首页/文章/ 详情

【新文速递】2024年3月3日固体力学SCI期刊最新文章

15天前浏览618

 

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

International Journal of Solids and Structures

Pneumatically tunable adherence of elastomeric soft hollow pillars with non-circular contacts

Guangchao Wan, Wanliang Shan

doi:10.1016/j.ijsolstr.2024.112736

具有非圆形触点的弹性软空心支柱的气动可调附着力

Dynamically tunable interfacial dry adhesion plays a significant role in numerous biological functions and industrial applications. Among various strategies, pneumatics-activated adhesive devices draw much attention due to their distinct advantages such as fast speed, reliable performance, large adhesion tunability and easily accessible materials. To understand and predict adhesion strength of pneumatics-activated adhesives, it is necessary to examine their interfacial mechanics that is nonlinearly coupled with the large deformation of the devices under pressure. However, previous studies have only focused on axisymmetric cases in which the outline of the contact area is circular, whereas the tunable adherence of non-circular contact controlled by pneumatics remains elusive. In this work, through a combination of experiments and simulations, we study the effect of non-circular contact geometry on tunable dry adhesion of pressure-activated soft hollow pillars. Specifically, elliptical, square, and rectangular contact shapes are considered and their effects on tunable adhesion of the soft hollow pillars are compared to that of circular contact geometry thoroughly. The results show that soft hollow pillars with elliptical, square, and rectangular contact surfaces demonstrate rich interfacial delamination behaviors that depend on the contact outline geometry and internal pressure. Among all contact geometries, elliptical contact has the highest adhesion tunability yet requires lowest activating pressure owing to the non-uniform curvature distribution of the contact outline. However, when the eccentricity increases, the elliptical contact has reduced tunability of adhesion caused by the contact of opposing sides of the sidewall upon buckling. For square and rectangular contacts, they have the lowest adhesion tunability and need higher activating pressure than those of circular and elliptical contact since the 90-degree edges of the sidewall prohibit buckling instability. Our findings greatly broaden the design space of pneumatics-activated adhesive devices by adding the contact geometry of the soft hollow pillars as a new design parameter, which can provide valuable guidance to tunable adhesive design for various applications in manufacturing and robotics.

动态可调的界面干附着力在众多生物功能和工业应用中发挥着重要作用。在各种策略中,气动激活粘合剂装置因其速度快、性能可靠、粘合力可调节性大和材料易得等独特优势而备受关注。要了解和预测气动活化粘合剂的粘合强度,有必要研究其界面力学,因为界面力学与设备在压力下的大变形呈非线性耦合。然而,以往的研究只关注接触区域轮廓为圆形的轴对称情况,而由气动控制的非圆形接触的可调粘附性仍然难以捉摸。在这项工作中,我们通过实验和模拟相结合的方法,研究了非圆形接触几何形状对压力激活的软空心支柱的可调干附着力的影响。具体来说,我们考虑了椭圆形、正方形和长方形接触形状,并将它们对软质空心柱可调粘附性的影响与圆形接触几何形状的影响进行了彻底比较。结果表明,具有椭圆形、正方形和矩形接触面的软质空心支柱表现出丰富的界面分层行为,这些行为取决于接触轮廓几何形状和内部压力。在所有接触几何形状中,椭圆形接触具有最高的粘附可调性,但由于接触轮廓的曲率分布不均匀,所需的启动压力也最低。然而,当偏心率增大时,椭圆形触点的粘附可调性会降低,原因是弯曲时侧壁的对立面会发生接触。对于方形和矩形触点,由于侧壁的 90 度边缘阻碍了屈曲不稳定性,因此它们的附着力可调性最低,所需的激活压力也高于圆形和椭圆形触点。我们的发现大大拓宽了气动激活粘合装置的设计空间,增加了软质空心支柱的接触几何形状作为新的设计参数,这将为制造和机器人领域各种应用的可调粘合剂设计提供有价值的指导。


Journal of the Mechanics and Physics of Solids

Exploring static responses, mode transitions, and feasible tunability of Kagome-based flexible mechanical metamaterials

