首页/文章/ 详情

【新文速递】2023年11月4日固体力学SCI期刊最新文章

18天前浏览661

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

Journal of the Mechanics and Physics of Solids

Coexistence of five domains at single propagating interface in single-crystal Ni-Mn-Ga Shape Memory Alloy

Zhang Chengguan, Balandraud Xavier, He Yongjun

doi:10.1016/j.jmps.2023.105481

单晶 Ni-Mn-Ga 形状记忆合金中单个传播界面上的五个畴共存

Coexistence of both austenite and martensite during phase transformation is a common feature of all Shape Memory Alloys (SMAs). The martensite has different variants featuring characteristic deformations rotationally linked to each other due to the symmetries of the austenite parent phase, and the martensite variants can form twins with different mean characteristic deformations. Multiple-domain microstructures (consisting of austenite, martensite twins and individual martensite variants) evolve collectively within an SMA sample during the phase transformation, contributing thus to the material's macroscopic response (e.g., its global deformation). Particularly, the multiple domains can exist at the diffuse austenite-martensite interface nucleating and propagating in a single crystal in certain conditions. This implies an energy barrier for this interfacial structure, influencing the interface kinetics and the driving force (energy dissipation) of the phase transformation. In this paper, we report an experimentally observed interface consisting of five domains (austenite, one martensite variant and three twins) in a Ni-Mn-Ga single-crystal initially consisting of one martensite variant and subjected to a uniaxial thermal gradient. The compatibility analysis (performed from the characteristic strains of the three martensite variants having approximately a tetragonal symmetry) reveals that the five-domain interface is not a perfectly compatible pattern like the basic habit plane (consisting of only one twin compatible with austenite). However, its level of non-compatibility is similar to that of the quite common X-interface (four-domain coexistence) which is observed in many SMAs. Further, the significant effects of the thermal loading path and the material initial state (the initial martensite variant) on the domain pattern formation are demonstrated and analyzed. The experimental observation and the theoretical analysis of the domain patterns can provide hints to better understand diffuse interface kinetics and phase transformation hysteresis.

相变过程中奥氏体和马氏体共存是所有形状记忆合金(SMA)的共同特征。由于奥氏体母相的对称性,马氏体具有不同的变体,这些变体具有相互关联的旋转变形特征,而马氏体变体可以形成具有不同平均特征变形的孪晶。在相变过程中,多域微结构(由奥氏体、马氏体孪晶和单个马氏体变体组成)在 SMA 样品中共同演化,从而对材料的宏观响应(如整体变形)做出贡献。特别是,在某些条件下,多晶畴可能存在于弥散奥氏体-马氏体界面,并在单晶中成核和传播。这意味着这种界面结构存在能量障碍,影响界面动力学和相变的驱动力(能量耗散)。在本文中,我们报告了实验观察到的一个界面,该界面由五个畴(奥氏体、一个马氏体变体和三个孪晶)组成,最初由一个马氏体变体组成的镍锰镓单晶受到单轴热梯度作用。相容性分析(根据近似四方对称的三个马氏体变体的特征应变进行)显示,五域界面并不像基本习性面(仅由一个与奥氏体相容的孪晶组成)那样是一个完全相容的模式。不过,其不相容程度与许多 SMA 中常见的 X 接口(四域共存)相似。此外,还证明并分析了热加载路径和材料初始状态(初始马氏体变体)对畴型形成的重要影响。畴型的实验观察和理论分析为更好地理解扩散界面动力学和相变滞后提供了提示。


Mechanics of Materials

Atomistic and continuum study of interactions between super-screw dislocations and coherent twin boundaries in L12-structured Ni3AI

Wang Peng, Xu Fei, Wang Yiding, Song Jun, Chen Cheng

doi:10.1016/j.mechmat.2023.104848

L12结构Ni3AI中超螺位错与相干孪晶边界之间相互作用的原子论和连续统研究

Informed by previous experimental observations, this study employed a combination of molecular dynamics simulations and dislocation continuum theory to investigate the interplay of super-screw dislocations and coherent twin boundary (CTB) in Ni3Al. The results reveal multiple interaction mechanisms depending on both the applied stress and the pathway for dislocation gliding. A continuum model framework has been developed to quantitatively evaluate the critical shear stress necessary for the CTB to accommodate dislocations along different pathway with the effects of anti-phase boundary (APB) and Complex Stacking fault (CSF) considered. The critical shear stress exhibits a significant inverse dependence on the quantity of dislocations, rendering it unsuitable as a measure of twin boundary strength. Instead, the resistant force of the CTB against all gliding dislocations is suggested as a more appropriate metric for quantifying its strength. This enables a direct comparison of the twin boundary strength between Ni and Ni3Al containing different amounts of Shockley dislocations, thereby extending its applicability to a wider range of materials. Our work offers new mechanistic insights critical for understanding and quantitative analysis of the interplay of super-dislocations and micro twining in nickel-based superalloys.

