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【新文速递】2024年7月18日复合材料SCI期刊最新文章

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今日更新:Composite Structures 5 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 1 篇,Composites Science and Technology 2 篇

Composite Structures

Topological optimization design of multi-material phononic crystals with floating projection constraints to achieve ultra-wide band gap

Lin Liao, Song Yao, Yingli Li

doi:10.1016/j.compstruct.2024.118387

基于浮动投影约束的多材料声子晶体拓扑优化设计,实现超宽带隙

The multi-material phononic crystals (PnCs) not only has the potential to achieve broadband vibration reduction and noise control, but also has the capability to reduce costs and weight. This paper proposes a single variable based topological optimization method for widening the band gaps (BGs) in multi-material PnCs. The method combines the floating projection topology optimization (FPTO) method, and utilizes an adjustable stair form interpolation model is used to construct a mapping from a single design variable field to a multi-material field. It avoids the nested form of overlap between different materials to characterize multiple material phases, and the parameter self adaptability of FPTO solves the problem of multiple parameters in univariate optimization methods. Floating projection constraint is used to improve the projection strategy for intermediate densities to obtain a 0/1 design, resulting in a final design with a clear topological structure. Optimized PnCs using various engineered materials are generated to improve BG performance which can rival Au/Epoxy systems. And the effects of mass and cost constraints is also considered to achieve multi-material PnCs by maximizing the BG. The results also indicate that the resulting multi-material PnCs may achieve ultra-wide BG characteristics.

多材料声子晶体(pnc)不仅具有实现宽带减振和噪声控制的潜力,而且具有降低成本和重量的能力。提出了一种基于单变量的多材料pnc带隙增宽拓扑优化方法。该方法结合浮动投影拓扑优化(FPTO)方法,利用可调阶梯形式插值模型构建从单一设计变量场到多材料场的映射。它避免了不同材料之间重叠的嵌套形式来表征多个材料相,FPTO的参数自适应性解决了单变量优化方法中的多参数问题。利用浮动投影约束对中间密度的投影策略进行改进,得到0/1的设计,最终得到拓扑结构清晰的设计。使用各种工程材料生成的优化pnc可以提高BG性能,可以与Au/环氧树脂系统相媲美。同时考虑了质量和成本限制的影响,通过最大化BG来实现多材料pnc。结果还表明,所得到的多材料pnc可以实现超宽BG特性。


Experimental tensile testing of the lap joint composite laminates supported with the acoustic emission and machine learning techniques

Rayane El Mohtadi, Jakub Rzeczkowski, Izabela Korzec-Strzałka, Sylwester Samborski, Francesco Aymerich, Aleksander Czajka

doi:10.1016/j.compstruct.2024.118394

基于声发射和机器学习技术的搭接复合材料层合板拉伸试验研究

This paper investigates tensile behavior of through thickness reinforced carbon/epoxy lap joint composite laminates, reinforced with steel z-pins and staples, arranged in two rows parallel to the overlapping edges, via experimental testing. Acoustic emission (AE) monitoring is employed during the displacement-controlled tensile tests to monitor damage propagation during loading using the Vallen AMSY-5 measurement system, with two piezoelectric sensors being mounted at the laminate surface. Furthermore, machine learning algorithms are integrated to process AE data, enabling the recognition and prediction of failure mechanisms. Fractographic analyses were performed to observe the nature of damage post-failure. The experimental research was enriched with capturing high-resolution pictures of total crack propagation length growth using a high-resolution photocamera. The performed empirical tests demonstrated that the unstable propagation of a crack along the bonding interface has led to an eventual breakdown of both unreinforced and reinforced joints. An increase in the full displacement and load at failure was clearly detected for both z-pins and staples with a noticeable decrease in crack growth length, while a higher performance was illustrated for staples in comparison to z-pinned and unpinned.

