首页/文章/ 详情

【新文速递】2024年2月5日固体力学SCI期刊最新文章

16天前浏览872

 

今日更新:International Journal of Solids and Structures 1 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 7 篇

International Journal of Solids and Structures

The peculiar SMart-Time XB approach for delamination growth prediction and its evolution towards fatigue investigations

Angela Russo, Concetta Palumbo, Andrea Sellitto, Aniello Riccio

doi:10.1016/j.ijsolstr.2024.112681

用于分层生长预测的特殊 SMart-Time XB 方法及其向疲劳研究的演变

This paper deals with the Smart Time XB (SMXB) procedure, a parametric 3D methodology to simulate the delamination evolution in composite structures. The SMXB method has been developed almost ten years ago and, over time, has been improved with new features to become a forefront method compared with the state of the art. The SMXB is based on the Virtual Crack Closure Technique, which is nowadays implemented in the principal and most used Finite Elements (FE) commercial software. The main peculiarity of the SMXB is its capability to overcome the limits in terms of load step size and elements size dependences typical of the VCCT approach in mimic the delamination propagation. The SMXB procedure has been validated over years considering different structures and load conditions. The last development, which make the SMXB even more complete and attractive, is the ability to simulate the fatigue-driven delamination. Indeed, the Paris Law has been introduced in the core structure of the SMXB to make it able to mimic the delamination evolution under cyclic loading conditions. This manuscript has the intent to describe the theory behind this peculiar procedure and its evolution toward fatigue simulation. An experimental literature Double Cantilever Beam benchmark has been used to prove the robustness and effectiveness of this computational methodology, highlighting its main peculiarities. Single leg bending example, representative of a mixed mode interaction, has also been presented.

本文介绍智能时间 XB(SMXB)程序,这是一种模拟复合材料结构分层演变的参数化三维方法。SMXB 方法开发于近十年前,随着时间的推移,该方法不断改进,增加了新的功能,目前已成为最先进的方法。SMXB 以虚拟裂缝闭合技术为基础,该技术目前已在主要的、最常用的有限元(FE)商业软件中实现。SMXB 的主要特点是能克服 VCCT 方法在模拟分层扩展时对载荷步长和元素尺寸相关性的限制。SMXB 程序经过多年验证,考虑了不同的结构和载荷条件。SMXB 的最后一项发展是能够模拟疲劳驱动的分层,这使得 SMXB 更加完整和具有吸引力。事实上,SMXB 的核心结构中引入了巴黎定律,使其能够模拟循环加载条件下的分层演变。本手稿旨在描述这一特殊程序背后的理论及其向疲劳模拟的演变。实验文献《双悬臂梁》基准被用来证明这种计算方法的稳健性和有效性,并强调其主要特殊性。此外,还介绍了代表混合模式相互作用的单腿弯曲示例。


Mechanics of Materials

Bridged structures in ultrathin 2D materials for high toughness.

Kamalendu Paul, Changjun Zhang, Chi-Hua Yu, Zhao Qin

doi:10.1016/j.mechmat.2024.104932

超薄二维材料中的桥式结构可实现高韧性。

2D materials such as graphene, monolayer MoS2 and MXene are highly functional for their unique mechanical, thermal and electrical features and are considered building blocks for future ultrathin, flexible electronics. However, they can easily fracture from flaws or defects and thus it is important to increase their toughness in applications. Here, inspired by natural layered composites and architected 3D printed materials of high toughness, we introduce architected defects to the 2D materials and study their fracture in molecular dynamics simulations. We find that the length of the defects in the shape of parallel bridges is crucial to fracture toughness, as long bridges can significantly increase the toughness of graphene and MoS2 but decrease the toughness of MXene, while short bridges show opposite effects. This strategy can increase the toughness of 2D materials without introducing foreign materials or altering the chemistry of the materials, providing a general method to improve their mechanics.

二维材料(如石墨烯、单层 MoS2 和 MXene)因其独特的机械、热和电特性而具有很高的功能性,被认为是未来超薄柔性电子器件的基石。然而,它们很容易因缺陷或瑕疵而断裂,因此在应用中提高其韧性非常重要。在此,受天然层状复合材料和具有高韧性的结构化 3D 打印材料的启发,我们在二维材料中引入了结构化缺陷,并在分子动力学模拟中研究了它们的断裂情况。我们发现,平行桥形状的缺陷长度对断裂韧性至关重要,因为长桥可显著提高石墨烯和 MoS2 的韧性,但会降低 MXene 的韧性,而短桥则显示出相反的效果。这种策略可以在不引入外来材料或改变材料化学性质的情况下提高二维材料的韧性,为改善二维材料的力学性能提供了一种通用方法。


International Journal of Plasticity

New deformation mechanism and strength-ductility synergy in pure titanium with high density twin

S.Z. Wang, Z.H. Hu, Z.W. Huang, B. Gao, X.F. Chen, J.J. Hu, Y.T. Zhu, Y.S. Li, H. Zhou

doi:10.1016/j.ijplas.2024.103908

高密度孪晶纯钛的新变形机制和强度-电导率协同作用

The simultaneous optimization of strength and ductility in high-performance metallic materials has long been a challenge for researchers, characterized by an inherent trade-off between the two properties. Despite a vast body of research aimed at overcoming this challenge, achieving a desirable balance between strength and ductility remains elusive. Here, we present a novel approach that involves the introduction of high-density twin boundaries into pure Ti while maintaining a nearly unchanged grain size. This approach leads to a significant improvement in yield strength, ultimate tensile strength, and uniform elongation of pure Ti. In-situ electron backscatter diffraction (EBSD) analysis reveals a substantially higher density of dislocations in twins compared to the matrix, which translates into a remarkable improvement in strain hardening rate and enhanced ductility at high stress levels. The finding from the In-Grain Misorientation Axes (IGMA) distribution method indicate that the high density of dislocations is triggered by the activation of non-basal <c+a> slipping. Furthermore, it is reveaaled that, in addition to the preferred crystal orientations and potential dislocation transmutation mechanisms, an increase in the c/a ratio near the twin boundaries also contributes to the activation of <c+a> dislocations within twins. Our findings offer a promising route for developing high-performance HCP (Hexagonal close-packed) metallic alloys by introducing high-density twins.

