tendencies against the hydrostatic pressure gradient surrounding a bubble can be considered in details. The treatment is also applied to analyse PD sink strength due to edge dislocation clusters. For nearly uniformly distributed clusters, upon undertaking a two-scale asymptotic strategy, the corresponding sink strength formulation becomes explicit. For randomly distributed dislocations, the sink strength is found to roughly scale with the onsite dislocation density. But for patterned dislocations, such as dislocation dipoles, their sink strength is suggested to vary with the applied load. The machine-learning-based formulation is also compared well with the results obtained by other multiscale methods.辐照往往会增加晶体材料中的点缺陷(PDs)的浓度,这些点缺陷与其他类型的缺陷(如位错和空洞)的连续相互作用,被认为是辐照下材料特征塑性和破坏行为的高度原因。评估PD汇强度的常规处理方法看到了它们的局限性,对用于总结关键潜在微观结构行为的模型有很强的规则性要求,其中分析解必然是结果。本文介绍了一种用于PD sink强度评估的一般方案,其中对解分析性的约束通过使用机器学习完全解决。特别地,我们推导了由于空洞/气泡引起的PD吸收强度的神经网络表示,其中PD的运输倾向与气泡周围的静水压力梯度可以详细考虑。该处理还应用于分析由于边缘位错簇引起的PD sink强度。对于几乎均匀分布的集群,在采用双尺度渐近策略后,相应的汇强度公式变得明确。对于随机分布的位错,发现汇强度与现场位错密度大致成比例。但对于像位错偶极子这样的模式位错,其沉降强度则随外加载荷的变化而变化。将基于机器学习的公式与其他多尺度方法得到的结果进行了比较。Thin-Walled StructuresInvestigating Seismic Behaviour of Cold-Formed Steel Moment Frames with the Welded Through-Plate Flexural ConnectionMohammad Niksefat, Iman Shamimdoi:10.1016/j.tws.2023.111477冷弯型钢跨板连接弯矩框架的抗震性能研究The Cold-Formed Steel (CFS) construction in seismic regions requires carefully selecting and designing an approved seismic-force resisting system. Among the available seismically-resistant structural systems, the bolted CFS moment frames have recently gained some attention. However, given the currently existing design issues associated with the bolted connections in CFS moment frames, this paper seeks to conduct a numerical investigation into the potential substitution of bolt fasteners with the weld materials in CFS frames. The objective is to explore the possibility of including the welded connection as an alternative to bolted connections in subsequent editions of the ASCE 7 code. To this end, finite element models, consisting of two built-up CFS beams and twenty-three flare-bevel-groove and fillet weld specimens, are initially validated against the cyclically and monotonically loaded tests with data available in the relevant literature. Subsequently, the verified weld and CFS beam models are incorporated in the simulation of thirty-four CFS beam-to-column welded moment connections, each differing in beam dimension, weld length and size, and gusset plate thickness. The built-up beams comprise back-to-back and lip-to-lip double C-section profiles. Stress variations along the weld lines, derived initially from nonlinear finite element analyses and then computed from the theoretical elastic analysis, are compared to establish a basis for categorizing stress distribution patterns in the longitudinal welds. Finally, six CFS frames assembled with the welded moment connection and subjected to a combined column axial compression and cyclic lateral drift are examined, resulting in an estimated seismic modification coefficient, R, equal to 3.8. Overall, the welded moment connections demonstrate a stable seismic response with an average ductility ratio, μ, of 2.7. The dominant failure mode is a locally developed ductile fracture in the two end segments of the longitudinal welds, identified as critical regions.