通过实验测试,研究了通过厚度增强的碳/环氧搭接复合材料层合板的拉伸性能。在位移控制拉伸试验过程中,使用valallen公司的AMSY-5测量系统进行声发射(AE)监测,以监测加载过程中的损伤传播,两个压电传感器安装在层压板表面。此外,还集成了机器学习算法来处理声发射数据,从而能够识别和预测故障机制。进行断口分析以观察破坏后的损伤性质。利用高分辨率相机拍摄裂纹扩展总长度增长的高分辨率图像,丰富了实验研究。经验试验表明,裂纹沿粘结界面的不稳定扩展会导致未加筋和加筋节点的最终破坏。破坏时的全位移和载荷明显增加,裂纹扩展长度明显减少,而与z钉钉和未钉钉相比,钉钉具有更高的性能。


A reliable methodology for the preliminary design of multidirectional composite Open-Hole plates using the coupled criterion

T.V. Birro, R. Hamze, A. Maziz, A. Abin, B. Gely

doi:10.1016/j.compstruct.2024.118400

用耦合准则对多向复合开孔板进行初步设计的可靠方法

In the aerospace industry, composite structures are preferred for their high strength-to-mass ratio and fatigue strength. However, using advanced non-linear Finite Element models for the strength prediction of composite laminates during preliminary design and optimisation can lead to long computing times. Thus, linear elastic fracture mechanics is suitable for preliminary design. In this work, the coupled energy–stress criterion has been successfully applied to predict translaminar failure of open-hole tensile and compression specimens, considering three different stacking sequences with varying degrees of orthotropy. This criterion uses stress and energy criteria as necessary conditions for fracture. Neither of them is sufficient alone. The approach involves a characteristic length dependent on the composite’s properties and geometry. The characteristic length is used to satisfy both criteria simultaneously, avoiding the need for correction factors. The current approach includes the material anisotropy in both elastic and fracture parameters. The onsets of symmetric and antisymmetric crack patterns are investigated, considering where failure is predicted from the ply properties.

在航空航天工业中,复合材料结构因其高强度质量比和高疲劳强度而受到青睐。然而,在复合材料层合板的初步设计和优化过程中,使用先进的非线性有限元模型进行强度预测可能会导致较长的计算时间。因此,线弹性断裂力学适用于初步设计。考虑三种不同正交异性的不同堆叠顺序,将能量-应力耦合准则成功地应用于裸眼拉伸和压缩试件的层间破坏预测。该准则使用应力和能量准则作为断裂的必要条件。它们单独都不充分。该方法涉及依赖于复合材料的属性和几何形状的特征长度。特征长度用于同时满足两个标准,避免了对校正因子的需要。目前的方法包括材料在弹性和断裂参数上的各向异性。考虑到从厚度特性预测破坏的位置,研究了对称和反对称裂纹模式的开始。


Multifunctional design of an X-lattice interlocked sandwich structure with integrated electromagnetic wave regulation, convective heat transfer and load bearing performances

Minghui Cao, Hongbin Yan, Pengfei Xiao, Chunping Zhou, Linghao Cheng, Yiwei Han, Yifei Chen, Leilei Yan, Xitao Zheng

doi:10.1016/j.compstruct.2024.118401

集电磁波调节、对流换热和承载功能于一体的x晶格互锁夹层结构的多功能设计

Based on the concept of periodic structural unit, combined with interlocking technology, a novel X-lattice interlocked sandwich structure (XISS) was proposed in this paper for achieving electromagnetic (EM) wave regulation, heat dissipation and load bearing. Spoof surface plasmon polaritons (SSPPs) structures realized by gradient copper wire arrays were integrated with glass fiber reinforced plastic (GFRP) diaphragm walls, and then interlocked into GFRP X-lattices to form the XISS. EM simulated and experimental results demonstrated that the SSPPs structures could effectively improve the transmission performance, and the average transmissivity was increased by 22 % at frequency range from 6.93 GHz to 13.95 GHz. Moreover, heat transfer simulated results revealed that the X-lattices effectively induced vortex formation, leading to a higher convective heat transfer efficiency and improving the overall Nusselt number by 204.24 % compared to traditional rectangular honeycombs under the same Reynolds number Besides the advantages above, the good compressive performance of the XISS exhibited the great potential of structural–functional integration designs, offering the broad prospects in practical engineering application.