长期以来,如何同时优化高性能金属材料的强度和延展性一直是研究人员面临的一项挑战,因为这两种性能之间存在固有的权衡。尽管有大量的研究旨在克服这一挑战,但要在强度和延展性之间实现理想的平衡仍然难以实现。在此,我们提出了一种新方法,即在纯钛中引入高密度孪晶边界,同时保持几乎不变的晶粒尺寸。这种方法显著提高了纯钛的屈服强度、极限拉伸强度和均匀伸长率。原位电子反向散射衍射(EBSD)分析表明,与基体相比,孪晶中的位错密度要高得多,从而显著提高了应变硬化率,并增强了高应力水平下的延展性。晶内偏斜轴(IGMA)分布方法的研究结果表明,高密度位错是由非基体<c+a>滑动激活引起的。此外,研究还揭示出,除了优选晶体取向和潜在的位错嬗变机制外,孪晶边界附近的 c/a 比值增加也有助于激活孪晶内部的 <c+a> 位错。我们的研究结果为通过引入高密度孪晶开发高性能 HCP(六方紧密堆积)金属合金提供了一条前景广阔的途径。


Thin-Walled Structures

Mechanical characteristic and stress-strain modelling of friction stir welded 6061-T6 aluminium alloy butt joints

Beibei Li, Pengcheng He, Jingfeng Wang, Xuebei Pan, Yuanqing Wang, Zhongxing Wang, Charalampos C. Baniotopoulos

doi:10.1016/j.tws.2024.111645

搅拌摩擦焊接 6061-T6 铝合金对接接头的机械特性和应力应变模型

This paper investigates the mechanical properties and softening extent of friction stir welded (FSW) 6061-T6 aluminium alloy butt joints through experimental studies and theoretical analyses. A total of 138 monotonic tensile coupon tests and 46 Vickers hardness tests, cut from 5-, 8-, 12, 16-mm-thick welded plates using various welding speed, tool rotation speed and tool configurations, were systematically performed. The surface morphology after welding, failure modes, stress-strain curves and hardness distribution laws were evaluated. An assessment of the applicability of existing constitutive model and proposed model to FSW aluminium alloys were presented, with predictive equations for the key input parameters further derived. The results show that the strength reduction and softening extent induced by FSW under the optimal welding parameters were superior to those of 6061-T6 aluminium alloy plates joined by fusion welding process in accordance with Chinese and European standards, indicating the effectiveness and applicability in aluminium alloy component forming and structural connections using FSW technology. The stress-strain curves of FSW butt joints exhibited higher strain hardening effect but lower ductility. The developed three-stage Ramberg-Osgood model, using seven known key input parameters, was shown to provide a very high accurate and consistent predictions in full-range stress-strain curves in comparison with existing constitutive models. Moreover, the proposed constitutive model, using only three common available parameters, could still achieve a great balance between accuracy and practicality.

本文通过实验研究和理论分析,探讨了搅拌摩擦焊接(FSW)6061-T6 铝合金对接接头的机械性能和软化程度。在不同的焊接速度、工具旋转速度和工具配置下,对 5、8、12 和 16 毫米厚的焊接板材进行了 138 次单调拉伸试样测试和 46 次维氏硬度测试。对焊接后的表面形态、失效模式、应力-应变曲线和硬度分布规律进行了评估。评估了现有构成模型和建议模型对 FSW 铝合金的适用性,并进一步得出了关键输入参数的预测方程。结果表明,在最佳焊接参数下,FSW 所引起的强度降低和软化程度均优于采用熔化焊接工艺连接的 6061-T6 铝合金板材,符合中国和欧洲标准,表明了采用 FSW 技术在铝合金部件成形和结构连接中的有效性和适用性。FSW 对接接头的应力-应变曲线表现出较高的应变硬化效应,但延展性较低。所开发的三阶段 Ramberg-Osgood 模型使用了七个已知的关键输入参数,与现有的构成模型相比,该模型可提供非常准确和一致的全范围应力应变曲线预测。此外,所提出的构成模型只使用了三个常见的可用参数,仍能在准确性和实用性之间取得很好的平衡。


Macroscopic and Mesoscopic Simulation of Damage Behavior for CF/BMI Laminates Induced by Rectangular Cross-sectional TC4 Flyer High-speed Impact

Enling Tang, Wei Zhang, Xinxin Wang, Lei Li, Hui Peng, Chuang Chen, Yafei Han, Mengzhou Chang, Kai Guo, Liping He

doi:10.1016/j.tws.2024.111675

矩形截面 TC4 飞碟高速撞击诱发 CF/BMI 层压板损伤行为的宏观和介观模拟

In this paper based on the turbofan engine fan casing, the rectangular cross-section TC4 flyer high-speed impact carbon fiber/bismaleimide (CF/BMI) composite laminate was used to simulate the impact of failed blade fragments on the casing. Based on mechanical properties tests and equivalent mechanics theory, the mechanical properties parameters of laminates were obtained. The mesoscopic CF/BMI laminates model was built by TexGen. The Hashin failure criterion was implanted into the VUMAT subroutine. ABAQUS/Explicit was used to simulate the normal penetration and oblique penetration of ballistic impact experiments to obtain the strain time history curves, macroscopic damage process and mesoscopic damage morphology. The reliability of the numerical simulation method was verified by ballistic impact test. On this basis, the mechanical response and impact damage characteristics of flyer penetrating CF/BMI laminates under different impact velocities (260m/s, 300m/s), incident angles (45°, 60°, 90°) and flyer flight attitudes were studied. The damage characteristics of CF/BMI laminates under high-speed impact of flyer were obtained by combining the dynamic response analysis of two components of carbon fiber layer and bismaleimide resin in the laminates.

