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【新文速递】2024年6月12日固体力学SCI期刊最新文章

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今日更新:International Journal of Solids and Structures 1 篇,Thin-Walled Structures 4 篇

International Journal of Solids and Structures

An energy-based effective constitutive model for a family of planar chiral lattice structures

Anirvan DasGupta

doi:10.1016/j.ijsolstr.2024.112919

一类平面手性晶格结构基于能量的有效本构模型

A novel energy based approach to determine the effective properties of periodic lattice structures is proposed. A Sinusoidal Tetra-Chiral Lattice (STCL) structure, composed of uniform slender sinusoidal beams, is considered and analyzed. The geometry is defined by four lattice parameters, which can be tuned to generate structures with L4 (regular) or L2 (irregular) symmetry axis. Using an irreducible periodic element and Castigliano’s theorem, an analytical micromechanics based effective constitutive model is developed. The assembly conditions at the boundaries of the periodic element provide the requisite constraints required to develop the strain–displacement relations, which are then used to obtain a quadratic strain energy density function. Analytical expressions of the effective material properties in the compliance tensor are obtained using a truncated expansion of the energy integrals under some smallness assumption, which shows an excellent match with the numerical results obtained without the smallness assumption. A major advantage of the proposed approach is the direct determination of the effective properties in a unified manner. The results from the analytical calculations are compared against numerical results obtained using Finite Element Analysis (FEA) for various members of the STCL geometry. A novel method for accurately determining the compliance tensor elements from the FEA results is also proposed. The results obtained from the different methods are found to be in very good match. The effect of orientation of the lattice on the effective properties is also studied and some interesting features of auxeticity and stiffness are clearly brought out. It is found that auxeticity of the lattice and the effective elastic modulus can be increased simultaneously in certain directions.

本文提出了一种基于能量的新方法来确定周期性晶格结构的有效特性。本文考虑并分析了由均匀细长正弦梁组成的正弦四手性晶格(STCL)结构。几何形状由四个晶格参数定义,通过调整这些参数可生成具有 L4(规则)或 L2(不规则)对称轴的结构。利用不可还原周期元素和 Castigliano 定理,建立了一个基于微观力学的有效构成分析模型。周期元素边界的装配条件为建立应变-位移关系提供了必要的约束条件,然后利用这些条件获得二次应变能密度函数。在一些微小性假设条件下,使用能量积分的截断扩展,可以获得顺应张量中有效材料特性的分析表达式,这与不使用微小性假设条件下获得的数值结果非常吻合。所提方法的一个主要优点是能以统一的方式直接确定有效特性。分析计算的结果与使用有限元分析(FEA)获得的 STCL 不同几何构件的数值结果进行了比较。此外,还提出了一种从有限元分析结果中准确确定顺应张量元素的新方法。不同方法得出的结果非常吻合。此外,还研究了晶格取向对有效特性的影响,并明确提出了辅助性和刚度的一些有趣特征。研究发现,在某些方向上,晶格的辅助eticity 和有效弹性模量可以同时增加。


Thin-Walled Structures

Deformation behavior and failure mechanism of AA7075 alloy during the cryogenic temperature-assisted incremental sheet forming process

Yanle Li, Feifei Liu, Jiyu Du, Tingyu Ge, Vladimir V. Mironenko, Fangyi Li

doi:10.1016/j.tws.2024.112114

AA7075合金在低温辅助渐进板成形过程中的变形行为及破坏机制

High-strength aluminum alloys are potential structural materials for thin-walled aerospace and automotive components. However, the limited formability at room temperature (RT) hinders their wide industrial application. In this study, a cryogenic temperature-assisted incremental sheet forming (CT-ISF) process for manufacturing 3D curved thin-walled structures was proposed. An experimental platform for CT-ISF was established to form AA7075 alloys. We found that the formability of the solution-treated AA7075 alloy sheet was greatly improved under the cryogenic environment without sacrificing its strength. In combination with double pass forming process, the formability of the sheet can be further improved. The stable deformation of the sheet is promoted due to the suppression of the Portevin-Le Chatelier (PLC) effect at CT, which reduces axial force fluctuations during the forming process. The line roughness value of the meridional direction was reduced by 36.8% at CT due to the enhanced work-hardening and the utilization of MoS2 lubricant. In terms of microstructural evolution, we found that the fracture morphology of the formed parts changed from tensile fracture at RT to shear fracture at CT. The improved formability was attributed to increased Goss and E texture contents, delay in dislocation evolution, and suppression of the PLC effect. This work introduces a novel CT-ISF process that significantly enhances the formability of high-strength Al alloy. In particular, it unravels the enhancement mechanism of formability in the CT-ISF process, providing theoretical support for further research.