基于周期结构单元的概念,结合联锁技术,提出了一种新型的x晶格联锁夹层结构(XISS),以实现电磁波调节、散热和承载。利用梯度铜线阵列实现的欺骗表面等离子激元(SSPPs)结构与玻璃纤维增强塑料(GFRP)隔膜壁集成,然后互锁在GFRP x晶格中形成XISS。电磁仿真和实验结果表明,SSPPs结构可以有效地提高传输性能,在6.93 GHz ~ 13.95 GHz频率范围内,平均透射率提高了22 %。此外,传热模拟结果表明,在相同雷诺数下,x -晶格有效地诱导了涡流的形成,从而提高了对流换热效率,使整体努塞尔数比传统矩形蜂窝提高了204.24 %。除此之外,XISS良好的抗压性能显示了结构功能一体化设计的巨大潜力。具有广阔的工程应用前景。


A novel Star-4 honeycomb with the inclined ligaments for enhanced tunability of wave propagation behaviors

Hengtai Ni, Jing Liu, Liming Guo, Tan Zeng, Guang Pan

doi:10.1016/j.compstruct.2024.118405

一种新型的具有倾斜韧带的Star-4蜂窝,增强了波传播行为的可调性

The dynamic mechanical properties of mechanical metamaterials based on the honeycomb structures are widely concerned, especially the wave propagation behaviors. In this study, a novel type of honeycomb is designed by combing the Star-4 structure with the inclined ligaments. A dynamic analysis model of the Star-4 honeycomb with the inclined ligaments (S4HILs) is established based on the periodic description by the Bloch’s theorem and the discretization by the finite element theory of Timoshenko beam. The band gap characteristics calculated by the proposed model are compared with the frequency responses obtained by the commercial software to provide the modeling validation. The boundary vibration modes of S4HILs are compared to reveal the formation and closure mechanism of band gap. Moreover, the effects of different types of geometrical features on the band gap distribution and the macro-Poisson’s ratio are systematically investigated. The group velocity is finally discussed according to the global dispersion relation to explore the directivity of wave propagation. The results indicate that the inclined ligament can significantly enhance the tunability of wave propagation behaviors, which is mainly reflected in the broadened regulation range of band structure, Poisson’s ratio, and group velocity. This work provides an innovative idea for the regulation of wave propagation behaviors though the connection design between mechanical metamaterial unit cells.

基于蜂窝结构的力学超材料的动态力学性能,特别是波的传播特性受到了广泛的关注。本研究将Star-4结构与倾斜韧带相结合,设计了一种新型的蜂窝结构。基于Bloch定理的周期描述和Timoshenko梁有限元理论的离散化,建立了具有倾斜韧带的Star-4蜂窝(S4HILs)动力分析模型。将该模型计算的带隙特性与商用软件获得的频率响应进行了比较,以验证模型的有效性。比较了S4HILs的边界振动模式,揭示了带隙的形成和闭合机理。此外,系统地研究了不同类型几何特征对带隙分布和宏观泊松比的影响。最后根据整体频散关系讨论了群速度,探讨了波传播的方向性。结果表明,斜韧带能显著增强波传播行为的可调性,主要表现在能带结构、泊松比和群速的调节范围扩大。本工作为通过机械超材料单元胞之间的连接设计来调节波的传播行为提供了一种创新思路。


Composites Part A: Applied Science and Manufacturing

Cyclic behaviour of 3D-woven composites in tension: Experimental testing and macroscale modelling

Carolyn Oddy, Meng yi Song, Christian Stewart, Bassam El Said, Magnus Ekh, Stephen R. Hallett, Martin Fagerström

doi:10.1016/j.compositesa.2024.108354

三维编织复合材料在张力中的循环行为:实验测试和宏观模型

Composites with 3D-textile reinforcement present several engineering advantages. However, their intricate yarn architecture also creates a material with a number of nonlinear behaviours and features, which need to be understood in order to enable their efficient use. To demonstrate the anisotropic development of such non-linear behaviours, and how they depend on loading mode, tensile samples of a 3D-woven layer-to-layer angle interlock carbon-fibre reinforced epoxy composite are tested experimentally (data shared publicly). More specifically, specimens are cut and tested at orientations of 0°, 15°, 30°, 45° and 90° relative to the direction of the warp yarns. The samples are tested cyclically by loading and unloading them at progressively higher displacement values. By monitoring the reduction in stiffness and the development of permanent strains it is possible to identify material parameter values used to calibrate an anisotropic macroscale elasto-plastic damage model. The model shows promising agreement with the experimental results.