本文以涡扇发动机风扇壳体为基础,采用矩形截面 TC4 飞翼高速冲击碳纤维/双马来酰亚胺(CF/BMI)复合材料层压板来模拟失效叶片碎片对壳体的冲击。根据力学性能测试和等效力学理论,获得了层压材料的力学性能参数。利用 TexGen 建立了中观 CF/BMI 层压板模型,并在 VUMAT 子程序中植入了 Hashin 失效准则。使用 ABAQUS/Explicit 对弹道冲击实验中的法向穿透和斜向穿透进行模拟,以获得应变时间历程曲线、宏观损伤过程和中观损伤形态。弹道冲击试验验证了数值模拟方法的可靠性。在此基础上,研究了不同冲击速度(260m/s、300m/s)、入射角度(45°、60°、90°)和飞行姿态下飞弹穿透 CF/BMI 层压板的力学响应和冲击损伤特征。通过对层压板中的碳纤维层和双马来酰亚胺树脂两部分的动态响应分析,得出了 CF/BMI 层压板在飞行器高速撞击下的损伤特征。


Experimental and numerical investigations of Frameless CFSCW under combined in-plane shear and axial loads

S. Vaze, T.Y. Yang, F. Bagatini-Cachuço, X. Pan

doi:10.1016/j.tws.2024.111677

无框架 CFSCW 在面内剪切和轴向联合载荷作用下的实验和数值研究

This paper presents a comprehensive evaluation of a novel Cold Form Steel Corrugated Walls (CFSCWs), named Frameless CFSCWs, under combined axial and lateral loads. A series of experimental investigations were carried out on full-scale specimens. The influence of different axial loads on the buckling-failure mode, the peak force capacity, the post-buckling stiffness, and the residual force capacity are presented. Subsequently, robust finite element models were developed to simulate the complex bucking behavior of these Frameless CFSCWs. The results of the experimental and numerical investigations revealed that the lateral force-deformation response of Frameless CFSCW is highly influenced by the axial loads. A linearized backbone curve of the Frameless CFSCWs with different axial loads is proposed. Key design parameters such as overstrength and ductility ratios of the Frameless CFSCW panels are identified. The linearized backbone curve can be used by engineer to design Frameless CFSCWs under different axial loads.

本文介绍了在轴向和侧向荷载共同作用下对新型冷弯钢筋波形墙(CFSCWs)(无框架 CFSCWs)的综合评估。在全尺寸试件上进行了一系列实验研究。实验研究了不同轴向载荷对屈曲破坏模式、峰值受力能力、屈曲后刚度和残余受力能力的影响。随后,建立了稳健的有限元模型来模拟这些无框架 CFSCW 的复杂屈曲行为。实验和数值研究结果表明,无框架 CFSCW 的侧向力-变形响应受轴向载荷的影响很大。提出了不同轴向载荷下无框架 CFSCW 的线性化骨架曲线。确定了无框架 CFSCW 面板的超强度和延性比等关键设计参数。工程师可利用线性化骨架曲线设计不同轴向载荷下的无框 CFSCW 板。


Thermal-mechanical coupling analysis of membrane surface failure of the air-supported membrane structure under fire considering weld seams

Yaning Zhang, Ying Sun, Qiming Zhu, Zhenggang Cao, Yang Yu

doi:10.1016/j.tws.2024.111678

考虑焊缝的火灾条件下空气支撑膜结构膜面失效的热力学耦合分析

The membrane surface failure by developing a tear in air-supported membrane structures under fire conditions affects the deflation and collapse of the structure. However, in most existing studies, the failure is evaluated only according to whether the membrane surface temperature reaches the burn-through temperature of the membrane materials, without considering the effect of internal pressure variation caused by fire, and there have been even few studies on the impact of weld seams on membrane surface. This paper introduces the simplified constitutive models for PVC membranes and weld seams and a numerical simulation method to analyze the stress on the membrane surface of air-supported membrane structures during fire, taking into consideration the coupling effect of high temperature and internal pressure change. Numerical responses and the results of the full-scale fire test case by HIT (Harbin Institute of Technology) team are compared to demonstrate the effectiveness and applicability of the proposed material models and the simulation method. The study shows that the weld seams are the weak parts of the membrane surface under fire. The membrane surface failure may not first occur at the maximum temperature point of the membrane surface and the initial failure temperature is much less than the burn-through temperature of the membrane materials. Moreover, the initial failure of membrane surface should be attributed to the coevolutionary results of the stress field on the membrane surface and the degraded material properties at elevated temperatures. If the temperature is the only index to determine membrane surface failure in the air-supported membrane structure under fire, the common reference failure temperature should be reduced (approximately 120 ℃ for weld seams and 140 ℃ for membranes). The present study is valuable for fire risk assessment, performance-based fire protection design, and coupled analysis of fire and wind disasters in membrane structures.

在火灾条件下,空气支撑膜结构的膜表面会因撕裂而失效,从而影响结构的放气和坍塌。然而,在现有的大多数研究中,仅根据膜表面温度是否达到膜材料的烧穿温度来评估其失效,而没有考虑火灾引起的内部压力变化的影响,甚至很少有关于焊缝对膜表面影响的研究。考虑到高温和内压变化的耦合效应,本文介绍了 PVC 膜材和焊缝的简化构成模型以及数值模拟方法,以分析火灾时空气支撑膜结构膜材表面的应力。通过比较数值响应和哈尔滨工业大学团队的全尺寸火灾试验结果,证明了所提出的材料模型和模拟方法的有效性和适用性。研究表明,焊缝是膜表面在火灾中的薄弱部位。膜表面失效可能不会首先发生在膜表面的最高温度点,初始失效温度远低于膜材料的烧穿温度。此外,膜表面的初始失效应归因于膜表面应力场和高温下材料性能退化的共同演变结果。如果将温度作为火灾条件下空气支撑膜结构膜表面失效的唯一指标,则应降低常见的参考失效温度(焊缝约为 120 ℃,膜材料约为 140 ℃)。本研究对火灾风险评估、基于性能的防火设计以及膜结构火灾和风灾耦合分析具有重要价值。