Jian Li, Ronghao Bao, Weiqiu Chen

doi:10.1016/j.jmps.2024.105599

探索基于 Kagome 的柔性机械超材料的静态响应、模式转换和可行的可调谐性

We consider the static responses of the uniaxially compressed flexible mechanical metamaterials, which integrate soft hinges and rigid bodies, constructed from the Kagome lattice. First, we experimentally find that the static responses of the regular-Kagome-based structure significantly differ from those of the twisted-Kagome-based structure with a very small twisting angle. Following this, we establish a theoretical model, which is combined with the deflated continuation algorithm for bifurcation analysis, to delve into the static responses and potential bifurcation behavior of these structures. We then experimentally and numerically investigate the mode transitions between various stable modes, and systematically study the role of the twisting angle in the occurrence of bifurcations. Our findings indicate that mode transitions can be feasibly realized according to the calculated bifurcation diagrams. They also provide direct evidence of a crucial physical mechanism that the transition between different stable deformation states can occur through multiple pathways but must pass through at least one unstable deformation state. Moreover, by introducing the twisting angle or stiff defects, the response of the structure can be modulated, thereby enhancing the programmability and tunability of Kagome-based flexible mechanical metamaterials. Our research also reveals that novel phenomena such as meta-beam buckling and multi-phase dominated deformations can be triggered within these flexible structures, which offers valuable insights for future metamaterial designs and applications.

我们考虑了单轴压缩柔性机械超材料的静态响应,这种超材料将软铰链和刚体结合在一起,由卡戈米晶格构建而成。首先,我们通过实验发现,基于常规卡戈米结构的静态响应与基于扭曲卡戈米结构的极小扭曲角的静态响应存在显著差异。随后,我们建立了一个理论模型,并将其与用于分岔分析的放气延续算法相结合,深入研究了这些结构的静态响应和潜在分岔行为。然后,我们通过实验和数值方法研究了各种稳定模式之间的模式转换,并系统地研究了扭转角在分岔发生中的作用。我们的研究结果表明,根据计算出的分岔图,模式转换是可以实现的。它们还直接证明了一种重要的物理机制,即不同稳定变形状态之间的转换可以通过多种途径发生,但必须至少经过一种不稳定变形状态。此外,通过引入扭转角或刚性缺陷,可以对结构的响应进行调制,从而增强基于 Kagome 的柔性机械超材料的可编程性和可调性。我们的研究还揭示了在这些柔性结构中可以触发元梁屈曲和多相主导变形等新现象,这为未来的超材料设计和应用提供了宝贵的启示。


International Journal of Plasticity

Quantifying Dislocation Drag at High Strain Rates with Laser-Induced Microprojectile Impact

Qi Tang, Mostafa Hassani

doi:10.1016/j.ijplas.2024.103924

利用激光诱导微弹丸冲击量化高应变速率下的位错拖曳力

As deformation rate increases, the thermally activated dislocation glide gives way to a continuous glide of dislocations governed by their interactions with phonons. Understanding the dislocation-phonon drag regime is critical for designing metallic materials for extreme deformations rates. However, it has proven challenging to study empirically, partly due to the resource intensive nature of the experimental approaches targeting this regime. Here, we develop an impression-based experimental approach combining laser-induced microprojectile impact (Hassani et al., 2020a) and spherical nanoindentation to characterize the dislocation-phonon drag regime. We also utilize a physically based constitutive framework that, when integrated our experimental measurements, can quantify the dislocation-phonon drag regime. We isolate the effect of dislocation-phonon drag by leveraging the similar deformation geometries and length scales but different operative mechanisms during spherical nanoindentation and microprojectile impact. We discuss mechanistic contributions to the plastic work for microprojectile impacts in a range of impact velocities producing strain rates up to 109 s−1. We also develop a deformation mechanism map focused on the transition from thermal activation to dislocation drag for a model FCC metal, copper.