根据先前的实验观察结果,本研究结合分子动力学模拟和位错连续理论,研究了镍3Al中超级螺钉位错和相干孪晶边界(CTB)的相互作用。研究结果揭示了取决于外加应力和位错滑行路径的多种相互作用机制。在考虑了反相边界(APB)和复杂堆积断层(CSF)的影响后,建立了一个连续模型框架,用于定量评估 CTB 沿不同路径容纳差排所需的临界剪切应力。临界剪应力与位错数量呈显著的反向依赖关系,因此不适合用来衡量孪晶边界强度。相反,CTB 对所有滑动位错的抵抗力被认为是量化其强度的更合适指标。这样就能直接比较含有不同数量肖克利位错的镍和镍3Al之间的孪晶边界强度,从而将其适用范围扩展到更广泛的材料。我们的研究为理解和定量分析镍基超合金中超位错和微孪晶的相互作用提供了新的机理见解。


Effect of shell thickness on mechanical behavior of Al/Ti core-shell nanowires during three-point bending and unloading

Ding Yi, Gao Tinghong, Liu Yutao, Song Han, Chen Qian, Xiao Qingquan, Xie Quan

doi:10.1016/j.mechmat.2023.104853

壳厚度对铝/钛核壳纳米线在三点弯曲和卸载过程中机械行为的影响

The molecular dynamics models of Al and Al/Ti core-shell nanowires (NWs) are established using the large-scale atomic/molecular massively parallel simulator (LAMMPS) to simulate the loading and unloading of the three-point bending of NWs and to investigate the effect of Ti shell thickness on the mechanical behavior of core-shell NWs during loading and unloading. The results show that the Ti shell thickness considerably affects the mechanical properties of the NWs during the bending process. As the shell thickness of the NWs increases from 0 Å to 10 and 20 Å, their Young's moduli and yield strength first decreases and then increases; this is attributed to the unique evolution of the core-shell structure during the bending process. When the shell thickness is 0 Å, the yielding mechanism of the Al NWs involves the slip of the face-centered cubic (FCC) lattice plane to generate the hexagonal close-packed (HCP) stacking fault. During the subsequent plastic deformation, the FCC lattice plane continues to slip, resulting in the generation and annihilation of Shockley dislocations and HCP stacking faults. Finally, the Al NWs become completely amorphous at the cross section at the midpoint. The yielding mechanism of core-shell NWs involves the plastic deformation of the Ti shell at the bottom of the NW, followed by the continuous outward expansion of the plastic deformation region with increasing loading; this leads to the formation of a fan-shaped region at the bottom of the NW. Finally, the NWs are divided into different components according to their structure and atomic energy, and the driving force for each component during NW unloading is determined. Moreover, the strengthening effect of the shell thickness on the recovery performance of the NWs is investigated. The results show that Body Al provides the main driving force for the shape recovery of Al NW during the unloading process, and Surface Ti and Body Ti provide the main driving force for the shape recovery of the core-shell NWs. Larger the shell thickness, stronger the NW recovery performance during unloading. This study may facilitate the understanding of the unique mechanical behavior of the core-shell NWs.

利用大规模原子/分子大规模并行模拟器(LAMMPS)建立了Al和Al/Ti核壳纳米线(NWs)的分子动力学模型,模拟了NWs三点弯曲的加载和卸载过程,并研究了Ti壳厚度对核壳NWs在加载和卸载过程中力学行为的影响。结果表明,在弯曲过程中,Ti 壳厚度对 NWs 的力学性能有很大影响。当 NWs 的壳厚度从 0 Å 增加到 10 Å 和 20 Å 时,其杨氏模量和屈服强度先减小后增大;这归因于弯曲过程中核壳结构的独特演变。当壳厚度为 0 Å 时,Al NWs 的屈服机制涉及面心立方(FCC)晶格面的滑移,从而产生六方紧密堆积(HCP)堆积断层。在随后的塑性变形过程中,FCC 晶格面继续滑移,导致肖克利位错和 HCP 堆积断层的产生和湮灭。最后,Al NWs 在中点的横截面上完全非晶化。核壳氮氧化物的屈服机制是氮氧化物底部的钛壳发生塑性变形,然后塑性变形区域随着载荷的增加不断向外扩展,这导致氮氧化物底部形成扇形区域。最后,根据 NW 的结构和原子能量将其分为不同的成分,并确定了 NW 卸载过程中各成分的驱动力。此外,还研究了外壳厚度对 NW 恢复性能的强化作用。结果表明,在卸载过程中,主体 Al 为 Al NW 的形状恢复提供了主要驱动力,而表面 Ti 和主体 Ti 则为核壳 NW 的形状恢复提供了主要驱动力。壳的厚度越大,NW 在卸载过程中的恢复性能越强。这项研究有助于理解核壳 NW 的独特力学行为。


Thin-Walled Structures

Elastic Local Buckling Coefficients of I-shaped Beams considering Flange–Web Interaction

Lee Jeonghwa, Kang Young Jong

doi:10.1016/j.tws.2023.111325

考虑翼缘-腹板相互作用的工字形梁的弹性局部屈曲系数

Since using high–strength and high–performance steels has become a more common structural design practice in building and bridge construction, there is an increased potential for designing extremely thin-walled I-shaped beam members to enhance the efficiency of the steel beam design. For a more accurate design approach for these thin-walled I-beam members, particularly when they are near noncompact limits, it is necessary to explore more rational methods for determining the elastic local buckling strength of I-beams. This study aimed to investigate the local buckling behavior and strength of I-shape structural sections by considering flange-web interactions through three-dimensional finite element analysis. The goal was to provide a more reasonable estimation of local buckling strength under uniform bending. To evaluate the local buckling behavior of flange and web panels and explain it reasonably, this study adopted the ratio of flange-web slenderness (λf/λw) and height-to-width ratio (H/bf) of I-shaped beams which can affect buckling mode shapes and local buckling strength of I-shaped beams induced by flange local and web bend bucklings. Finally, this study presented design equations for both flange local and web-bend buckling coefficients considering λf/λw and H/bf. It was expected that the presented local buckling coefficients (kf) for flanges and webs could lead to a more reasonable design, as compared to the existing AISC design provisions.