Mesoscopic statistics-based probability characteristics of chloride transport and reliability-based corrosion initiation life of bridge tower

Dingshi Chen, Wenhua Guo, Xiankai Quan, Binxin Duan, Liujun Guo

doi:10.1016/j.tws.2024.111680

基于介观统计的氯离子迁移概率特征和基于可靠性的桥塔腐蚀起始寿命

Chloride-induced corrosion involves multiple factors and uncertainties. This study focuses on the probabilistic and multifactorial prediction model for the reliability and service life of reinforced concrete structures in marine environments. We present a new probabilistic framework to quantify the uncertainty of chloride transport by mesoscopic statistics and Spearman correlation analysis and develop a modified chloride transport model, incorporating multi-factors such as time dependence, admixture usage, temperature, relative humidity, stress level, freeze-thaw cycles, chloride binding capacity, aggregate volume fraction, aggregate particle size, and concrete deterioration. Taking the Shenzhen-Zhongshan Bridge as an example, by considering the chloride diffusion coefficient, concrete cover thickness, convection zone thickness, critical chloride concentration, and surface chloride concentration as random variables, the first-order reliability method (FORM) was employed to determine the time-variant reliability index and service life of the example bridge in different environmental conditions, encompassing atmospheric, splashing, tidal, and submerged zones. The sensitivity of the time-variant reliability to these random variables and the impact of the non-random variables on the reliability index were investigated quantitatively and comparatively. The findings reveal significant temporal and spatial variability in chloride diffusion coefficients due to the random arrangement of aggregates within concrete. The study demonstrates that concrete cover thickness and chloride diffusion coefficient are the most influential variables on structural reliability and emphasizes the substantial impact of admixtures, concrete deterioration, and environmental factors on the time-variant reliability. This research offers a significant reference in the reliability design, safety assessment, and maintenance of concrete structures in chloride-rich environments.

氯化物引起的腐蚀涉及多种因素和不确定性。本研究重点关注海洋环境中钢筋混凝土结构可靠性和使用寿命的概率和多因素预测模型。我们提出了一个新的概率框架,通过中观统计和斯皮尔曼相关分析来量化氯离子迁移的不确定性,并建立了一个改进的氯离子迁移模型,将时间依赖性、外加剂用量、温度、相对湿度、应力水平、冻融循环、氯离子结合能力、骨料体积分数、骨料粒径和混凝土劣化等多因素纳入其中。以深圳-中山大桥为例,将氯离子扩散系数、混凝土覆盖层厚度、对流区厚度、临界氯离子浓度和表面氯离子浓度视为随机变量,采用一阶可靠度法(FORM)确定了示例桥梁在不同环境条件下的时变可靠度指数和使用寿命,包括大气区、溅水区、潮汐区和水下区。定量和比较研究了时变可靠性对这些随机变量的敏感性以及非随机变量对可靠性指数的影响。研究结果表明,由于混凝土中集料的随机排列,氯化物扩散系数在时间和空间上都存在很大的差异。研究表明,混凝土覆盖层厚度和氯化物扩散系数是对结构可靠性影响最大的变量,并强调了外加剂、混凝土老化和环境因素对时变可靠性的重大影响。这项研究为富含氯化物环境中混凝土结构的可靠性设计、安全评估和维护提供了重要参考。


Flexural performance of high strength grouted SHS tube-sleeve connection for modular construction

Zhenyu HUANG, Xiaolong ZHAO, Weixiong DENG, Wei ZHANG, Tao LI, Zhiqiang ZHONG

doi:10.1016/j.tws.2024.111653

模块化建筑中高强度灌浆 SHS 管-套筒连接的挠曲性能

Prefabricated prefinished volumetric construction divides traditional buildings into room-sized modules that are manufactured off-site and assembled on-site. This construction method offers improved construction speed, superior quality control, and reduced environmental impact compared to traditional construction. In high-rise modular construction, the connections between modules may experience significant bending moments due to wind loads or earthquakes. Therefore, the flexural performance of these connections becomes a critical factor that affects the overall stability and robustness of the modular structures. The present study combines the advantages of high strength grout and square hollow section tube sleeves to develop a robust grouted connection for prefabricated structures without compromising assembly efficiency. Firstly, the study conducts three-point bending tests on eight full-scale specimens to investigate the flexural behavior of the connection. The load transfer mechanism, failure modes, moment-curvature relationship, and strain development of the tube-sleeve connection under lateral load are analyzed in detail. The study also quantifies and discusses the effects of different shear key spacing, grout length, inner tube width, and steel fiber content on the strength and stiffness of the connection. In addition, the study utilizes ABAQUS to simulate the bending responses of the connection, including inner tube fracture, grout crack development, and internal complex strain state. The finite element analysis results demonstrate good agreement with the experimental results, with an average ratio of 1.04 between numerical results and test results for flexural resistance, and a standard deviation of 0.04. Furthermore, based on elasto-plastic mechanics and the actual cross-sectional stress distribution of the connection, three analytical models are proposed to predict the flexural resistance of the connection. Finally, the moment-shear interaction relation is verified against the finite element and test results using the elastic-plastic analytical model and the ultimate state shear model.