在地震区进行冷弯型钢结构,需要认真选择和设计合格的抗震体系。在现有的抗震结构体系中,锚固CFS弯矩框架近年来受到了广泛的关注。然而,考虑到目前存在的与CFS框架螺栓连接相关的设计问题,本文试图对CFS框架中焊接材料替代螺栓紧固件的可能性进行数值研究。目的是探讨在ASCE 7规范的后续版本中,将焊接连接作为螺栓连接的替代方法的可能性。为此,有限元模型,包括两个组合式CFS梁和23个喇叭口坡口和角焊缝试件,初步验证了循环和单调加载试验与相关文献中的数据。随后,将验证的焊缝和CFS梁模型纳入34个CFS梁柱焊接力矩连接的模拟中,每个CFS梁柱焊接力矩连接的梁尺寸、焊缝长度和尺寸以及扣板厚度不同。组合梁包括背靠背和唇对唇双c剖面图。首先由非线性有限元分析得到沿焊缝的应力变化,然后由理论弹性分析计算得到应力变化,并将其进行比较,为纵向焊缝应力分布模式的分类奠定基础。最后,对6个采用焊接弯矩连接的CFS框架进行了测试,并对其进行了柱轴压和循环侧向漂移的组合,得到了估计的地震修正系数R,等于3.8。总体而言,焊接弯矩连接具有稳定的地震响应,其平均延性比μ为2.7。主要的破坏模式是纵向焊缝两端段局部发育的韧性断裂,被确定为临界区域。The mechanical behaviour of a slip joint for an offshore wind turbine: First monitoring and modelling resultsMaroš Mojto, Alessandro Cabboidoi:10.1016/j.tws.2023.111482海上风力涡轮机滑动接头的力学行为:首次监测和建模结果This study aims at shedding light on the mechanical behaviour of a prototype monopile - wind turbine tower connection, constituted by a slip joint. Selected examples of data set recorded during a long term monitoring campaign are illustrated and discussed. The data set encompass axial and hoop stresses measured over the slip joint area, relative displacements of the slip joint with respect to the monopile and acceleration levels recorded above the slip joint. In parallel, an ideal and simplified Finite Element model (FEM) of the slip joint is developed, in order to interpret the observed experimental data. Experiments first highlight the relevance of modelling the manufacturing imperfections of the overlapping steel sections. Subsequently, both experiments and FEM show that states of prestress need to be accounted for. Such prestress states first originate from the installation process, and subsequently from further loading events, triggering settlements of the slip joint. Finally, experiments and FEM showcase the force transfer mechanisms from the upper part to the lower part of slip joint.本研究的目的是阐明由滑移节构成的单桩-风力发电机组塔架连接的力学行为。在长期监测活动中记录的数据集的选定例子进行了说明和讨论。数据集包括在滑移节区域测量的轴向和环向应力,滑移节相对于单桩的相对位移以及滑移节上方记录的加速度水平。同时,建立了滑移节的理想简化有限元模型,以解释观测到的实验数据。实验首先强调了模拟重叠钢截面的制造缺陷的相关性。随后,试验和有限元分析均表明,预应力状态需要考虑在内。这种预应力状态首先来自于安装过程,随后来自于进一步的加载事件,触发了伸缩节的沉降。最后,通过试验和有限元分析,揭示了滑移节理由上部到下部的力传递机理。Analysis of contact creep behaviour of nanofilled compositesJie Zhu, Yunian Shendoi:10.1016/j.tws.2023.111483纳米填充复合材料的接触蠕变行为分析An effective modelling method for analysing the contact creep behaviour of composite materials with different nanofillers was proposed. Considering both the contact and creep material nonlinearities, an augmented Lagrangian algorithm was used to treat the unilateral contact constraints, and a time-hardening creep constitutive equation was adopted to describe the deformation characteristics of the nanocomposites. The constitutive parameters were extracted through a series of linear fittings based on the multiaxial creep theory and creep test curves, and the accuracy of the constitutive equation was validated. The applications of the proposed modelling method were demonstrated using a rope-wheel contact system (RWCS), in which the wheels were made of polystyrene (PS) with carbon black (CB), multi-walled carbon nanotubes (MWCNT), or chemically reduced graphene oxide (CRGO). The results indicated that