由于在建筑和桥梁施工中使用高强度和高性能钢材已成为一种更为普遍的结构设计做法,因此设计极薄壁工字钢构件以提高钢梁设计效率的可能性越来越大。为了更准确地设计这些薄壁工字梁构件,特别是当它们接近非紧凑极限时,有必要探索更合理的方法来确定工字梁的弹性局部屈曲强度。本研究旨在通过三维有限元分析,考虑翼缘-腹板相互作用,研究工字形结构截面的局部屈曲行为和强度。目的是更合理地估算均匀弯曲下的局部屈曲强度。为了评估翼缘板和腹板的局部屈曲行为并对其进行合理解释,本研究采用了工字形梁的翼缘-腹板细长比 (λf/λw) 和高宽比 (H/bf),它们会影响由翼缘局部屈曲和腹板弯曲屈曲引起的工字形梁的屈曲模态形状和局部屈曲强度。最后,本研究提出了考虑到 λf/λw 和 H/bf 的翼缘局部屈曲系数和腹板弯曲屈曲系数的设计方程。与现有的 AISC 设计规定相比,所提出的法兰和腹板局部屈曲系数 (kf) 预计能带来更合理的设计。


On strain rate effect and high-velocity impact behavior of carbon fiber reinforced laminated composites

Zhang Nan, Qian Xueguang, Zhang Qi, Zhou Guangming, Xuan Shanyong, Wang Xiaopei, Cai Deng'an

doi:10.1016/j.tws.2023.111328

碳纤维增强层压复合材料的应变率效应和高速冲击行为

In this paper, the tensile and in-plane shear behaviors of carbon fiber reinforced laminated composites (CFRLCs) under high strain rate loading were experimentally investigated. The strain and damage processes of the specimens were obtained using the Digital Image Correlation (DIC) method and a high-velocity camera. Quasi-static test results were used as the control group for obtaining the dynamic correction factors of the material system under high strain rate conditions. In addition, high-velocity impact (HVI) tests with different impact velocities and angles were conducted on CFRLCs. The dynamic correction factors were used in HVI simulations to consider the effect of strain rate. The energy absorption mechanisms and failure modes of laminates under different impact conditions were analyzed using testing and simulated results. It is found that during the HVI, matrix tension and fiber tension failures are the main failure modes. The energy absorbed by the laminate in oblique impact is larger than the one in normal impact. The possible reason is that the increase rate of the damage area with the four failure modes in oblique impact is larger than the one in normal impact.

本文通过实验研究了碳纤维增强层状复合材料(CFRLC)在高应变速率加载下的拉伸和平面剪切行为。采用数字图像相关(DIC)方法和高速相机获取了试样的应变和损伤过程。准静态试验结果作为对照组,用于获得高应变速率条件下材料系统的动态修正系数。此外,还对 CFRLC 进行了不同冲击速度和角度的高速冲击(HVI)试验。在 HVI 模拟中使用了动态修正系数,以考虑应变率的影响。利用试验和模拟结果分析了不同冲击条件下层压板的能量吸收机制和破坏模式。结果发现,在高冲击强度下,基体拉伸和纤维拉伸破坏是主要的破坏模式。层压板在斜面冲击下吸收的能量大于正常冲击下吸收的能量。可能的原因是斜向冲击中四种破坏模式的破坏面积增加率大于正常冲击中的破坏面积增加率。



来源:复合材料力学仿真Composites FEM
ACTMechanicalSystemDeform复合材料建筑ADS理论材料分子动力学试验
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:2024-11-03
最近编辑:18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】2023年11月6日复合材料SCI期刊最新文章