3d纺织品增强复合材料具有几个工程优势。然而,它们复杂的纱线结构也创造了一种具有许多非线性行为和特征的材料,需要理解这些行为和特征,以便有效地使用它们。为了证明这种非线性行为的各向异性发展,以及它们如何依赖于加载模式,我们对3d编织层对层角联锁碳纤维增强环氧复合材料的拉伸样品进行了实验测试(数据公开)。更具体地说,试样在相对于经纱方向的0°、15°、30°、45°和90°方向上切割和测试。通过在逐渐增大的位移值下加载和卸载,对样品进行循环测试。通过监测刚度的降低和永久应变的发展,可以确定用于校准各向异性宏观弹塑性损伤模型的材料参数值。该模型与实验结果吻合较好。


Composites Part B: Engineering

Ion-induced electrospinning of hierarchical spiderweb-like bioscaffolds

Yayun Wang, Zhigang Chen, Jurui Liu, Zhongqing Wu, Xiao Wang, Junfeng Chen, Hongjing Zhang, Mingming Wu, Kang Yang, Changshun Ruan, Bin Wang

doi:10.1016/j.compositesb.2024.111729

离子诱导的分层网状生物支架的静电纺丝

Tissue engineered scaffolds need to possess various functionalities, including biocompatibility, mechanical support, bioactivity, and vascularization. The design and fabrication of bioscaffolds to attain mutual coordination among these functionalities with minimal processing complexity are a highly challenging but rewarding task. In this study, a simple, effective one-step electrospinning method was developed to fabricate hierarchical spiderweb-like bioscaffolds that achieve both superior biological and mechanical functionalities. By incorporating ionic drugs of deferoxamine mesylate and lithium chloride, the spiderweb-inspired structures with adjustable coverages (up to 100 %) were successfully created, imparting the fibrous bioscaffolds with remarkable tensile strengths (∼88.28 MPa). The strengthening mechanisms endowed by the spiderweb structure in optimizing stress distribution to delay damage and enhance load-bearing ability were elucidated through finite element simulations. Furthermore, this hierarchical spiderweb-like bioscaffold demonstrated favorable biological characteristics, including biocompatibility, osteogenesis, angiogenesis, and hemostasis. The presence of the nano-spiderweb structures significantly improved cell adhesion and differentiation on the scaffold and increased the spreading area of cells by 2–3 times. The dual-drug loaded bioscaffolds with full coverages of the spiderweb structure exhibited the least amount of bleeding (45.33 ± 27.47 mg) and the fastest hemostasis speed (82 ± 8.19 s) in the hemostasis test, compared to the control group. Overall, the outstanding performance makes the developed bioscaffolds a promising alternative for tissue repair and regeneration in the field of tissue engineering.

组织工程支架需要具备多种功能,包括生物相容性、机械支持、生物活性和血管化。设计和制造生物支架,以最小的加工复杂性实现这些功能之间的相互协调,是一项极具挑战性但有益的任务。在这项研究中,我们开发了一种简单、有效的一步静电纺丝方法来制造分层的蛛网状生物支架,这种生物支架具有优越的生物和机械功能。通过加入甲磺酸去铁胺和氯化锂离子药物,成功创建了具有可调节覆盖率(高达100%)的蜘蛛网式结构,赋予纤维生物支架显著的拉伸强度(~ 88.28 MPa)。通过有限元模拟,阐明了蛛网结构在优化应力分布、延缓损伤、提高承载能力方面所赋予的强化机制。此外,这种分层蜘蛛网状生物支架表现出良好的生物学特性,包括生物相容性、成骨、血管生成和止血。纳米蜘蛛网结构的存在显著改善了细胞在支架上的粘附和分化,细胞的扩散面积增加了2-3倍。全覆盖蜘蛛网结构的双药负载生物支架在止血试验中出血量最少(45.33±27.47 mg),止血速度最快(82±8.19 s)。综上所述,所开发的生物支架在组织工程领域具有良好的组织修复和再生前景。


Composites Science and Technology

Synthesis of magnesium ferrite decorated MXene composites with broadband and high-efficiency microwave dissipation performance

Lijuan Nie, Zongli Wan, Ruiwen Shu

doi:10.1016/j.compscitech.2024.110764

 