高强度铝合金是薄壁航空航天和汽车零部件的潜在结构材料。然而,室温下有限的成形性阻碍了其广泛的工业应用。在这项研究中,提出了一种用于制造三维弯曲薄壁结构的低温辅助增量板成形(CT-ISF)工艺。建立了CT-ISF成形AA7075合金的实验平台。结果表明,在低温环境下,固溶处理的AA7075合金板材在不牺牲强度的情况下,成形性能得到了很大的改善。与双道成形工艺相结合,可进一步提高板材的成形性。由于抑制了CT处的波特文-勒夏特列(PLC)效应,促进了板料的稳定变形,减少了成形过程中的轴向力波动。由于加工硬化的增强和MoS2润滑剂的使用,经向线粗糙度值在CT下降低了36.8%。在显微组织演化方面,我们发现成形件的断口形貌由室温下的拉伸断裂转变为室温下的剪切断裂。可成形性的提高是由于Goss和E织构含量的增加、位错演化的延迟和PLC效应的抑制。本文介绍了一种新型的CT-ISF工艺,该工艺显著提高了高强度铝合金的成形性。特别是揭示了CT-ISF过程中成形性增强的机理,为进一步研究提供了理论支持。


Analytical solutions and material tailoring for combined radial expansion and twisting of functionally graded orthotropic hollow cylinders

Guojun Nie, R.C. Batra

doi:10.1016/j.tws.2024.112115

功能梯度正交各向异性空心圆筒径向膨胀和扭转组合的解析解和材料裁剪

Assuming that material properties are described by the same function of the radius, we first analytically find the displacement field in a functionally graded, orthotropic and linearly elastic hollow cylinder undergoing combined radial expansion and twisting. Subsequently, either for a desired axisymmetric displacement field or a stress distribution, we determine the required variations of the material properties to produce them in an inhomogeneous orthotropic cylinder. Numerical results presented for four example problems reveal the possibility of suitably varying material properties in the radial direction to simultaneously minimize the structural mass and the maximum circumferential stress on the inner surface of a hollow cylinder. It is found that out of the three heterogeneous cylinders of the same geometric and material parameters, the one having the least mass also has the smallest value of the maximum circumferential stress on the cylinder's inner surface. It occurs when the material moduli essentially vary affinely through the cylinder thickness. The analytical solutions presented here can serve as benchmarks for others to verify their numerical algorithms.

假设材料性能用相同的半径函数来描述,首先解析求出一个功能梯度、正交各向异性和线弹性空心圆柱体在径向膨胀和扭转联合作用下的位移场。随后,对于理想的轴对称位移场或应力分布,我们确定了在非均匀正交各向异性圆柱体中产生它们所需的材料特性变化。四个算例的数值结果揭示了在径向上适当改变材料性能以同时使空心圆柱体的结构质量和内表面的最大周向应力最小化的可能性。结果表明,在具有相同几何参数和材料参数的三个非均质圆柱体中,质量最小的圆柱体内表面的最大周向应力值也最小。当材料模量基本上通过圆柱体厚度仿射变化时,就会发生这种情况。本文给出的解析解可以作为验证其数值算法的基准。


Nonlinear flutter analysis of SMAHC beams under thermo-fluid-solid coupling field