随着形变速率的增加,热激活的位错滑行让位于位错与声子相互作用下的连续滑行。了解差排-声子阻力机制对于设计适用于极端变形率的金属材料至关重要。然而,事实证明对其进行经验研究具有挑战性,部分原因是针对该机制的实验方法需要大量资源。在此,我们开发了一种基于压痕的实验方法,结合激光诱导微弹丸冲击(Hassani 等人,2020a)和球形纳米压痕来表征位错-声子阻力机制。我们还利用了一个基于物理的构成框架,该框架与我们的实验测量相结合,可以量化差排-声子阻力机制。我们利用球形纳米压痕和微弹丸冲击过程中相似的变形几何形状和长度尺度以及不同的作用机制,分离出差排-声子阻力的影响。我们讨论了在一系列冲击速度(应变率高达 109 s-1)下微弹丸冲击塑性功的机理贡献。我们还绘制了一张变形机理图,重点关注模型 FCC 金属铜从热激活到位错拖曳的转变过程。


Thin-Walled Structures

Data-Driven PSO-CatBoost Machine Learning Model to Predict the Compressive Strength of CFRP- Confined Circular Concrete Specimens

Nima Khodadadi, Hossein Roghani, Francisco De Caso, El-Sayed M. El-kenawy, Yelena Yesha, Antonio Nanni

doi:10.1016/j.tws.2024.111763

预测 CFRP 承压圆形混凝土试件抗压强度的数据驱动型 PSO-CatBoost 机器学习模型

This work articulates the development of a sophisticated machine-learning model for the prediction of compressive strength in Carbon Fiber-Reinforced Polymer Confined-Concrete (CFRP-CC) specimens. Despite extensive empirical studies conducted over the last three decades, prevailing predictive models predominantly rooted in linear or nonlinear regression analyses are constrained by their dependency on limited data scopes. Addressing this deficiency, our research delineates the formulation of an innovative Particle Swarm Optimization- Categorical Boosting (PSO-CatBoost) algorithm, underpinned by an expansive database encompassing 916 experimental outcomes from 116 scholarly articles, spanning the period from 1991 to mid-2023. This innovative approach effectively combines the strengths of Particle Swarm Optimization and the CatBoost algorithm. It carefully evaluates various vital factors that affect the compressive strength of CFRP-CC. The uniqueness of our approach is further accentuated through the application of SHapley Additive exPlanations (SHAP) and Permutation Feature Importance (PFI) methodologies, thereby elucidating the relative importance of each contributory feature. In an unprecedented comparative analysis, the PSO-CatBoost model is rigorously benchmarked against six contemporary machine learning paradigms: CatBoost, XgBoost, AdaBoost, GBoost, Extra Trees, and Random Forest. Furthermore, this model is assessed against six empirical models for further comparison. The model exhibits superior predictive efficacy, evidenced by an exemplary coefficient of determination R-squared of 0.9847, surpassing the methodologies. This research introduces a new predictive model for CFRP-CC and represents a significant shift in concrete research, moving towards a more sophisticated, data-driven, and machine learning-focused methodology. This work thus establishes a new benchmark in the predictive modeling realm for CFRP-CC compressive strength, offering a robust and comprehensive analytical tool for both researchers and practitioners in the field. Lastly, a graphical user interface was designed for modeling the compressive strength of CFRP-CC to facilitate practical use.

这项工作阐明了如何开发一种复杂的机器学习模型,用于预测碳纤维增强聚合物密实混凝土(CFRP-CC)试样的抗压强度。尽管在过去三十年中进行了大量的实证研究,但主要植根于线性或非线性回归分析的主流预测模型因其对有限数据范围的依赖性而受到限制。针对这一不足,我们的研究阐述了一种创新的粒子群优化-分类提升(PSO-CatBoost)算法,该算法以一个庞大的数据库为基础,该数据库涵盖了从 1991 年到 2023 年中期的 116 篇学术论文中的 916 项实验结果。这一创新方法有效地结合了粒子群优化和 CatBoost 算法的优势。它仔细评估了影响 CFRP-CC 抗压强度的各种重要因素。通过应用 SHapley Additive exPlanations(SHAP)和 Permutation Feature Importance(PFI)方法,进一步突出了我们方法的独特性,从而阐明了每个贡献特征的相对重要性。在前所未有的比较分析中,PSO-CatBoost 模型与六种当代机器学习范式进行了严格的基准比较:CatBoost、XgBoost、AdaBoost、GBoost、Extra Trees 和 Random Forest。此外,该模型还与六个经验模型进行了评估,以作进一步比较。该模型表现出卓越的预测功效,其判定系数 R 方为 0.9847,超越了各种方法,堪称典范。这项研究为 CFRP-CC 引入了一个新的预测模型,代表了混凝土研究领域的重大转变,即向更复杂、数据驱动和以机器学习为重点的方法转变。因此,这项工作在 CFRP-CC 抗压强度预测建模领域建立了一个新的基准,为该领域的研究人员和从业人员提供了一个强大而全面的分析工具。最后,为了便于实际使用,还设计了 CFRP-CC 抗压强度建模的图形用户界面。