the addition of nanofillers significantly reduced the creep deformation of the contact zone. The CRGO exhibited a better anti-creep performance than that of CB and MWCNT. Compared with pure PS, the maximum deformation on the contact path of the nanocomposite wheel with 5.0 wt% CRGO sheets at 1500 s and 104 s was reduced by approximately 22% and 52%, respectively. The coefficient of friction μ had a strong influence on the contact creep deformation when μ < 0.3. Additionally, the anti-creep capability of the added nanofillers became more evident as the loading time increased. The contact creep deformation of the CRGO composite was less than one-tenth that of the matrix material after 30 d.提出了一种分析不同纳米填料的复合材料接触蠕变行为的有效建模方法。考虑材料的接触非线性和蠕变非线性,采用增广拉格朗日算法处理单侧接触约束,采用时间硬化蠕变本构方程描述纳米复合材料的变形特性。基于多轴蠕变理论和蠕变试验曲线,通过一系列线性装配提取本构参数,验证了本构方程的准确性。采用绳轮接触系统(RWCS)演示了所提出的建模方法的应用,其中车轮由聚苯乙烯(PS)与炭黑(CB),多壁碳纳米管(MWCNT)或化学还原氧化石墨烯(CRGO)制成。结果表明,纳米填料的加入显著降低了接触区的蠕变变形。CRGO的抗蠕变性能优于炭黑碳纳米管和MWCNT。与纯PS相比,添加5.0 wt% CRGO的纳米复合材料车轮在1500 s和104 s时接触路径上的最大变形分别减少了约22%和52%。当摩擦系数μ < 0.3时,摩擦系数μ对接触蠕变影响较大。此外,添加的纳米填料的抗蠕变能力随着加载时间的增加而变得更加明显。30d后,CRGO复合材料的接触蠕变小于基体材料的十分之一。Feasibility of suppressing debonding failure for CFRP-hollow section steel tube composite member with a thick-walled section under tensile loadingKun Zu, Bin Luo, Xing Ma, Er-gang Xiongdoi:10.1016/j.tws.2023.111484抑制cfrp -厚壁空心截面钢管复合构件抗拉破坏的可行性Carbon fiber reinforced polymer (CFRP) is extensively utilized to strengthen steel structures. However, the premature debonding failure of CFRP inhibits its validity in strengthening tensile steel structures. Accordingly, the introduction of a thick-walled hollow section steel tube located at both ends of the CFRP-hollow section steel tube (CFRP-HSST) composite member was developed for the strengthening of tensile members. The steel tube in the novel composite member is constituted of a middle thin-walled section and a pair of thick-walled sections at each end providing anti-debonding resistance. The strengthening efficiency of the novel composite member under axial tensile loading was experimentally investigated by 8 specimens, comprising 4 circular cross section and 4 square cross section composite members. It was found that the presence of thickened section could achieve the stress gradient of CFRP and distribute the adhesive's interfacial shear stress. In addition, the finite element model (FEM) of the proposed CFRP-HSST composite member was developed and examined the adhesive damage distribution and evolution, and subsequently, a parametric analysis was carried out. The results indicate that the novel CFRP-HSST composite member can be regarded as an efficient strengthening solution for suppressing the premature debonding failure as well as increasing the strengthening efficiency and strength utilization of CFRP.碳纤维增强聚合物(CFRP)被广泛应用于钢结构加固。然而,碳纤维布的过早脱粘破坏抑制了其加固受拉钢结构的有效性。据此,在cfrp -空心截面钢管(CFRP-HSST)复合构件的两端引入厚壁空心截面钢管来加强受拉构件。新型复合构件中的钢管由中间薄壁截面和两端具有抗脱粘阻力的一对厚壁截面组成。通过8个试件,包括4个圆形截面和4个方形截面的复合材料构件,对新型复合材料构件在轴向拉伸载荷下的强化效果进行了试验研究。研究发现,增厚截面的存在可以实现CFRP的应力梯度,分布胶粘剂的界面剪应力。建立了CFRP-HSST复合材料构件的有限元模型,分析了构件的粘接损伤分布和演化规律,并进行了参数化分析。结果表明,新型CFRP- hsst复合构件可作为抑制CFRP过早脱粘破坏的有效加固方案,提高CFRP的加固效率和强度利用率。来源:复合材料力学仿真Composites FEM

未登录
还没有评论
课程
培训
服务
行家
VIP会员 学习计划 福利任务
下载APP
联系我们
帮助与反馈