今日更新:Composite Structures 12 篇,Composites Part A: Applied Science and Manufacturing 1 篇Composite StructuresTorsional mechanical properties and damage mechanism of glass fiber-ramie hybrid circular tubeKe Jun, Liu Li-jie, Wu Zhen-yu, Le Zhong-ping, Bao Luo, Luo Dong-weidoi:10.1016/j.compstruct.2023.117680玻璃纤维-拉米混合圆管的扭转力学性能和损伤机理Compared with other green natural fibers, ramie has higher mechanical properties and lower cost. In this study, ramie and glass fiber are made into composite circular tubes by two-dimensional braiding, and their torsional mechanical properties and damage mechanisms are investigated. The results show that under the unit wall thickness, compared with the pure glass fiber circular tube, the maximum torsion angle of the hybrid circular tube with ramie and glass fiber spindle ratio of 1:3 increases by 78%, the weight is reduced by 22%, the cost is reduced by 14%, the maximum torque is increased by 10% and the torsional stiffness is reduced by 18.75%. When the loading direction is the same as the implantation direction with more glass fiber content, the failure is caused by buckling. When the loading direction is the same as the implantation direction with more ramie content, the failure is caused by matrix fracture or fiber fracture. The numerical simulation results of the damage model are consistent with the experimental data and the damage morphology, which verifies the effectiveness of the finite element model. These conclusions provide a reference for the engineering application of composite circular tubes with environmental protection, lightweight and anti-torsion failure ability.与其他绿色天然纤维相比,苎麻具有更高的机械性能和更低的成本。本研究将苎麻和玻璃纤维通过二维编织制成复合圆管,并对其扭转力学性能和损伤机理进行了研究。结果表明,在单位壁厚条件下,与纯玻璃纤维圆管相比,苎麻与玻璃纤维主轴比为 1:3 的混合圆管的最大扭转角增加了 78%,重量减轻了 22%,成本降低了 14%,最大扭矩增加了 10%,扭转刚度降低了 18.75%。当加载方向与玻璃纤维含量较多的植入方向相同时,破坏是由屈曲引起的。当加载方向与植入方向相同且苎麻含量较多时,破坏是由基体断裂或纤维断裂引起的。损伤模型的数值模拟结果与实验数据和损伤形态一致,验证了有限元模型的有效性。这些结论为具有环保、轻质和抗扭转破坏能力的复合材料圆管的工程应用提供了参考。Free vibration characteristics of integrated fluted-core composite sandwich cylindersLi Xinyu, Zhang Hao, Yang Haiyang, Luo Junrong, Xiao Zhongmin, Lei Hongshuaidoi:10.1016/j.compstruct.2023.117691 集成凹槽夹芯复合材料圆柱体的自由振动特性Due to their excellent mechanical properties and inherent design versatility, fluted-core composite sandwich structures have gained substantial attention in aerospace and rail transit applications. This study investigated the free-vibration characteristics of composite fluted-core sandwich cylinders. Theoretical models were established following the Rayleigh-Ritz method to predict the natural frequencies of sandwich cylinders under free vibration. The representative cylindrical specimens were prepared using carbon fiber-reinforced plastics (CFRP) and integrated forming co-cured method. To analyze the additional effects of cutouts on vibration performance, specimens with circular cutouts were also fabricated. The vibration tests were performed to determine the natural frequencies and modal shapes under free-free boundary conditions. Validated finite element simulations were employed to assess the accuracy of theoretical results and investigate the influences of geometric parameters on the structural vibration behavior. The results indicated that circumferential lobar modes characterized the first five mode shapes. Significant enhancements were attained by increasing the structural stiffness through adjustments in the circumferential cell number, core-ribs thickness, or size of cutouts. However, when the structural stiffness increases beyond a certain threshold, it has limited effect on the vibration frequencies. The findings provided a comprehensive understanding of the vibration characteristics and optimized design of fluted-core sandwich cylinders.由于具有优异的机械性能和固有的设计多功能性,凹槽芯复合材料夹层结构在航空航天和轨道交通应用中得到了广泛关注。本研究调查了复合材料凹槽夹芯圆柱体的自由振动特性。采用雷利-里兹法建立了理论模型,以预测夹层圆柱体在自由振动下的固有频率。使用碳纤维增强塑料(CFRP)和集成成型共固化方法制备了具有代表性的圆柱形试样。为了分析切口对振动性能的额外影响,还制作了带有圆形切口的试样。振动测试用于确定自由边界条件下的固有频率和模态振型。为了评估理论结果的准确性,并研究几何参数对结构振动行为的影响,采用了经过验证的有限元模拟。结果表明,圆周叶状模态是前五种模态振型的特征。通过调整圆周单元数、芯肋厚度或切口尺寸来增加结构刚度,可以显著提高振动性能。然而,当结构刚度增加超过一定临界值时,对振动频率的影响有限。研究结果为凹槽夹芯圆柱体的振动特性和优化设计提供了全面的理解。Optimal thickness distribution design for blending composite laminates using buckling factor predictionHuynh Thanh N., Lee Jaehongdoi:10.1016/j.compstruct.2023.117693利用屈曲因子预测混合复合材料层压板的最佳厚度分布设计This article introduces a two-stage optimization approach for finding optimal blended composite laminate designs where the optimal thickness distribution is predicted based on determined stacking sequences. At each iteration, the stacking sequences are first optimized and then utilized as inputs to predict the optimal regional thicknesses through CNN-based regional buckling factor prediction. By predicting the optimal thicknesses, the proposed process simplifies the highly constrained mixed-variable blending optimization problem, expands its option space, and reduces the number of design variables, all of which improve the combinatorial optimization efficiency. An integration of the proposed approach with a design guideline-based Genetic Algorithm is presented. The approach is applied to solve an 18-panel benchmark blending problem, the acquired solutions are compared with those of previous studies in the literature. The obtained result highlights the significant enhancement in performance of the integrated method.