Enhancing bond performance of CFRP-steel epoxy-bonded interface by electrospun nanofiber veils

Furui Zhu, Lu Ke, Zheng Feng, Jiale Zhou, Chuanxi Li, Rundan Zhang

doi:10.1016/j.tws.2024.111765

利用电纺纳米纤维纱提高 CFRP-钢环氧树脂粘结界面的粘结性能

The epoxy-bonded interfaces between carbon fiber reinforced polymer (CFRP) and steel usually have insufficient strength and toughness, and the toughening of bonded interface is a key problem for the usage of CFRP in steel structures. In this study, electrospun nanofiber veils were first proposed to enhance the bond performance of CFRP-steel epoxy-bonded interfaces. Firstly, shear tests were conducted on neat epoxy and nano-modified single-lap aluminum-aluminum joints to determine the optimal areal density and number of layers of nanofiber veils, as well as the optimal curing processes. Then, a series of neat epoxy and nano-modified CFRP-steel double-lap joints with different bond lengths were tested to investigate the size effect of the bond behavior. The displacement and strain field evolution of the joints were captured by the digital image correlation (DIC) technique, allowing for visualization of the detailed failure process. The failure modes, load-displacement curves, CFRP strain distributions, and bond-slip relationships of the CFRP-steel joints were obtained. Both the tests on aluminum-aluminum and CFRP-steel joints show that the optimal modification strategy is incorporating 3 layers of nanofiber wels with an areal density of 4.5 g/m2, with 5 h room-temperature and 2 h 80°C high-temperature curing. The primary failure mode of CFRP-steel joints is CFRP delamination accompanied by CFRP-adhesive interface or steel-adhesive interface debonding. The bond strengths of the modified joints with 3 layers of 1.5 g/m2 and 4.5 g/m2 nanofiber veils are increased by 7% and 25% compared to those of un-modified joints, respectively. The 4.5 g/m2 nanofiber veils modified bonded interface has an effective bond length of about 152 mm, with a corresponding ultimate bearing capacity of 117 kN. Different from the triangular (brittle) shape of most neat epoxy interfaces, the nano-modified interfaces have trapezoidal (ductile) bond-slip relationships, providing superior cracking resistance. Moreover, a comparison with the bond strength of SiO2 nano-particles and carbon nanotubes (CNTs) modified joints revealed that nanofiber veil modification comes to higher bond strength in most cases. The proposed electrospun nanofiber veil modification technique provides a great insight into the interfacial toughening of CFRP-steel composite structures.

碳纤维增强聚合物(CFRP)与钢之间的环氧树脂粘结界面通常强度和韧性不足,粘结界面的增韧是碳纤维增强聚合物在钢结构中应用的关键问题。本研究首次提出了电纺纳米纤维纱来增强 CFRP 与钢环氧树脂粘结界面的粘结性能。首先,对纯环氧树脂和纳米改性单层铝-铝接头进行了剪切试验,以确定纳米纤维网的最佳面积密度和层数,以及最佳固化工艺。然后,测试了一系列具有不同粘接长度的纯环氧树脂和纳米改性 CFRP-钢双搭接接头,以研究粘接行为的尺寸效应。通过数字图像相关(DIC)技术捕捉了接头的位移和应变场演变,从而实现了详细失效过程的可视化。获得了 CFRP-钢接头的破坏模式、载荷-位移曲线、CFRP 应变分布和粘结-滑移关系。铝-铝和 CFRP-钢接头的测试表明,最佳改性策略是加入 3 层面积密度为 4.5 g/m2 的纳米纤维,并进行 5 小时室温固化和 2 小时 80°C 高温固化。CFRP 与钢接头的主要失效模式是 CFRP 分层,同时伴有 CFRP 粘接界面或钢粘接界面脱粘。与未改性接头相比,使用 3 层 1.5 g/m2 和 4.5 g/m2 纳米纤维纱的改性接头的粘接强度分别提高了 7% 和 25%。4.5 g/m2 纳米纤维纱改性粘接界面的有效粘接长度约为 152 mm,相应的极限承载能力为 117 kN。与大多数纯环氧树脂界面的三角形(脆性)不同,纳米改性界面具有梯形(韧性)的粘结滑移关系,从而提供了优异的抗开裂性能。此外,与二氧化硅纳米颗粒和碳纳米管(CNTs)改性接头的粘接强度相比,纳米纤维面纱改性在大多数情况下具有更高的粘接强度。所提出的电纺纳米纤维面纱改性技术为 CFRP-钢复合材料结构的界面增韧提供了重要的启示。