Fusong Jin, Gang Xu, Jianghong Xue

doi:10.1016/j.tws.2024.112116

热流固耦合场下SMAHC梁的非线性颤振分析

The shape memory alloy (SMA) driven composite laminated structure is widely employed in the variable geometry wings of aircraft. This paper utilizes a theoretical and numerical simulation approach to analyze the dynamic characteristics of a high-speed motion SMA-hybrid composite(SMAHC) laminated beam under the influence of temperature loads. Under the coupled action of temperature and aerodynamic loads, the nonlinear characteristics of vibration in the SMAHC laminated beam are pronounced. Considering Von-Karman nonlinear geometric relations and modeling aerodynamic loads using the first-order piston theory, the nonlinear vibration equations of the SMAHC laminated beam are derived through the Hamiltonian principle. The Newmark-β method is then applied to solve these equations, revealing the dynamic characteristics of the SMAHC laminated beam in relation to aerodynamic loads, shape memory alloy temperature, and position. The results are compared with previous studies, validating their reliability. The findings indicate that in a linear system, with increasing aerodynamic loads, the first two frequencies of the SMAHC laminated beam coincide, leading to transverse vibration divergence and structural damage. However, in a nonlinear system, as aerodynamic loads increase, the first two frequencies of the SMAHC laminated beam do not coincide and exhibit nonlinear saturation, the higher the temperature of the SMA fibers, the more likely nonlinear saturation phenomena are to occur. Further increasing aerodynamic loads excites additional frequencies, resulting in chaotic vibrations. The research results provide a theoretical basis for the stability analysis of intelligent composite material structures during high-speed operation.

形状记忆合金驱动的复合材料层合结构广泛应用于飞机变几何翼中。本文采用理论和数值模拟相结合的方法,分析了温度荷载作用下高速运动sma -混杂复合材料层合梁的动态特性。在温度和气动载荷的耦合作用下,SMAHC层合梁的振动具有明显的非线性特征。考虑Von-Karman非线性几何关系,采用一阶活塞理论对气动载荷进行建模,利用哈密顿原理推导了SMAHC层合梁的非线性振动方程。采用Newmark-β方法求解这些方程,揭示了SMAHC层合梁的动态特性与气动载荷、形状记忆合金温度和位置的关系。结果与前人的研究结果进行了比较,验证了其可靠性。研究结果表明:在线性系统中,随着气动载荷的增大,SMAHC叠合梁的前两个频率重合,导致横向振动发散和结构损伤;然而,在非线性系统中,随着气动载荷的增加,SMA纤维层合梁的前两个频率不重合,呈现非线性饱和,SMA纤维温度越高,越容易出现非线性饱和现象。进一步增加气动载荷会激发额外的频率,导致混沌振动。研究结果为智能复合材料结构高速运行时的稳定性分析提供了理论依据。


A size-dependent electro-mechanical buckling analysis of flexoelectric cylindrical nanoshells

Wei Wang, Qianshou Qi, Junlin Zhang, Zikan Wang, Jiabin Sun, Zhenhuan Zhou, Xinsheng Xu

doi:10.1016/j.tws.2024.112118

柔性电圆柱形纳米壳的机电屈曲分析

In this paper, a buckling analysis for flexoelectric cylindrical nanoshells under axial compression is performed by considering the higher-order shear deformation theory and non-uniform pre-buckling deformation. Size-dependent critical buckling stresses and buckling mode shapes are obtained by the Galerkin's method with newly proposed displacement functions. Numerical results are compared with existing solutions and excellent agreements are observed. Furthermore, a comprehensive parametric study of boundary conditions, geometrical parameters and applied electric voltage is carried out to reveal the influence of flexoelectric effect on the size-dependent buckling characteristics of flexoelectric cylindrical nanoshells.

本文考虑高阶剪切变形理论和非均匀预屈曲变形,对挠性电圆柱纳米壳在轴向压缩下的屈曲进行了分析。利用新提出的位移函数,用伽辽金方法得到了与尺寸相关的临界屈曲应力和屈曲模态振型。数值计算结果与已有解进行了比较,结果非常吻合。此外,通过对边界条件、几何参数和外加电压的综合参数化研究,揭示了挠曲电效应对挠曲电圆柱纳米壳尺寸相关屈曲特性的影响。



来源:复合材料力学仿真Composites FEM
ACTMechanicalSystemDeform振动断裂复合材料非线性航空航天汽车ADS理论材料PLC装配
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首次发布时间:2024-11-21
最近编辑:6天前
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【新文速递】2024年6月14日复合材料SCI期刊最新文章