本文介绍了一种用于寻找最佳混合复合材料层压板设计的两阶段优化方法,根据确定的堆叠顺序预测最佳厚度分布。在每次迭代中,首先优化堆叠序列,然后将其作为输入,通过基于 CNN 的区域屈曲因子预测来预测最佳区域厚度。通过预测最佳厚度,所提出的流程简化了高度受限的混合变量混合优化问题,扩大了其选项空间,并减少了设计变量的数量,所有这些都提高了组合优化效率。本文介绍了建议方法与基于设计准则的遗传算法的整合。该方法被应用于解决一个 18 面板基准混合问题,所获得的解决方案与之前文献中的研究进行了比较。结果表明,集成方法的性能显著提高。Strength and manufacturability enhancement of a composite automotive component via an integrated finite element / artificial neural network multi-objective optimization approachHenrique Fonseca João, Jang Woojung, Han Dosuck, Kim Naksoo, Lee Hyungyildoi:10.1016/j.compstruct.2023.117694通过综合有限元/人工神经网络多目标优化方法提高汽车复合材料部件的强度和可制造性This study addresses the enhancement of an injection-molded fiber-reinforced plastic / metal hybrid automotive structure and its plastic injection molding process through the integration of the finite element method, artificial intelligence and evolutionary search methods. Experiments are conducted to validate the finite element models. The orthogonal array and Latin hypercube methods are employed to generate a database via finite element analysis. The database is then used to train artificial neural networks that accurately evaluate component distortion, manufacturing time, and structural strength. A genetic optimization algorithm is applied to identify optimal process parameters. The procedure was demonstrated to simultaneously reduce product warpage and manufacturing time by 10 and 62 %, respectively, when compared with the reference manufacturing process while strength is kept above the required levels with a reduced number of required data points. A more in-depth investigation into the causes of strength variation and deformation is also provided. The results contribute to the advance of robust composite automotive structures with superior quality, manufactured through efficient processes.本研究通过整合有限元方法、人工智能和进化搜索方法,对注塑成型的纤维增强塑料/金属混合汽车结构及其注塑成型工艺进行改进。实验验证了有限元模型。采用正交阵列法和拉丁超立方法通过有限元分析生成数据库。然后利用该数据库训练人工神经网络,以准确评估部件变形、制造时间和结构强度。遗传优化算法用于确定最佳工艺参数。结果表明,与参考制造流程相比,该流程可同时将产品翘曲和制造时间分别减少 10% 和 62%,同时在减少所需数据点数量的情况下将强度保持在所需水平之上。此外,还对强度变化和变形的原因进行了更深入的研究。这些结果有助于推动通过高效工艺制造出质量上乘的坚固复合材料汽车结构。Formation of non-uniform fibre distribution and its effect on the flexural performance of pultruded GFRP box beamsQi Songming, Alajarmeh Omar, Alhawamdeh Mohammad, Shelley Tristan, Schubel Peter, Rendle-Short Kendric, Zeng Xuesendoi:10.1016/j.compstruct.2023.117695 非均匀纤维分布的形成及其对拉挤 GFRP 箱形梁弯曲性能的影响This study investigates the effect of non-uniform fibre distribution (NUFD) as a defect in the pull-winding manufacturing process on the mechanical properties of pultruded glass fibre-reinforced polymer (GFRP) box section profiles. These profiles exhibit balanced mechanical properties but are susceptible to NUFD during production, negatively affecting local buckling capacity. Experimental and numerical analyses were conducted on pultruded GFRP profiles manufactured under three winding tension configurations, resulting in a 5% variance in load capacity during bending. Results show that corner NUFD influences local buckling capacity more than flange NUFD. Specifically, corner NUFD decreases load capacity by up to 20%, while flange NUFD increases it by up to 3%. Conversely, the effect of NUFD location is insignificant to the failure determined by the material strength without buckling instability. Moreover, a linear relationship between the rotational restraint coefficient and corner fibre volume fraction provides insight into the impact of material imperfections on load capacity.本研究调查了非均匀纤维分布(NUFD)这一拉卷制造过程中的缺陷对拉挤玻璃纤维增强聚合物(GFRP)箱型材机械性能的影响。这些型材具有均衡的机械性能,但在生产过程中容易出现 NUFD,对局部屈曲能力产生负面影响。我们对在三种缠绕张力配置下生产的拉挤 GFRP 型材进行了实验和数值分析,结果显示弯曲时的负载能力差异为 5%。结果表明,转角 NUFD 比凸缘 NUFD 对局部屈曲能力的影响更大。具体来说,角部无损探伤最多会降低 20% 的承载能力,而凸缘无损探伤最多会提高 3%。相反,NUFD 位置的影响对于由材料强度决定的无屈曲不稳定性的失效并不明显。此外,旋转约束系数与边角纤维体积分数之间的线性关系有助于深入了解材料缺陷对承载能力的影响。Manufacturing and characterization of an interpenetrating metal matrix composite reinforced with a 3D-printed metallic glass lattice structure (Ni60Nb20Ta20)Dittmann Kerstin, Trauth Anna, André Weidenmann Kaydoi:10.1016/j.compstruct.2023.117697用 3D 打印金属玻璃晶格结构(Ni60Nb20Ta20)增强的互穿金属基复合材料的制造与表征Metallic glasses (MG) exhibit remarkable properties, like high strength, hardness, and elastic strain limit due their amorphous structure. But they also exhibit low ductility and brittle behavior, making them less suitable for monolithic components. Therefore, MG offer high potential for use as a reinforcing phase in a ductile matrix. Especially interpenetrating metal matrix composites (MMCs) are suitable, since good interfacial adhesion can be achieved due to the metallic character of the MG and mechanical