预制预成品体积建筑将传统建筑分成房间大小的模块,这些模块在场外生产,然后在现场组装。与传统建筑相比,这种施工方法提高了施工速度,加强了质量控制,并减少了对环境的影响。在高层模块化建筑中,由于风荷载或地震的影响,模块之间的连接可能会承受很大的弯矩。因此,这些连接件的抗弯性能成为影响模块化结构整体稳定性和坚固性的关键因素。本研究结合了高强度灌浆料和方形空心截面管套筒的优势,在不影响装配效率的前提下,为预制结构开发了一种坚固的灌浆连接。首先,本研究对八个全尺寸试件进行了三点弯曲试验,以研究该连接的抗弯行为。详细分析了管套连接在横向荷载作用下的荷载传递机制、破坏模式、弯矩-曲率关系和应变发展。研究还量化并讨论了不同剪力键间距、灌浆长度、内管宽度和钢纤维含量对连接强度和刚度的影响。此外,研究还利用 ABAQUS 模拟了连接的弯曲响应,包括内管断裂、灌浆裂缝发展和内部复杂应变状态。有限元分析结果表明与实验结果非常吻合,抗弯数值结果与测试结果的平均比率为 1.04,标准偏差为 0.04。此外,根据弹塑性力学和连接的实际截面应力分布,提出了三个分析模型来预测连接的抗弯强度。最后,利用弹塑性分析模型和极限状态剪切模型,根据有限元和测试结果验证了力矩-剪切相互作用关系。


A hybrid operator-based multifactorial evolutionary algorithm for inverse-engineering design of soft network materials

Sunze Cao, Xiao Feng, Jiahui Chang, Yongbin Yu, Xiangxiang Wang, Jingye Cai, Yuchen Lai, Hao Wang

doi:10.1016/j.tws.2024.111655

基于混合算子的多因素进化算法,用于软网络材料的逆工程设计

Soft network materials (SNMs) are a class of network materials with periodic thin curved filaments in lattice patterns, offering excellent physical properties of high stretchability, highly tunable mechanical properties, and lightweight. Several theoretical models have been established for the inverse-engineering design of SNMs for reproducing the nonlinear J-shaped stress–strain curves for mechanical bionics. However, the existing design models required the semi-subjective decision in the choice of key geometric parameters, critical strain, etc., under the limited material libraries. In this study, we developed a brand-new hybrid operators-based multifactorial evolutionary algorithm (HOMFEA) for the inverse-engineering design of SNMs to reproduce the J-shaped stress–strain curves of various target soft biological tissues. The core algorithms in HOMFEA include a hybrid operator proposed based on the memetic algorithm theory, a vertical cultural transmission, and population formation coupled with modeling methods for SNMs. The HOMFEA-based design strategy allows more accurate reproduction of target stress–strain curves compared to the conventional EA-based framework and a phenomenological-based mechanical model. The high-performance computing capability suggests that it can serve as a reliable tool for more inverse-engineering design scenarios.

软网络材料(SNMs)是一类具有周期性弯曲细丝晶格图案的网络材料,具有高拉伸性、高可调机械性能和轻质等优异的物理特性。目前已建立了多个反工程设计 SNM 的理论模型,用于再现机械仿生学的非线性 J 型应力-应变曲线。然而,现有的设计模型需要在有限的材料库条件下半主观地选择关键几何参数、临界应变等。在本研究中,我们开发了一种全新的基于算子的混合多因素进化算法(HOMFEA),用于 SNM 的逆工程设计,以重现各种目标软生物组织的 J 型应力应变曲线。HOMFEA 的核心算法包括基于记忆算法理论提出的混合算子、垂直文化传播、种群形成以及 SNM 建模方法。与传统的基于 EA 的框架和基于现象学的力学模型相比,基于 HOMFEA 的设计策略能更准确地再现目标应力-应变曲线。高性能计算能力表明,它可以作为一种可靠的工具,用于更多的逆工程设计方案。



来源:复合材料力学仿真Composites FEM
ACTMechanicalFluentSystemInspire疲劳断裂复合材料非线性化学通用建筑电子海洋焊接理论材料分子动力学
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:2024-11-06
最近编辑:16天前
Tansu
签名征集中
获赞 3粉丝 0文章 690课程 0
点赞
收藏
作者推荐