今日更新:Composite Structures 2 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 4 篇,Composites Science and Technology 2 篇Composite StructuresFretting fatigue crack initiation and propagation behaviours of Ti6Al4V alloy coated by functionally graded materialCan Wang, Qi Zhao, Yunlai Zhou, Dagang Wang, Lihua Wang, Magd Abdel Wahabdoi:10.1016/j.compstruct.2024.118285功能分级材料涂层 Ti6Al4V 合金的摩擦疲劳裂纹萌发和扩展行为Fretting fatigue pertains to the behaviour of engineering components undergoing cyclic loading while in contact with each other. This intricate contact-related phenomenon often results in premature failure compared to conventional fatigue issues. Moreover, when these components operate in high-temperature atmospheres and experience high wear conditions, such as the heat transfer tubes in the nuclear reactor, the application of Functionally Graded Material (FGM) coatings becomes essential. Consequently, it is imperative to investigate how FGM coatings influence the initiation and propagation behaviour of fretting fatigue cracks. This paper employs the Critical Plane (CP) Method to calculate the damage parameter. Additionally, Linear Elastic Fracture Mechanics (LEFM) criteria, specifically the Extended Maximum Tangential Stress (E-MTS) criterion, are utilized to examine how FGM coatings affect the paths of crack propagation in the presence of fretting conditions. Meanwhile, due to the unavailability of material properties for FGM coatings, the damage parameter and stress intensity factors are utilized to indirectly assess the effect of FGM coatings on crack initiation and propagation lifetime. The FGM coating significantly influences tangential stress, thereby affecting the length of the stick zone, while having minimal impact on the distribution of normal stress along the contact surface. Furthermore, it is observed that adjusting the descent ratio of FGM coatings and the elastic modulus of the first FGM coating layer provides a potential avenue for enhancing both crack initiation and propagation lifetimes.摩擦疲劳是指工程部件在相互接触时承受循环载荷的行为。与传统的疲劳问题相比,这种错综复杂的接触相关现象往往会导致过早失效。此外,当这些部件在高温环境中工作并经历高磨损条件时,如核反应堆中的传热管,功能分级材料(FGM)涂层的应用就变得至关重要。因此,研究 FGM 涂层如何影响摩擦疲劳裂纹的起始和扩展行为势在必行。本文采用临界平面 (CP) 法计算损伤参数。此外,本文还利用线性弹性断裂力学(LEFM)准则,特别是扩展最大切向应力(E-MTS)准则,来研究 FGM 涂层如何影响存在微裂纹条件下的裂纹扩展路径。同时,由于无法获得 FGM 涂层的材料属性,因此利用损伤参数和应力强度因子来间接评估 FGM 涂层对裂纹起始和扩展寿命的影响。FGM 涂层对切向应力的影响很大,因此会影响粘滞区的长度,而对沿接触面的法向应力分布的影响却很小。此外,通过观察还发现,调整 FGM 涂层的下降率和第一层 FGM 涂层的弹性模量为提高裂纹萌生和扩展寿命提供了潜在的途径。Three-dimensional aggregate modelling method and damage analysis of recycled aggregate concreteJingwei Ying, Yujun Jian, Xiaojie Gan, Baixi Chen, Jianzhuang Xiaodoi:10.1016/j.compstruct.2024.118286再生骨料混凝土的三维骨料建模方法和损伤分析A new aggregate placement algorithm has been developed that can automatically identify the remaining space after the aggregate is placed, and only new aggregates are placed in these spaces. This results in a reduction in the number of overlaps with existing aggregates, and the more aggregates placed, the higher the efficiency. This method is suitable for various types of concrete, such as ordinary aggregate concrete, recycled aggregate concrete (RAC), and fiber-reinforced concrete. Finite element analysis is applied to simulate stress and damage evolution in mesoscale models of concrete, taking into account the effects of