properties can be further enhanced by the interpenetrating structure. Temperature during manufacturing process must be below crystallization temperature of the MG. Until now, interpenetrating MMCs have been manufactured by infiltrating the metal matrix foam with MG, requiring a high melting temperature of the matrix and thus excludes lightweight metals. In this work it was possible to infiltrate an open porous lattice structure of MG (Ni60Nb20Ta20) due to its high crystallization temperature with AlSi12 by gas pressure infiltration resulting in a novel MMC. X-ray diffraction measurements confirm that no crystallization occurred during infiltration. Micrographs show a good infiltration quality and interfacial bonding between both phases. An increase in Young's modulus of 28% and compressive strength in the MMC can be achieved compared to the AlSi12-matrix.金属玻璃(MG)因其无定形结构而具有高强度、硬度和弹性应变极限等显著特性。但它们也表现出低延展性和脆性,因此不太适合用于整体元件。因此,MG 作为韧性基体中的增强相具有很大的应用潜力。特别是互穿金属基复合材料(MMC),因为 MG 的金属特性可以实现良好的界面粘附性,互穿结构可以进一步提高机械性能。制造过程中的温度必须低于 MG 的结晶温度。迄今为止,互穿式 MMC 都是通过在金属基泡沫塑料中渗入 MG 来制造的,这要求基体具有较高的熔化温度,因此不包括轻质金属。在这项工作中,由于 MG(Ni60Nb20Ta20)的结晶温度较高,因此可以通过气压渗透将其与 AlSi12 一起渗透到开放多孔晶格结构中,从而制造出新型 MMC。X 射线衍射测量证实,在浸润过程中没有发生结晶。显微照片显示,两相之间的浸润质量和界面结合良好。与 AlSi12 基质相比,MMC 的杨氏模量和抗压强度提高了 28%。Concurrent stacking sequence and layout optimization of stiffened composite plates using a spectral element method and an index-based optimization techniqueAlan Salih, Shaban Nefize, Sendur Gullu Kiziltas, Bediz Bekirdoi:10.1016/j.compstruct.2023.117698使用谱元法和基于指数的优化技术同时优化加劲复合板的堆叠顺序和布局Stiffened composite panels are increasingly used in aerospace, marine, and automotive industries due to their lightweight and high-strength properties. However, determining the optimal stacking sequence and/or layout of stiffeners concurrently while adhering to manufacturing guidelines and empirical rules is challenging. To address this issue, we propose a novel one-step optimization framework that couples a highly accurate and computationally efficient spectral element modeling technique with an index-based optimization approach that inherently satisfies the manufacturing guideline and empirical rules. Spectral element modeling (SEM) combines the high accuracy of spectral (meshless) methods with the geometric flexibility of finite element methods. To determine the optimal design, an index-based optimization is proposed to decrease the number of design variables and remove the constraints. We demonstrated the accuracy and computational performance of SEM with results obtained by finite element analysis on composite laminates with and without a cutout. Finally, we applied the proposed optimization framework to various stiffened composite (balanced and symmetric) laminates of up to 200 plies to demonstrate its capability and efficiency.由于具有轻质高强的特性,加劲复合板越来越多地应用于航空航天、船舶和汽车行业。然而,在遵守制造准则和经验规则的同时,确定加劲件的最佳堆叠顺序和/或布局极具挑战性。为解决这一问题,我们提出了一种新颖的一步优化框架,该框架将高精度、高计算效率的谱元建模技术与基于索引的优化方法结合起来,从本质上满足了制造准则和经验规则。谱元建模(SEM)结合了谱(无网格)方法的高精度和有限元方法的几何灵活性。为了确定最佳设计,我们提出了一种基于指数的优化方法,以减少设计变量的数量并消除约束。我们通过对有切口和无切口的复合材料层压板进行有限元分析所获得的结果,证明了 SEM 的准确性和计算性能。最后,我们将提出的优化框架应用于多达 200 层的各种加劲复合材料(平衡和对称)层压板,以证明其能力和效率。Post-Buckling Behavior and Collapse of Double-Double Composite Single Stringer SpecimensVescovini A., Li C.X., Paz J., Jin B., Manes A., Bisagni C.doi:10.1016/j.compstruct.2023.117699双层复合单弦杆试件的屈曲后行为和坍塌This paper presents the work on six single-stringer specimens manufactured using the card-sliding technique with non-crimp fabrics and adopting a Double-Double (DD) stacking sequence. These specimens, representative of sub-structure level components, are used to investigate post-buckling and failure in aerospace structures. Two specimens maintain a constant thickness cross-section, while four are tapered, two of which incorporate a Teflon insert in the stringer flange. All specimens are tested under compression loading conditions, inducing skin buckling, skin-stringer separation, and eventual collapse. Numerical simulations are validated by experimental results and serve to analyze the specimens behavior and the failure mode. The load versus displacement curves of both experimental tests and Finite Element Method (FEM) analyses are compared, along with the out-of-plane displacement field. Subsequently, the observed failure modes are discussed, focusing on the various mechanisms that occurred and considering the impact of flanges and stiffener tapering. Both the FEM simulations and experimental tests demonstrate good agreement, with the flanges tapering revealing notable results. This offers promising evidence of a viable solution to optimize aeronautical structures and enhance resistance to skin-stringer separation.本文介绍了采用无皱织物的卡片滑动技术和双倍(DD)堆叠顺序制造的六个单弦试样。这些试样代表子结构级部件,用于研究航空航天结构的后屈曲和失效。两个试样保持恒定厚度的横截面,四个试样为锥形,其中两个试样在支撑翼缘中加入了特氟龙插入物。所有试样均在压缩加载条件下进行测试,以诱发蒙皮屈曲、蒙皮-弦杆分离和最终坍塌。实验结果对数值模拟进行了验证,并对试样的行为和破坏模式进行了分析。比较了实验测试和有限元法(FEM)分析的载荷与位移曲线以及平面外位移场。随后,对观察到的失效模式进行了讨论,重点是发生失效的各种机理,并考虑了法兰和加劲件锥度的影响。有限元模拟和实验测试均显示出良好的一致性,其中法兰锥度的结果尤为显著。