【新文速递】2024年2月11日固体力学SCI期刊最新文章

今日更新:International Journal of Solids and Structures 3 篇,Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 2 篇International Journal of Solids and StructuresSemi-analytical solution to elastic–plastic contact-impact between a 316 stainless steel rod with truncated cone nose and rigid flatYifan Wang, Tao Wang, Xuan Yedoi:10.1016/j.ijsolstr.2024.112702带有截顶锥鼻的 316 不锈钢棒与刚性平面之间的弹塑性接触撞击的半解析解When subjected to impacts, rods suffer local large deformation and global vibrational deformation along with abrupt kinematic and mechanical response changes. Studies on the responses during impact are beneficial to structural health monitoring. In this study, both kinds of deformation of rods with truncated-cone noses were investigated. A semi-analytical solution describing the vibrational responses of the rod was obtained based on the plastic contact model of the truncated-cone nose against a rigid flat and the one-dimension hypothesis of the rod. The theoretically predicted results agreed well with those calculated by finite element model (FEM), and the scaling law in rod response was theoretically derived and verified by FEM. Besides, the compression degree of the rod with three truncated-cone noses was considered, and the rod nose of lower contact stiffness presented better buffering effects. Finally, the applicability map of the semi-analytical solution was depicted according to the scope of the contact model.在受到冲击时,杆件会发生局部大变形和整体振动变形,同时运动学和机械响应也会发生突变。对冲击过程中的响应进行研究有利于结构健康监测。在本研究中,对带有截顶锥形鼻的杆件的两种变形进行了研究。根据截顶锥鼻与刚性平面的塑性接触模型和杆的一维假设,得到了描述杆振动响应的半解析解。理论预测结果与有限元模型(FEM)计算结果吻合良好,理论上得出了杆件响应的缩放规律,并通过有限元模型得到了验证。此外,还考虑了具有三个截顶锥鼻的杆的压缩程度,发现接触刚度较低的杆鼻具有更好的缓冲效果。最后,根据接触模型的范围描绘了半解析解的适用图。Revealing the unusual rate-dependent mechanical behaviors of nematic liquid crystal elastomersChristopher Chung, Chaoqian Luo, Christopher M. Yakacki, Bo Song, Kevin Long, Kai Yudoi:10.1016/j.ijsolstr.2024.112712揭示向列液晶弹性体随速率变化的异常力学行为Liquid crystal elastomers (LCEs) exhibit unique mechanical properties of soft elasticity and enhanced energy dissipation with rate dependency. They are potentially transformative materials for applications in mechanical impact mitigation and vibration isolation. However, previous studies have primarily focused on the mechanics of LCEs under equilibrium and quasistatic loading conditions. Critical knowledge gaps exist in understanding their rate-dependent behaviors, which are a complex mixture of traditional network viscoelasticity and the soft elastic behaviors with changes in the mesogen orientation and order parameter. Together, these inelastic mechanisms lead to unusual rate-dependent energy absorption responses of LCEs. In this work, we developed a viscoelastic constitutive theory for monodomain nematic LCEs to investigate how multiple underlying sources of inelasticity manifest in the rate-dependent and dissipative behaviors of monodomain LCEs. The theoretical modeling framework combines the neo-classical network theory with evolution rules for the mesogen orientation and order parameter with conventional viscoelasticity. The model is calibrated with uniaxial tension and compression data spanning six decades of strain rates. The established 3D constitutive model enables general loading predictions taking the initial mesogen orientation and order parameter as inputs. Additionally, parametric studies were performed to further understand the rate dependence of monodomain LCEs in relation to their energy absorption characteristics. Based on the parametric studies, particularly loading scenarios are identified as conditions where LCEs outperform conventional elastomers regarding energy absorption.液晶弹性体(LCE)具有独特的软弹性机械特性和随速率变化而增强的能量耗散特性。液晶弹性体是一种潜在的变革性材料,可用于减轻机械冲击和隔离振动。然而,以往的研究主要集中于 LCE 在平衡和准静态加载条件下的力学特性。这些行为是传统网络粘弹性与介质取向和有序参数变化时的软弹性行为的复杂混合物。这些非弹性机制共同导致了 LCE 不同寻常的随速率变化的能量吸收响应。在这项研究中,我们开发了单体向列 LCE 的粘弹性构成理论,以研究多种潜在的非弹性来源如何在单体 LCE 的速率依赖性和耗散行为中表现出来。理论建模框架结合了新古典网络理论、介质取向和阶次参数的演化规则以及传统的粘弹性。该模型通过跨越六十年应变率的单轴拉伸和压缩数据进行校准。已建立的三维构成模型可以将初始中间原取向和阶次参数作为输入,进行一般加载预测。此外,还进行了参数研究,以进一步了解单域 LCE 与其能量吸收特性相关的速率依赖性。根据参数研究,确定了 LCE 在能量吸收方面优于传统弹性体的特定加载情况。Self-consistent approximations for the frictionless paraboloidal and conical depth-sensing indentation: The generalized bottom effectIvan Argatov, Xiaoqing Jindoi:10.1016/j.ijsolstr.2024.112713无摩擦抛物面和锥形深度感应压痕的自洽近似:广义底部效应The axisymmetric frictionless indentation problem for a linearly-elastic layered medium is considered in the special cases of paraboloidal and conical indenters. A particular focus is placed on incorporating the general substrate effect into the force–displacement relation that is used in the inverse analysis of the depth-sensing indentation curves. A unified analytical modeling approach is developed by further exploring the concept of the indentation scaling factor. The asymptotically exact self-consistent approximations are derived for the dependences of the contact force and the indenter displacement on the contact radius, and their accuracy are tested against the numerically based analytical approximations available in the literature along with the asymptotic approximations. The substrate effect in the Johnson–Kendall–Roberts (JKR)-type adhesion for a paraboloidal or conical indenter is studied in detail.在抛物面压头和锥形压头的特殊情况下,考虑了线弹性层状介质的轴对称无摩擦压痕问题。重点是将一般基底效应纳入力-位移关系中,该关系用于深度感应压痕曲线的反分析。通过进一步探索压痕缩放因子的概念,开发了一种统一的分析建模方法。针对接触力和压头位移对接触半径的依赖关系,推导出了渐近精确的自洽近似值,并与文献中基于数值的分析近似值和渐近近似值进行了精度测试。详细研究了抛物面或锥形压头在约翰逊-肯德尔-罗伯茨(JKR)型粘附中的基底效应。