actual aggregate slenderness ratio, concavity, flatness, asymmetry ratio, and compaction degree. The study reveals that tensile damage is the primary factor in concrete damage evolution up to peak stress, with both tensile and compressive damages influencing the post-peak behavior. In RAC, older Interfacial Transition Zones (ITZs) are found to be more susceptible to early damage than newer ones. Moreover, the model effectively illustrates the influence of recycled aggregate content and concavity on concrete’s mechanical properties. This mesoscale concrete modeling method, as developed in this study, holds potential for future research on various types of concrete.我们开发了一种新的集料放置算法,可以自动识别集料放置后的剩余空间,并只在这些空间中放置新的集料。这样就减少了与现有骨料重叠的数量,而且骨料放得越多,效率就越高。这种方法适用于各种类型的混凝土,如普通骨料混凝土、再生骨料混凝土(RAC)和纤维增强混凝土。考虑到实际骨料细长比、凹度、平整度、不对称比和压实度的影响,应用有限元分析模拟混凝土中尺度模型的应力和损伤演变。研究结果表明,拉伸损伤是峰值应力前混凝土损伤演变的主要因素,拉伸和压缩损伤都会影响峰值后的行为。在 RAC 中,发现老的界面过渡区(ITZ)比新的界面过渡区更容易受到早期破坏的影响。此外,该模型还有效说明了再生骨料含量和凹度对混凝土力学性能的影响。本研究中开发的这种中尺度混凝土建模方法,为未来各类混凝土的研究提供了可能。Composites Part A: Applied Science and ManufacturingFabrication and mechanical properties of a high-performance PEEK-PEI hybrid multilayered thermoplastic matrix composite reinforced with carbon fiberSebastian Andrés Toro, Carlos González, Juan P. Fernández-Blázquez, Alvaro Ridruejodoi:10.1016/j.compositesa.2024.108308用碳纤维增强的高性能 PEEK-PEI 混合多层热塑性基复合材料的制造和力学性能This paper presents a method for manufacturing a hybrid matrix composite material reinforced with a woven carbon fiber that combines the properties of two thermoplastic polymers: PEEK (polyether-ether-ketone) and PEI (polyether-imide). The manufacturing process involves a multilayer architecture and a single hot-pressing consolidation step. Experimental tests—including uniaxial tensile tests, delamination tests in Mode I and impact tests at low velocities—were conducted to compare the resulting laminate with single matrix materials (PEEK/CF and PEI/CF).The improvements in strain to failure by 48 % in tensile tests with fiber orientation at ± 4 5 ∘ and in delamination force by 13 % in low velocity impact tests with respect to PEI/CF show that the heterogeneous matrix blend maintains the crystalline content and excellent elastoplastic response of PEEK while taking advantage of the affordability, lower processing temperature and toughness of PEI.本文介绍了一种用编织碳纤维增强的混合基复合材料的制造方法,该材料结合了两种热塑性聚合物的特性:PEEK(聚醚醚酮)和 PEI(聚醚酰亚胺)。制造工艺包括多层结构和单一的热压固结步骤。实验测试包括单轴拉伸测试、模式 I 分层测试和低速冲击测试,以比较由此产生的层压材料与单基体材料(PEEK/CF 和 PEI/CF)。与 PEI/CF 相比,纤维取向为 ± 4 5 ∘ 的拉伸试验中的破坏应变提高了 48%,低速冲击试验中的分层力提高了 13%,这表明异质基质混合物保持了 PEEK 的结晶含量和优异的弹塑性响应,同时利用了 PEI 的经济性、较低的加工温度和韧性。Composites Part B: EngineeringStructural fuses in composite structures:Engineered crack paths in carbon fibre-reinforced polymersM.Erfan Kazemi, Victor Medeau, Lorenzo Mencattelli, Emile Greenhalgh, Soraia Pimenta, James Finlayson, Silvestre T. Pinhodoi:10.1016/j.compositesb.2024.111604复合材料结构中的结构熔丝:碳纤维增强聚合物中的工程裂纹路径We designed engineered carbon fibre-reinforced polymer (CFRP) solutions for realising structural fuses in real CFRP composite components. We developed various concepts of engineered crack paths containing micro-cut patterns (MCPs) aiming to investigate how we can engage and trigger various damage propagation mechanisms both in-plane and through-the-thickness. To this end, we