这为优化航空结构和提高抗蒙皮弦杆分离能力提供了可行的解决方案。A Dovetail Core Design for Joints in Composite Sandwich StructuresAqel Rawan, Severson Patrick, Elhajjar Ranidoi:10.1016/j.compstruct.2023.117700复合材料夹层结构接缝的燕尾芯设计The increase in the size of composite sandwich structures requires the introduction of core splices to join various segments. In this study, a novel core splice joint configuration is studied and proposed for composite sandwich structures of thick aluminum-based honeycomb core and facesheets made from carbon fibers and epoxy matrix. Experimental and numerical efforts investigate the impact of dovetail joints with different tenon angles on the auxiliary behavior of composite sandwich structures. The results are compared to conventional or straight-core splices without dovetail features. The core-splice interaction with the complete mechanical behavior of the system was assessed by subjecting the fabricated specimens to combinations of bending and shear forces. Additionally, 3D-finite element models compared normal and shear stresses in the splice material and the core/splice interface among the dovetail configurations considered. The study shows that depending on the dovetail joint detail, an ultimate strength increase between 13 to 51% is achieved compared to the strength from currently used straight joints. In terms of toughness, the dovetail specimens show a 2% to 35% higher toughness compared to the standard straight joints.随着复合材料夹层结构尺寸的增大,需要采用芯材拼接来连接各个部分。本研究针对由厚铝基蜂窝芯材和由碳纤维及环氧基质制成的面材组成的复合材料夹层结构,研究并提出了一种新型芯材拼接接头结构。实验和数值研究了不同榫角的燕尾接头对复合材料夹层结构辅助行为的影响。实验结果与传统或无燕尾槽的直芯拼接进行了比较。通过对制作的试样施加弯曲力和剪切力组合,评估了芯材拼接与系统整体机械行为的相互作用。此外,三维有限元模型还比较了所考虑的燕尾槽配置中拼接材料和芯材/拼接界面的法向应力和剪切应力。研究结果表明,根据燕尾接头细节的不同,与目前使用的直接头相比,其极限强度可提高 13% 至 51%。在韧性方面,与标准直接头相比,燕尾槽试样的韧性提高了 2% 至 35%。Form-finding of elastic gridshell based on spatial elastica modelWANG Xianheng, CHEN Cong, ZHANG Jinsong, QIU Xinmingdoi:10.1016/j.compstruct.2023.117653基于空间弹性模型的弹性网格壳的形状确定In engineering design, elastic gridshells, which are composed of a number of elastic rods, are advantageous because they are lightweight, easy to construct, and low-cost as well as have a long-span space. However, the form-finding of a gridshell is challenging owing to the large deformation and strong geometric-nonlinearity of the structure. In this paper, a new form-finding method based on spatial elastica model (FMSE) is proposed. The deformations of elastic rods, obtained via the elliptic integral solution of spatial elastica, is integrated into the overall deformation of the gridshell. A set of transcendental equations is solved using the quasi-Newton method to ensure that the deformation of the gridshell satisfies the given boundary conditions. To validate the proposed FMSE method, desktop experiments (designed using the theory of Chebyshev nets) are performed on gridshells made of glass fiber reinforced polymer rods. The predictions of the FMSE method agree well with the experimental results. Accordingly, the proposed FMSE method is expected to have potential applications in elastic gridshells, on the investigations of form-finding, load-bearing capability, non-local deformation behavior, and also stability of structures.在工程设计中,由许多弹性杆组成的弹性栅壳具有重量轻、易于建造、成本低以及跨度空间大等优点。然而,由于网格壳结构的大变形和强几何非线性,网格壳的形状搜索具有挑战性。本文提出了一种基于空间弹性模型(FMSE)的全新找形方法。通过空间弹性椭圆积分求解得到的弹性杆的变形被整合到网格壳的整体变形中。使用准牛顿法求解一组超越方程,以确保网格壳的变形满足给定的边界条件。为了验证所提出的 FMSE 方法,在玻璃纤维增强聚合物棒制成的网格壳上进行了桌面实验(利用切比雪夫网理论设计)。FMSE 方法的预测结果与实验结果非常吻合。因此,所提出的 FMSE 方法有望应用于弹性网格壳,研究结构的寻形、承载能力、非局部变形行为以及稳定性。Design and optimization of the dual-functional lattice-origami metamaterialsJiang Tengjiao, Han Sihao, Han Qiang, Li Chunleidoi:10.1016/j.compstruct.2023.117670双功能晶格原形超材料的设计与优化This study proposes a multi-scale composite lattice-origami metamaterial (MCLOM) to achieve excellent bandgap characteristics and energy absorption capacities. The MCLOMs are constructed by considering the high impedance mismatch of lattice structures, the spatial deformability of origami structures, and the tunability of the components in multi-scale composite materials. Firstly, elastic wave propagation characteristics are analyzed in the Bloch wave framework, revealing the realization of complete bandgaps and their generation mechanism by mode shape analysis and transmission spectrum. Subsequently, an optimization framework integrating the particle swarm optimization (PSO) algorithm is developed to maximize the first bandgap’s bandwidth by adjusting various component parameters. Under optimal distribution, the proposed metamaterials achieve remarkable improvements of 289% and 271% in the design objectives of two lattice-origami metamaterials with 90° dihedral angle compared to the initial distribution. It can be demonstrated that non-uniform distributions of multi-scale composite materials are dramatically effective for broadband wave attenuation. Additionally, while striving to widen the bandgap, the energy absorption capacities of structures are also crucial. The effect of the distribution of multi-scale composite materials with the optimal bandgap on the energy absorption performance is investigated. The results reveal that the optimal distribution of the lattice-origami metamaterials yields notable improvements of 48.26% and 34.86% under low-velocity impact, and 37.41% and 25.19% under medium-velocity impact. This work presents innovative concepts and approaches for devising and implementing novel dual-functional metamaterials, undoubtedly propelling the continual progress of material science and engineering technology in the times ahead.