来源:复合材料力学仿真Composites FEM
ACTMechanicalAdditiveSystemDeform复合材料非线性ECAD理论材料机器人创新方法控制试验
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:15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3月8日固体力学SCI期刊最新文章

今日更新:International Journal of Solids and Structures 1 篇,Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,Thin-Walled Structures 3 篇International Journal of Solids and StructuresDesign and study of novel Nested auxetic lattices with tunable and enhanced in-plane elastic propertiesAntu Acharya, Anirvan DasGupta, Atul Jaindoi:10.1016/j.ijsolstr.2024.112749设计和研究具有可调和增强面内弹性特性的新型嵌套辅助晶格Auxetic lattices are interesting engineering materials due to Negative Poisson’s Ratio (NPR). However, auxetic lattices usually have extremely low stiffness and exhibit high anisotropy (E1/E2>>1), severely limiting their application in high-loading environments. Attempts at increasing the stiffness of lattices typically lead to a decrease in auxeticity and an increase in anisotropy. In the current study, using novel nesting strategies, modified Sinusoidal Re-entrant Honeycomb (SRH) microstructures are developed to enhance stiffness, retain the auxeticity and introduce nearly isotropic characteristics (E1/E2 ∼ 1). Different Nested n-type (n = 0, 1,2, 3 and 4) microstructures have been studied. Translation studies involving 90° and 0° oriented lattices are undertaken to find the effect of these nesting along different lengths and combinations leading to enhanced stiffness with minor loss in auxeticity. The possibility of attaining a stiffness at least 1500 % greater than the empty lattices, while retaining significant auxeticity (Poisson’s ratio < -1) has been showcased. The proposed approach can also lead to the development of lattices that exhibit nearly isotropic characteristics. The proposed approach can be realized using the state-of-art capabilities of modern 3D printers. The proposed methods and modifications are simple yet very substantial in terms of property enhancement and can be extended to almost all types of lattices.由于具有负泊松比(NPR),磁性晶格是一种有趣的工程材料。然而,辅助晶格通常具有极低的刚度和较高的各向异性(E1/E2>>1),严重限制了其在高负载环境中的应用。提高晶格刚度的尝试通常会导致辅助性降低和各向异性增加。本研究采用新颖的嵌套策略,开发出改进的正弦再入蜂窝(SRH)微结构,以提高刚度、保留辅助性并引入近乎各向同性的特性(E1/E2 ∼ 1)。对不同的嵌套 n 型(n = 0、1、2、3 和 4)微结构进行了研究。涉及 90° 和 0° 方向晶格的平移研究旨在发现这些嵌套沿不同长度和组合的影响,从而在提高刚度的同时略微降低辅助性。结果表明,在保持显著辅助eticity(泊松比<-1)的同时,刚度比空网格至少高出 1500%。所提出的方法还可以开发出具有近乎各向同性特征的晶格。所提出的方法可以利用现代三维打印机的先进功能来实现。所提出的方法和修改虽然简单,但却能极大地提高性能,并可扩展到几乎所有类型的晶格。Journal of the Mechanics and Physics of SolidsFully optimized second-order estimates for the macroscopic behavior and field statistics of particle-reinforced viscoplastic compositesChristoph Kammer, Pedro Ponte Castañedadoi:10.1016/j.jmps.2024.105598对颗粒增强粘塑性复合材料的宏观行为和场统计进行全面优化的二阶估算This paper is concerned with the characterization of the macroscopic behavior and statistics for the distribution of the stress and strain-rate fields in composites consisting of random and isotropic suspensions of rigid spherical particles in a power-law viscoplastic material. For this purpose, use is made of the Fully Optimized Second-Order (FOSO) homogenization method (Ponte Castañeda, 2016) in combination with recently developed estimates (Kammer and Ponte Castañeda, 2022) for the macroscopic properties of the associated ‘linear comparison composite’ (LCC). Special attention is devoted to the