chose ultra-thin CFRP prepregs and engraved various designed MCPs / crack path combinations on them during layup with the help of a laser micro-machining system. Then, we manufactured CFRP specimens containing engineered crack paths and characterised them under a 3-point bending (3PB) test to evaluate their response in an out-of-plane loading scenario. We investigated various design parameters of the developed MCPs through 9 studies to understand how various parameters determine the damage propagation mechanisms and what effect they have on fracture properties. Following this, we performed fractography analysis to observe the failure mechanisms triggered by the implemented MCPs / crack path combinations in the tested specimens. The results demonstrate that carefully designed MCPs can tailor the failure load and energy dissipation, and moreover, provide significant control over the fracture locus and path.我们设计了工程碳纤维增强聚合物(CFRP)解决方案,以实现实际 CFRP 复合材料部件的结构融合。我们开发了各种包含微切割图案(MCP)的工程裂纹路径概念,旨在研究如何在平面内和厚度内参与和触发各种损伤传播机制。为此,我们选择了超薄 CFRP 预浸料,并在铺层过程中借助激光微加工系统在上面雕刻出各种设计的 MCP/裂纹路径组合。然后,我们制造了包含工程裂纹路径的 CFRP 试样,并在三点弯曲 (3PB) 试验中对其进行了表征,以评估它们在平面外加载情况下的响应。我们通过 9 项研究调查了所开发 MCP 的各种设计参数,以了解各种参数如何决定损坏传播机制以及它们对断裂性能的影响。随后,我们进行了断口成像分析,以观察在测试试样中实施的 MCP/裂纹路径组合所引发的破坏机制。结果表明,精心设计的 MCP 可以调整破坏载荷和能量耗散,而且还能对断裂位置和路径进行有效控制。Predicting Rapid Growth Behavior in Solidified Eutectic Ceramic Composites Using Infrared Thermal Imaging and Thermal Field Simulation During Laser Directed Energy DepositionZhonglin Shen, Haijun Su, Hao Jiang, Yuan Liu, Di Zhao, Yinuo Guo, Yang Cao, Minghui Yu, Peixin Yang, Xiang Li, Dong Dong, Min Guo, Zhuo Zhangdoi:10.1016/j.compositesb.2024.111619利用红外热成像和热场模拟预测激光定向能沉积过程中凝固共晶陶瓷复合材料的快速生长行为Cylindrical Al2O3/GdAlO3 binary in situ oxide eutectic ceramic composite, with a glossy surface and high relative density, has been fabricated using the laser directed energy deposition method (LDED) with optimized process parameters. In a novel and innovative approach, infrared thermal imaging and the finite element method (FEM) have been combined for the first time to capture the temperature field distribution across different regions of the molten pool during the LDED processing of the binary oxide eutectic ceramic composite, thereby synergistically obtaining the solidification characteristics. With an increase in the scanning rate, the temperature gradient within the molten pool decreases from 3.38 × 105 K/m to 1.62 × 105 K/m, while it shows minimal variation with fluctuations of the laser power. Under the conditions of high temperature gradients and rapid non-equilibrium solidification characteristic of LDED, the Al2O3/GdAlO3 (GAP) binary eutectic ceramic composites, which exhibit typical high melting entropy and faceted/non-faceted growth modes, exhibit complex and variable microstructure morphology. A combination of regular/irregular models, including JH (Jackson-Hunt), MK (Magnin-Kurz), GK (Guzik-Kopyciński) and TMK (Trivedi-Magnin-Kurz), is employed to investigate and predict the growth and transformation of microstructures. The JH and TMK models fairly predict the rod-like regular eutectic microstructure inside the colony and lamellar regular eutectic within adjacent layers, respectively. The "Chinese-script" irregular microstructure at the interface between the colony and the layers is consistent with the MK and GK models. The as-deposited eutectic ceramic composite presents ultra-fine microstructures, clear and strongly bonded phase interfaces with low strain energy, contributing to its microstructure stability after high temperature heat treatment at 1773 K for 200 hours, ans achieving a minimum microstructure coarsening rate of 0.0005 μm/h.