本研究提出了一种多尺度复合晶格-折纸超材料(MCLOM),以实现优异的带隙特性和能量吸收能力。考虑到晶格结构的高阻抗失配性、折纸结构的空间变形性以及多尺度复合材料中各成分的可调谐性,构建了 MCLOM。首先,在布洛赫波框架下分析了弹性波的传播特性,通过模形分析和透射谱揭示了完整带隙的实现及其产生机制。随后,结合粒子群优化(PSO)算法建立了一个优化框架,通过调整各种组件参数来最大化第一带隙的带宽。在最佳分布条件下,与初始分布相比,所提出的超材料在两个具有 90° 二面角的晶格原形超材料的设计目标上分别实现了 289% 和 271% 的显著改进。这表明,多尺度复合材料的非均匀分布对宽带波衰减具有显著效果。此外,在努力拓宽带隙的同时,结构的能量吸收能力也至关重要。本文研究了具有最佳带隙的多尺度复合材料的分布对能量吸收性能的影响。结果表明,晶格原形超材料的最佳分布在低速撞击下分别产生了 48.26% 和 34.86% 的显著改善,在中速撞击下分别产生了 37.41% 和 25.19% 的显著改善。这项研究提出了设计和实现新型双功能超材料的创新理念和方法,无疑将推动材料科学和工程技术在未来时代的不断进步。Multi-phase metamaterials containing framework structures to program thermal expansion and mechanical performancesWang Kaiyu, Chen Jiaxin, Wei Kai, Wang Rong, Yang Xujingdoi:10.1016/j.compstruct.2023.117671包含框架结构的多相超材料可实现热膨胀和机械性能编程Due to suffering the thermal and mechanical loadings simultaneously, metamaterials integrating with the customizable coefficient of thermal expansion (CTE) and high mechanical performances are desirable to ensure the thermal and structural stabilities in engineering devices. Hence, various multi-phase metamaterials with programmable CTEs and mechanical performances were developed. Specifically, inspired by the mixture of multiple phases in composites and the rigid rotations of framework structures in materials with negative CTE, a typical pyramid unit was introduced. Additionally, two series of metamaterials were systematically designed, which were constructed in batches from different units through the matrix transformation method. The CTEs of the metamaterials were theoretically established and analyzed. Besides, mechanical performances, including relative density, stiffness and strength were also calculated and discussed. The results suggest that the directionality and magnitude of CTEs are determined by the constructing principle of multi-fold rotations. In addition, the large ranges of programmable CTEs and high load-bearing capacity are available in the devised metamaterials by reasonably modulating the geometrical parameters. The thermal expansion and mechanical performances of the metamaterials could be synchronously programmed. The diversity of the phase configurations and geometrical architectures in the metamaterials offers the opportunity to satisfy manifold requirements in different applications.由于要同时承受热负荷和机械负荷,具有可定制热膨胀系数(CTE)和高机械性能的超材料是确保工程设备热稳定性和结构稳定性的理想选择。因此,各种具有可编程热膨胀系数和机械性能的多相超材料应运而生。具体来说,受复合材料中多相混合以及负 CTE 材料中框架结构刚性旋转的启发,引入了典型的金字塔单元。此外,还系统地设计了两个系列的超材料,通过矩阵变换方法由不同单元分批构建而成。理论上确定并分析了超材料的 CTE。此外,还计算并讨论了超材料的力学性能,包括相对密度、刚度和强度。结果表明,CTE 的方向性和大小由多倍旋转的构造原理决定。此外,通过合理调节几何参数,设计出的超材料还具有大范围的可编程 CTE 和高承载能力。超材料的热膨胀和机械性能可同步编程。超材料相位配置和几何结构的多样性为满足不同应用的多方面要求提供了机会。Composites Part A: Applied Science and ManufacturingObservations of Wrinkling in Non-Crimp Fabrics during Multi-Ply Stack Forming using In situ XCT ScanningJimenez-Martin Claudia, Maes Vincent, Rosini Sebastian, Smith Ronan, Sinclair Ian, Mavrogordato Mark, McMahon Turlough, Kratz Jamesdoi:10.1016/j.compositesa.2023.107880使用原位 XCT 扫描观察多层堆叠成形过程中非起皱织物的起皱情况This paper shows the internal evolution of wrinkles occurring in a single diaphragm forming process using time-resolved in situ XCT scanning. Forming trials were carried out over a curved C-spar geometry using Non-Crimp Fabric (NCF) plies of 45°/135°, 0°/90° and 0°/45° orientations arranged in single-orientation and mixed-orientation stacks. Results show most of the diaphragm movement and change in wrinkle size, shape, and location occurs in the early application (<0.1 bar) of vacuum. The further application of vacuum shows consolidation, with wrinkle size decreasing but shape and location remaining largely unchanged. Single-orientation stacks of 45°/135° plies showed the closest resemblance between initial and final wrinkling, while mixed-orientation stacks showed complex wrinkling due to the 0° plies creating internal ply separation due to excess length. Overall, the study shines a light on the internal interaction between layers that occurs during wrinkling, showing mechanisms only observable with XCT.本文利用时间分辨原位 XCT 扫描技术展示了单隔膜成形过程中皱纹的内部演变过程。成型试验是在弯曲的 C 型支柱几何形状上进行的,使用的是以单一方向和混合方向堆叠排列的 45°/135°、0°/90° 和 0°/45° 方向的无皱褶织物 (NCF) 层。结果表明,隔膜的大部分移动以及皱纹大小、形状和位置的变化都发生在施加真空的初期(小于 0.1 巴)。进一步施加真空后会出现巩固,皱纹的大小会减小,但形状和位置基本保持不变。由 45°/135° 层组成的单取向叠层显示出初始和最终皱纹之间最接近的相似性,而混合取向叠层则显示出复杂的皱纹,这是因为 0° 层由于长度过长而产生了内部层间分离。总之,这项研究揭示了起皱过程中发生的层间内部相互作用,显示了只有 XCT 才能观察到的机制。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