method’s ability to account for the dependence of the homogenized properties of the nonlinear composite on the Lode angle (third invariant) of the applied loading. It is found that, while, for large particle volume fractions c, the effective flow stress is only weakly dependent on the Lode angle, for dilute volume fractions, the dependence on the Lode angle becomes more pronounced. In the ideally plastic limit, as c tends to zero, the effective yield stress is shown to depend linearly on c for axisymmetric shear, while this dependence becomes weaker with a non-analytic leading-order correction of O(c/ln c) for pure shear loading. This strong dependence on the Lode angle at dilute concentrations is shown to be due to significant differences in the local deformation patterns, which become strongly anisotropic and localize for pure shear conditions, but do not for axisymmetric shear. In turn, the FOSO homogenization method is able to capture the statistical features of these different deformation patterns by providing consistent estimates for the covariance tensor of the strain-rate field fluctuations in the matrix phase, which tend to become more strongly anisotropic for the pure shear case. As c increases, the shear bands are deflected by the randomly dispersed spheres leading to a more isotropic distribution of the stress and strain-rate fields, which is consistent with a weaker Lode angle effect. The estimates can also capture the effect of strong particle interactions, including the existence of a rigidity threshold where the macroscopic flow stress and field fluctuations blow up.本文关注的是由幂律粘塑性材料中刚性球形颗粒的随机和各向同性悬浮液组成的复合材料中应力场和应变率场分布的宏观行为和统计特征。为此,我们采用了完全优化二阶(FOSO)均质化方法(Ponte Castañeda, 2016),并结合最近开发的相关 "线性比较复合材料"(LCC)宏观特性的估计值(Kammer 和 Ponte Castañeda, 2022)。特别关注的是该方法能否解释非线性复合材料的均质化特性与所施加载荷的洛德角(第三不变量)之间的关系。研究发现,当颗粒体积分数 c 较大时,有效流动应力与洛德角的关系较弱,而当颗粒体积分数较小时,与洛德角的关系则更为明显。在理想塑性极限中,当 c 趋近于零时,对于轴对称剪切,有效屈服应力与 c 呈线性关系,而对于纯剪切加载,这种依赖性在 O(c/ln c)的非解析前阶修正下变得更弱。稀释浓度下对 Lode 角的这种强烈依赖性被证明是由于局部变形模式的显著差异造成的,在纯剪切条件下,局部变形变得强烈各向异性,而在轴对称剪切条件下则不然。反过来,FOSO 均质化方法能够捕捉到这些不同变形模式的统计特征,为矩阵相中应变率场波动的协方差张量提供一致的估计值,而在纯剪切情况下,这些应变率场波动往往变得更加强烈各向异性。随着 c 的增大,剪切带被随机分散的球体偏转,导致应力场和应变率场的分布更加各向同性,这与较弱的洛德角效应相一致。估计值还能捕捉到强粒子相互作用的影响,包括存在一个刚性阈值,在该阈值下宏观流动应力和场波动会爆发。Mechanics of MaterialsExplicating tensile response of AA6061-T6 sheet post single point incremental forming: Two camera-DIC strain measurement and texture analysisMohit Sharma, Anirban Bhattacharya, Surajit Kumar Pauldoi:10.1016/j.mechmat.2024.104963 解释单点增量成形后 AA6061-T6 板材的拉伸响应:双摄像头-DIC 应变测量和纹理分析Incremental sheet forming (ISF) produces 3D components imposing localized deformation by spherical-ended tool moving on a predefined path without requiring component-specific die/punch. The formability achieved in ISF is much higher than the conventional sheet forming processes; however, the deformation imposed during ISF alters the mechanical properties of the component. The present work investigates the tensile behavior and strain localization during the uniaxial tensile test of the AA6061-T6 component after single point incremental forming (SPIF). The influence of incremental depth (Δz) and tool diameter (dt) on the tensile response and strain localization is illustrated by a digital image correlation setup with two cameras. The tensile strength of SPIF components increases with Δz and mildly decreases