Journal of the Mechanics and Physics of SolidsAn elastic-damaging cohesive law for cell-substrate adhesion with positive and negative durotaxisElena Benvenuti, Gino Antonio Rehodoi:10.1016/j.jmps.2024.105569细胞-基质粘附的弹性破坏内聚定律与正负杜罗塔西效应Durotaxis of cells anchored to the extracellular matrix through focal adhesions has been systematically studied through both analytical and computational approaches. However, recent experiments have revealed the attitude of certain cells to unexpectedly migrate towards comparatively softer substrates, thus suggesting the possibility for negative durotaxis to manifest. Cell migration is possible because focal adhesions grow and disrupt, thus operating like adhesive structures undergoing a chemo-physical degradation process. In the present contribution, this degradation process is described through an elastic-damaging cohesive law deduced from a convex-concave pseudo-elastic potential, which confers a variational structure to the mechanical model of the adhesion structure and makes the derivation of analytical solutions possible. Furthermore, the obtained traction-separation cohesive law is amenable to a straightforward implementation into finite element codes. Finite elasticity of the cell body is considered while durotaxis is triggered by applying a contractile pre-stretch to the cell. It is shown that displacement- or force-driven degradation processes may lead to different kinds of durotaxis. The consistency and effectiveness of the proposed approach are showcased in one- and three-dimensional examples of cell-substrate systems.人们通过分析和计算方法系统地研究了通过焦点粘附固定在细胞外基质上的细胞的杜罗塔斯现象。然而,最近的实验发现,某些细胞会出人意料地向相对较软的基质迁移,从而暗示了负向游走的可能性。细胞迁移之所以可能,是因为局灶粘连会生长和破坏,从而像正在经历化学物理降解过程的粘连结构一样发挥作用。在本文中,这种降解过程是通过凸凹伪弹性势推导出的弹性破坏内聚定律来描述的,它为粘附结构的力学模型赋予了变分结构,并使分析解的推导成为可能。此外,所获得的牵引分离内聚法则可直接应用于有限元代码。在考虑细胞体的有限弹性的同时,通过对细胞施加收缩预拉伸来触发杜罗他西斯。结果表明,位移或力驱动的降解过程可能会导致不同类型的室管膜破裂。在细胞-基质系统的一维和三维实例中,展示了所提方法的一致性和有效性。Mechanics of MaterialsNumerical and experimental evaluations on the defect sensitivity of the performance of BCC truss-lattice structuresZhenyang Huang, Xiaofei Cao, Hu Niu, Binlin Ma, Xiao Du, Zhiwei Zhou, Haoming Yang, MingKun Dudoi:10.1016/j.mechmat.2024.104937 BCC 桁架-晶格结构性能缺陷敏感性的数值和实验评估Additive manufacturing (AM) routes have brought abundant geometric defects into as-fabricated lattice materials. Researchers take it for granted that any defects in lattice struts would decrease the mechanical properties of lattice structures, which has also been a rule followed by all engineering designers. In this paper, novel design strategies of actively utilizing defects to improve the mechanical properties of BCC lattice structures are proposed. Firstly, effects of non-periodic microstructure, waving struts and missing struts on the mechanical properties (i.e. compressive modulus and initial yield strength) of BCC lattice structures are investigated through finite element analysis. Simulation results indicate that mechanical properties of the BCC lattice structures exhibited certain sensitivity to the defects. Then, strategies to enhance the performance of BCC lattice patterns by utilizing the imperfections actively are also proposed. Finally, some typical lattice specimens are fabricated and experimental tests are also conducted to validate the accuracy of design strategies. We believe that the proposed new strategy could markedly expand the design space for the development of future materials by actively utilizing the geometric defects.增材制造(AM)工艺给制造出来的晶格材料带来了大量几何缺陷。研究人员理所当然地认为,晶格支柱中的任何缺陷都会降低晶格结构的机械性能,这也是所有工程设计师遵循的规则。本文提出了积极利用缺陷改善 BCC 晶格结构力学性能的新型设计策略。首先,通过有限元分析研究了非周期性微结构、波浪支杆和缺失支杆对 BCC 网格结构的力学性能(即压缩模量和初始屈服强度)的影响。模拟结果表明,BCC 晶格结构的力学性能对缺陷具有一定的敏感性。然后,还提出了积极利用缺陷来提高 BCC 晶格图案性能的策略。最后,我们制作了一些典型的晶格试样,并进行了实验测试,以验证设计策略的准确性。我们相信,通过积极利用几何缺陷,所提出的新策略可以显著拓展未来材料开发的设计空间。International Journal of PlasticityRelating stress/strain heterogeneity to lath martensite strength by experiments and dislocation density-based crystal plasticityTim Fischer, Tao Zhou, Carl F.O. Dahlberg, Peter Hedströmdoi:10.1016/j.ijplas.2024.103917 通过实验和基于位错密度的晶体塑性将应力/应变异质性与板条马氏体强度联系起来To enhance the fundamental understanding for micromechanical lath martensite deformation, the microstructure as well as macro- and microscopic tensile properties of as-quenched 15–5 PH stainless steel are systematically analysed depending on the austenitisation temperature. Based on electron backscatter diffraction (EBSD) and backscattered electron (BSE) analysis, it is noted that the martensite morphology alters from a less defined to a more clearly defined parallel arrangement of the block and lath structure with increasing temperature. For an in-depth quantification of the hierarchical boundary strengthening contributions in relation to local stress/strain heterogeneity, separate high-fidelity virtual microstructures are realised for the different scales (prior austenite grains, packets and blocks). This is consistent with the materials transformation process. The virtual microstructures are simulated employing the crystal plasticity finite element method (CPFEM) adapted for handling high dislocation density and encompassing all relevant strengthening mechanisms by boundaries, dislocations and solute atoms. While accurately capturing the measured size-dependent stress–strain behaviour, the simulations reveal in line with the experiments (Hall–Petch) that blocks are the most effective dislocation motion barrier, causing increased strain hardening and stress/strain heterogeneity. Furthermore, since strain localisation is predicted strongest in the distinct block structure, the experimentally observed early plastic material yielding is thought to be favoured here.