利用激光定向能沉积法(LDED)和优化的工艺参数,制造出了表面光亮、相对密度高的圆柱形 Al2O3/GdAlO3 二元原位氧化共晶陶瓷复合材料。在二元氧化物共晶陶瓷复合材料的 LDED 加工过程中,红外热成像和有限元法(FEM)首次结合起来捕捉熔池不同区域的温度场分布,从而协同获得凝固特性。随着扫描速率的增加,熔池内的温度梯度从 3.38 × 105 K/m 减小到 1.62 × 105 K/m,而其随激光功率波动的变化极小。在 LDED 特有的高温梯度和快速非平衡凝固条件下,Al2O3/GdAlO3(GAP)二元共晶陶瓷复合材料表现出典型的高熔熵和面状/非面状生长模式,并呈现出复杂多变的微观结构形态。我们采用了规则/不规则模型组合,包括 JH(Jackson-Hunt)、MK(Magnin-Kurz)、GK(Guzik-Kopyciński)和 TMK(Trivedi-Magnin-Kurz),来研究和预测微结构的生长和转变。JH 和 TMK 模型分别较好地预测了菌落内部的棒状规则共晶微观结构和相邻层内的片状规则共晶微观结构。菌落和层之间界面的 "中国式 "不规则微观结构与 MK 和 GK 模型一致。沉积后的共晶陶瓷复合材料呈现出超精细的微观结构,相界面清晰且结合牢固,应变能较低,这有助于其在 1773 K 高温热处理 200 小时后的微观结构稳定性,并实现了 0.0005 μm/h 的最小微观结构粗化率。Selective localization of carbonized polymer dots in amorphous phase towards high breakdown strength and energy density of PVDF-based dielectric compositesZhen-jie Lu, Wen-jin Hu, Xiao-dong Qi, De-xiang Sun, Yong Wang, Jing-hui Yangdoi:10.1016/j.compositesb.2024.111627 非晶相中碳化聚合物点的选择性定位,实现基于 PVDF 的电介质复合材料的高击穿强度和能量密度In a general way, there is a contradictory between dielectric constant () and breakdown strength () in dielectric materials, and improving the discharge energy density () of dielectric polymers has become a great challenge. The semicrystalline ferroelectric polymer polyvinylidene fluoride (PVDF) is favored for its high , but its relatively weak in amorphous regions makes it still difficult to obtain appreciable . In response to the fact that the current method of introducing rigid chain amorphous polymers into the amorphous regions of PVDF has limited capability to enhance its , in this work, due to the crystallization induced phase separation, carbonated polymer dots (CPDs) as well as PMMA were introduced into the amorphous region of PVDF, and CPDs/PVDF/PMMA composites were prepared towards high and . It is confirmed that, CPDs significantly increase the entanglement density of molecular chains in amorphous regions of PVDF; in addition, CPDs rely on their inorganic carbon cores with unique electrical properties to resist carrier migration in amorphous regions of PVDF under high electric fields. In brief, CPDs are used as a reinforcing agent for the amorphous region of PVDF to further enhance its and . The composite loaded with 0.1 wt% CPDs exhibits the superior of 12.4 J/cm3 at the of 652.0 MV/m. This work provides new understanding on the dielectric response of ultrasmall-sized CPDs on polymer dielectrics, which could help us design new dielectric polymer composites with suppressed segmental motions for high breakdown strength and high energy density applications.一般来说,介电材料的介电常数()和击穿强度()之间存在矛盾,提高介电聚合物的放电能量密度()已成为一个巨大的挑战。半结晶铁电聚合物聚偏二氟乙烯(PVDF)因其较高的介电常数()和击穿强度()而备受青睐,但由于其在无定形区的击穿强度相对较弱,因此仍难以获得可观的介电常数()和击穿强度()。针对目前在 PVDF 非晶区引入刚性链非晶态聚合物的方法对提高其Ⅴ-Ⅴ性能的作用有限这一事实,在这项工作中,由于结晶引起的相分离,在 PVDF 非晶区引入了碳化聚合物点(CPDs)和 PMMA,并制备出了具有高Ⅴ-Ⅴ性能的 CPDs/PVDF/PMMA 复合材料。研究证实,CPDs 能显著提高 PVDF 非晶区分子链的缠结密度;此外,CPDs 还能依靠其无机碳核的独特电学特性,在高电场下抵抗 PVDF 非晶区的载流子迁移。简而言之,CPD 可用作 PVDF 无定形区的增强剂,以进一步增强其性能。