with dt. The changes in scallop heights/undulations formed due to tool movement at higher Δz and dt influence the localized strain accumulation. Regions of localized strain are more when Δz is high, but strain accumulation is more even with an increase in dt. Texture analysis showed increased dislocation density due to the strain hardening after SPIF. The presence of brass {011}<211>, copper {112}<111>, and S {123}<634> texture indicates the plane-strain deformation in the wall region of the component formed by SPIF.增量式板材成形(ISF)通过在预定路径上移动的球形端部工具施加局部变形来生产三维部件,而无需特定的部件模具/冲头。ISF 所实现的成型性远远高于传统的板材成型工艺;然而,ISF 过程中施加的变形会改变部件的机械性能。本研究对单点增量成形(SPIF)后的 AA6061-T6 部件进行单轴拉伸试验时的拉伸行为和应变定位进行了研究。通过使用两台相机的数字图像相关装置,说明了增量深度(Δz)和工具直径(dt)对拉伸响应和应变定位的影响。SPIF 组件的拉伸强度随 Δz 增大,随 dt 减小。在较高的 Δz 和 dt 条件下,由于工具移动而形成的扇贝高度/凹陷的变化会影响局部应变的累积。当 Δz 较高时,局部应变区域较多,但随着 dt 的增加,应变累积更为均匀。纹理分析表明,由于 SPIF 后的应变硬化,位错密度增加。黄铜{011}<211>、铜{112}<111>和S{123}<634>纹理的存在表明 SPIF 所形成的部件壁区存在平面应变变形。Thin-Walled StructuresLinear active disturbance rejection control algorithm for active vibration control of piezo-actuated beams: theoretical and experimental studiesXian Guang Sun, Wei Chao Chi, Yan Qing Wangdoi:10.1016/j.tws.2024.111782压动梁主动振动控制的线性主动干扰抑制控制算法:理论与实验研究The active vibration control (AVC) of lightweight thin-walled structures on spacecraft has been a proven solution for vibration suppression. In this study, a linear active disturbance rejection control (LADRC) algorithm is presented for vibration suppression of piezo-actuated beams. Firstly, the governing equation of a piezo-actuated beam is obtained by using the Euler-Bernoulli beam theory and the Lagrange equation. The LADRC algorithm is designed for the piezo-actuated beam based on the governing equation. Then, the accuracy of the piezo-actuated beam model is confirmed by comparison with ANSYS and experiments. Finally, numerical simulations and experiments are carried out on the active vibration suppression of the piezo-actuated beam under the fixed harmonic excitation, variable harmonic excitation, and fixed harmonic excitation with measuring noise, respectively. The results show that the LADRC algorithm has an excellent control effect on structural vibration suppression, strong adaptability to various external excitations, and anti-noise ability.航天器轻质薄壁结构的主动振动控制(AVC)是一种行之有效的振动抑制解决方案。本研究针对压动梁的振动抑制提出了一种线性主动干扰抑制控制(LADRC)算法。首先,利用欧拉-伯努利梁理论和拉格朗日方程得到压动梁的支配方程。根据支配方程设计了压动梁的 LADRC 算法。然后,通过与 ANSYS 和实验的对比,确认了压动梁模型的准确性。最后,分别对固定谐波激励、可变谐波激励和带测量噪声的固定谐波激励下压动梁的主动振动抑制进行了数值模拟和实验。结果表明,LADRC 算法对结构振动抑制具有良好的控制效果,对各种外部激励具有较强的适应性和抗噪声能力。Vibration frequency and mode localization characteristics of strain gradient variable-thickness microplatesTao Deng, Bo Zhang, Juan Liu, Huoming Shen, Xu Zhangdoi:10.1016/j.tws.2024.111779应变梯度可变厚度微孔板的振动频率和模式定位特性Based on the modified strain gradient theory and Kirchhoff-Love assumptions, a free vibration model is established for variable-thickness microplates with three material length scale parameters, and the corresponding Euler-Lagrange equation is derived. Keeping the microplate volume constant, three kinds of thickness variations along the X-direction are considered: linear, parabolic, and cubic variations. Further, a C2-type four-node 36-degree-of-freedom variable-thickness differential quadrature finite element is developed to solve the resulting variable-coefficient boundary value