为了加深对微观机械板条马氏体变形的基本认识,我们系统分析了奥氏体化温度对淬火后 15-5 PH 不锈钢的微观结构以及宏观和微观拉伸性能的影响。根据电子反向散射衍射(EBSD)和反向散射电子(BSE)分析,可以发现随着温度的升高,马氏体形态从不规则的块状结构转变为更清晰的平行排列的板条状结构。为了深入量化与局部应力/应变异质性相关的分层边界强化贡献,针对不同尺度(先奥氏体晶粒、包和块)实现了独立的高保真虚拟微观结构。这与材料的转变过程是一致的。虚拟微结构采用晶体塑性有限元法(CPFEM)进行模拟,该方法适用于处理高位错密度,并包含边界、位错和溶质原子的所有相关强化机制。模拟准确捕捉了测量到的与尺寸相关的应力-应变行为,同时与实验(霍尔-佩奇)一致,揭示了块体是最有效的位错运动屏障,导致应变硬化和应力/应变异质性增加。此外,由于在独特的块状结构中应变局部性最强,实验观察到的早期塑性材料屈服被认为在这里更有利。Thin-Walled StructuresExtending Generalized Beam Theory to Allow Cross-Section Discontinuities: Application to Stiffened Thin-Walled MembersLiping Duan, Ji Miao, Jincheng Zhaodoi:10.1016/j.tws.2024.111682扩展广义梁理论,允许横截面不连续:应用于加固薄壁构件Thin-walled members with transversal/diagonal stiffeners (e.g., plate girders), from the point of view of the generalized beam theory (GBT), can be treated as beams with discontinuous cross-sections. Generally, it is hard to deal with these members with the classic GBT-based beam finite elements for the presence of stiffeners spoils the continuities of the mode amplitude functions, i.e., one of the essential assumptions in the GBT kinematics. This paper presents an extended GBT (XGBT)-based beam finite element through a combination of the classic GBT with the extended finite element method (XFEM). Specifically, the classic GBT kinematics are used to construct the standard approximation of the cross-section mid-line displacement fields of a beam finite element, and extra enrichment functions which describe the field discontinuities across the beam-stiffener joint edges are added to the standard approximation by using the partition of unity method (PUM). Furthermore, the stiffeners are modelled by shell finite elements, and they are integrated into the extended GBT-based beam model via a three-field mortar method, where the discrete Lagrange multiplier space on each beam-stiffener interface is spanned by the constant functions supported on coarsely partitioned segments over the interface. The implementation of the proposed XGBT formulation is performed via FORTRAN programming and several illustrative examples concerning the linear buckling and statically elastoplastic analyses of stiffened thin-walled beams are employed to accomplish the validation, where the XGBT results are verified by shell finite element results. Results show that the proposed XGBT approach exhibits much lower computational costs for producing equivalently accurate solutions and is much more structurally meaningful than the shell model.从广义梁理论(GBT)的角度来看,带有横向/对角加劲件的薄壁构件(如板梁)可视为横截面不连续的梁。一般来说,基于 GBT 的经典梁有限元很难处理这些构件,因为加劲梁的存在破坏了模态振幅函数的连续性,而模态振幅函数是 GBT 运动学的基本假设之一。本文通过将经典 GBT 与扩展有限元法(XFEM)相结合,提出了一种基于扩展 GBT(XGBT)的梁有限元。具体来说,经典 GBT 运动学用于构建梁有限元横截面中线位移场的标准近似值,并通过使用统一分割法(PUM)在标准近似值中添加了额外的富集函数,用于描述横梁-加劲件连接边缘的场不连续性。此外,加劲件采用壳有限元建模,并通过三场砂浆法将其集成到基于扩展 GBT 的梁模型中,其中每个梁-加劲件界面上的离散拉格朗日乘数空间由界面上粗分段上支持的常量函数所跨越。通过 FORTRAN 编程实现了所提出的 XGBT 公式,并采用了几个关于加劲薄壁梁线性屈曲和静态弹塑性分析的示例来完成验证,其中 XGBT 结果通过壳体有限元结果进行了验证。结果表明,与壳模型相比,所提出的 XGBT 方法在生成等效精确解时的计算成本要低得多,而且在结构上更有意义。Numerical simulation of hybrid CFRP/Al hole-clinched joints at different tensile shear loading ratesWeimin Zhuang, Hailun Zhang, Shen Chendoi:10.1016/j.tws.2024.111698不同拉伸剪切加载速率下混合 CFRP/Al 孔夹接头的数值模拟In this study, the tensile-shear damage mechanisms and mechanical responses of carbon fiber reinforced plastic (CFRP)/Al clinched joints were investigated at different loading rates. A continuous damage model was developed that incorporated strain rate effects and nonlinear in-plane shear behaviors. The nonlinear in-plane shear behaviors included two stages: the plastic deformation stage and the strengthening by fiber rotation stage. The finite element algorithm was implemented by applying the VUMAT user subroutine in Abaqus to analyze the responses of the CFRP/Al clinched joints with three layups (orthogonal, diagonal, and hybrid). The experimental and simulation results were highly consistent in terms of the joint failure modes, damage evolution predictions and load–displacement responses. The strain rate effects on CFRP damage were determined. Under high-strain-rate conditions, the average reductions in deformation required for the various damage modes were 51.5%, 13.2% and 13.1% for the orthogonal, diagonal and hybrid layup joints, respectively. Furthermore, the corresponding average area reductions in the damage modes were 16.0%, 41.7% and 70.6%, respectively. Then, the strain rate effects on joint mechanical performance were evaluated. The mechanical properties of the orthogonal layup joints did not exhibit strain rate sensitivity, whereas the energy absorption levels decreased by 21.1% and 36.6% for the diagonal and hybrid layup joints, respectively. For the diagonal layup joints, the maximum load increased by 22.4% under dynamic loading.本研究探讨了碳纤维增强塑料(CFRP)/铝夹紧接头在不同加载速率下的拉伸剪切损伤机理和机械响应。研究建立了一个包含应变率效应和非线性面内剪切行为的连续损伤模型。非线性面内剪切行为包括两个阶段:塑性变形阶段和纤维旋转强化阶段。有限元算法是通过在 Abaqus 中应用 VUMAT 用户子程序来实现的,以分析 CFRP/Al 三种铺层(正交、对角和混合)咬合接头的响应。实验和模拟结果在接头失效模式、损伤演变预测和载荷-位移响应方面高度一致。研究还确定了应变速率对 CFRP 损伤的影响。在高应变率条件下,正交、对角和混合铺层接头的各种损坏模式所需的变形平均减小率分别为 51.5%、13.2% 和 13.1%。此外,在各种损坏模式下,相应的平均面积减少率分别为 16.0%、41.7% 和 70.6%。然后,评估了应变率对接头机械性能的影响。正交层叠接头的机械性能没有表现出应变速率敏感性,而对角层叠接头和混合层叠接头的能量吸收水平分别降低了 21.1% 和 36.6%。对于对角铺层接头,在动态载荷下的最大载荷增加了 22.4%。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 福利任务 兑换礼品
下载APP
联系我们
帮助与反馈