负载了 0.1 wt% CPDs 的复合材料在 652.0 MV/m 的电场中表现出 12.4 J/cm3 的优异性能。这项研究对超小尺寸 CPD 在聚合物电介质上的介电响应有了新的认识,有助于我们设计出具有抑制分段运动的新型聚合物电介质复合材料,以实现高击穿强度和高能量密度应用。Composites Science and TechnologyLayer-by-layer reconstruction of fatigue damages in composites from thermal images by a Residual U-NetBenedict von Houwald, Ali Sarhadi, Christian Eitzinger, Martin A. Ederdoi:10.1016/j.compscitech.2024.110712 利用残余 U-Net 通过热图像逐层重建复合材料中的疲劳损伤In this paper a deep learning model is used to fully reconstruct the 3D distribution of arbitrarily shaped subsurface fatigue damages in a fiber/epoxy composite from synthetic thermal surface images. Synthetic thermal surface images (TIs) of self-heating damage hotspots are produced by thermal finite element analysis which are consequently used to train a Residual U-Net based on recent architectures designed for image segmentation. Different augmentation techniques are employed to mitigate the computational cost of generating training data through thermal finite element analysis. The Residual U-Net model accurately reconstructed – layer by layer – the ground truths and thereby enabling the quantitative assessment of location, size, shape, depth and gradient of an internal fatigue damage distribution. Moreover, the Residual U-Net achieved good predictions for a comparatively small training set sizes.本文采用深度学习模型,从合成热表面图像中全面重建纤维/环氧树脂复合材料中任意形状的次表面疲劳损伤的三维分布。自加热损伤热点的合成热表面图像(TI)是通过热有限元分析生成的,因此可用于训练基于最新图像分割架构设计的残差 U-网络。我们采用了不同的增强技术,以降低通过热有限元分析生成训练数据的计算成本。残差 U-Net 模型逐层准确地重建了地面真相,从而能够对内部疲劳损伤分布的位置、大小、形状、深度和梯度进行定量评估。此外,残余 U-Net 还能在相对较小的训练集中实现良好的预测。Multiscale analysis of the compressive behaviour of polymer-based composites reinforced by hybrid Al2O3/Al fibresHao Tang, Jiaqi Xu, Aleksey B. Rogov, Constantinos Soutis, Aleksey Yerokhindoi:10.1016/j.compscitech.2024.110718 用 Al2O3/Al 混合纤维增强聚合物基复合材料抗压性能的多尺度分析Metal fibre reinforcements to polymer matrix composites (PMCs) bolster architectural flexibility and functionality affordably but feature a relatively weak interfacial bonding if not surface treated. This work demonstrates that Plasma Electrolytic Oxidation is promising to prepare woven hybrid Al2O3/Al reinforcements for PMCs. The compressive behaviour (a critical design parameter in structural design) of PMCs reinforced by ∼9 to 13 vol% γ-Al2O3/Al fibres with different oxide-to-metal ratios (∼20-50 vol%) is evaluated. The majority of fibres with the oxide ratio of 20% failed in micro-buckling mode at interlacing points. Compared to Al reinforcements, the hybrid Al2O3/Al fibres increased the specific compressive strength (σc/ρ) and modulus (Ec/ρ) of the composite by ∼15% and ∼58%, respectively. Oxide shells thicker than 15-20 μm limited further enhancement due to fibre failure by shear-induced rupture. Thinner shells on Al reinforcements are recommended for PMCs used to manufacture structural components in mechanical engineering applications.在聚合物基复合材料(PMC)中加入金属纤维增强材料可提高结构的灵活性和功能性,但如果不进行表面处理,界面结合力会相对较弱。这项研究表明,等离子电解氧化法有望为 PMC 制备出 Al2O3/Al 混合编织增强材料。研究评估了由不同氧化物金属比(20-50%)的 9 至 13 Vol% γ-Al2O3/Al 纤维增强的 PMC 的抗压性能(结构设计中的关键设计参数)。大多数氧化物比率为 20% 的纤维在交错点处以微屈曲模式失效。与铝增强材料相比,Al2O3/铝混合纤维使复合材料的抗压强度(σc/ρ)和模量(Ec/ρ)分别提高了 15% 和 58%。厚度超过 15-20 μm 的氧化壳限制了进一步的增强,因为纤维会因剪切力而断裂。建议在机械工程应用中用于制造结构部件的聚甲基丙烯酸甲酯上使用更薄的铝加固壳。来源:复合材料力学仿真Composites FEM

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