problem by combining the Gauss-Lobatto and differential quadrature rules. Galerkin approximate solution for fully simply supported microplates is provided as a benchmark for numerical method verification. The convergence and accuracy of the model are verified through several examples. Finally, the vibration frequencies of the microplates under different thickness variation types, taper ratios, thickness ratios, material length scale parameters, and boundary conditions are examined through parametric analysis. Also, the influence of each factor on the mode localization of the microplates is quantitatively characterized by the modal assurance criterion (MAC) for the first time. The numerical results show that the thickness variation has a minor effect on the vibration frequency but a significant influence on the mode shape when the volume of the microplate is constant. The strain gradient, taper ratio, and discontinuous boundary have a remarkable effect on the distribution of higher-order mode shape contour lines and the regions where vibration localization occurs.基于修正的应变梯度理论和基尔霍夫-洛夫假设,建立了具有三个材料长度尺度参数的变厚度微板自由振动模型,并推导出相应的欧拉-拉格朗日方程。在保持微孔板体积不变的情况下,考虑了三种沿 X 方向的厚度变化:线性变化、抛物线变化和三次方变化。此外,一个 C2 型四节点 36 自由度可变厚度微分正交有限元,通过结合高斯-洛巴托规则和微分正交规则来解决由此产生的可变系数边界值问题。提供了完全简单支撑微板的 Galerkin 近似解作为数值方法验证的基准。通过几个实例验证了模型的收敛性和准确性。最后,通过参数分析研究了不同厚度变化类型、锥度比、厚度比、材料长度尺度参数和边界条件下微板的振动频率。同时,通过模态保证准则(MAC)首次定量分析了各因素对微板模态定位的影响。数值结果表明,当微孔板的体积不变时,厚度变化对振动频率的影响较小,但对模态振型的影响很大。应变梯度、锥度比和不连续边界对高阶模态振型轮廓线的分布和发生振动局部化的区域有显著影响。Enhancing the reliability of laser welded-brazed aluminum/stainless steel joints via laser-chemical hybrid surface texturingHaoyue Li, Hongbo Xia, Liqun Li, Longqiu Li, Xuan Su, Jin Peng, Yunwu Ma, Caiwang Tan, Xiaoguo Song, Tao Wudoi:10.1016/j.tws.2024.111780通过激光-化学混合表面纹理处理提高激光焊接-钎焊铝/不锈钢接头的可靠性Surface microtexture is a promising technique for enhancing the quality of heterogeneous joints. This study developed a novel surface texturing method to improve the reliability of laser welded-brazed aluminum/stainless steel joints. The method combined laser etching and chemical etching to create high-quality multi-scale surfaces with large grooves and small wrinkles. The designed microtexture promoted atomic transfer and induced the generation of nanoscale η-Fe2(Al,Si)5 phases during the welding-brazing process. It reduced the spreading activation energy along the groove direction, which enlarged the joining area. It also optimized the strain-stress distribution to enhance the deformation tolerance of the bonding interface throughout the structural strengthening mechanism. Through the synergistic regulation, the joint achieved a maximum line load of 495.9 N/mm, which was 61% higher than the untextured joint of 307.5 N/mm. The joint performance reached 95% of the Al/Al lap joint (519.3 N/mm) with the same welding parameters. This study provided new insights into the high-quality joining of aluminum/steel systems or other heterogeneous materials.表面微纹理是提高异质接头质量的一种有前途的技术。本研究开发了一种新型表面纹理处理方法,以提高激光焊接-钎焊铝/不锈钢接头的可靠性。该方法结合了激光蚀刻和化学蚀刻技术,可制造出具有大凹槽和小皱纹的高质量多尺度表面。设计的微纹理促进了原子转移,并在焊接-钎焊过程中诱导生成了纳米级的 η-Fe2(Al,Si)5 相。它降低了沿沟槽方向的扩展活化能,从而扩大了接合面积。它还优化了应变应力分布,在整个结构强化机制中提高了结合界面的变形容限。通过协同调节,接头的最大线荷载达到了 495.9 牛顿/毫米,比无纹理接头的 307.5 牛顿/毫米高出 61%。在相同的焊接参数下,接头性能达到了铝/铝搭接接头(519.3 N/mm)的 95%。这项研究为铝/钢系统或其他异质材料的高质量焊接提供了新的见解。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