具有宽带高效微波耗散性能的铁氧体镁修饰MXene复合材料的合成

As an emerging material, MXene has attracted wide interest in the field of microwave absorption due to its unique two-dimensional stratified structure and high electrical conductivity. However, the non-magnetic nature of MXene and the inherent agglomeration phenomenon are a huge obstacle to meeting the performance requirements of novel microwave absorbers. The introduction of magnetic components is an effective strategy to improve the microwave dissipation capacity of MXene. Herein, MXene/MgFe2O4 composites with dielectric and magnetic components were prepared by the solvothermal synthesis and subsequent hydrothermal reaction. The results of microscopic morphology analysis demonstrated that a special entangled structure was formed between MgFe2O4 and wrinkled MXene. Furthermore, by adjusting the weight concentration of MXene, the impedance matching of the absorbers could be regulated to optimize its microwave dissipation capacity. Remarkably, the as-fabricated MXene/MgFe2O4 composite with a weight concentration of 2 mg/mL exhibited excellent microwave dissipation capacity. Specifically, the minimum reflection loss was as low as -53.1 dB and the maximum effective absorption bandwidth reached 7.44 GHz, which covered a part of X-band and the whole Ku-band. The significant improvement in microwave dissipation performance could be attributed to the optimization of magnetodielectric synergistic effect, resulting in improved impedance matching. It was expected that the research results of this paper would provide reference for the preparation of MXene-based composites as efficient and broadband microwave absorbers.

MXene作为一种新兴材料,由于其独特的二维分层结构和高导电性,在微波吸收领域引起了广泛的关注。然而,MXene的非磁性和固有的团聚现象是满足新型微波吸收剂性能要求的巨大障碍。磁性元件的引入是提高MXene微波耗散能力的有效策略。通过溶剂热合成和水热反应制备了具有介电和磁性组分的MXene/MgFe2O4复合材料。微观形貌分析结果表明,MgFe2O4与皱褶MXene之间形成了一种特殊的纠缠结构。此外,通过调节MXene的质量浓度,可以调节吸波器的阻抗匹配,从而优化其微波耗散能力。值得注意的是,重量浓度为2 mg/mL的MXene/MgFe2O4复合材料具有优异的微波耗散能力。其中,最小反射损耗低至-53.1 dB,最大有效吸收带宽达到7.44 GHz,覆盖了部分x波段和整个ku波段。微波耗散性能的显著提高可归因于磁介质协同效应的优化,从而改善了阻抗匹配。期望本文的研究结果能为制备高效宽带微波吸收剂mxene基复合材料提供参考。


π-Conjugated Metallo-copolymer/SWCNT Composites for High Performance Thermoelectric Generators

Lifen Chen, Zelin Sun, Jiahua Li, Mei-Tung Lau, Jibin Sun, Deqing Zhang, Wai-Yeung Wong, Linli Xu

doi:10.1016/j.compscitech.2024.110768

 

高性能热电发电机用π共轭金属共聚物/ swcnts复合材料

Organic materials have attracted extensive attention in flexible thermoelectric generators due to their solution processability, low thermal conductivity and high flexibility. However, their thermoelectric performances are still far behind those of the inorganic counterparts (e.g. Bi2Te3, PbTe and other related alloys). Here, by virtue of the dual advantages of both inorganic and organic materials, three Pt(II)-containing diketopyrrolopyrrole (DPP) based donor−acceptor (D−A)-type π-conjugated metallo-copolymers (P1Pt, P2Pt and P3Pt) are designed and synthesized, and they are compared with their control copolymers without Pt(II)-coordination (P1, P2 and P3). It is shown that Pt(II) centers and copolymerized molecular structures play important roles in tuning the bandgap and coplanarity. A large Fermi level shift is observed after doping with single-walled carbon nanotubes (SWCNTs) in the copolymers. As expected, the introduction of Pt(II)-side chains and doping of SWCNTs into copolymers could significantly improve the power factor (PF), which reaches the highest value of 276.5±26.6 μW·m-1·K-2 with P3Pt/60 wt% SWCNTs. The corresponding p-type thermoelectric generator exhibits a large output power of up to 0.55 μW under a 109 K temperature gradient. Our results can provide a pathway for designing and preparing efficient thermoelectric materials and flexible thermoelectric generators.

有机材料具有溶液可加工性、低导热性和高柔韧性等优点,在柔性热电发电机中引起了广泛的关注。然而,它们的热电性能仍然远远落后于无机对应物(例如Bi2Te3, PbTe和其他相关合金)。本文利用无机材料和有机材料的双重优势,设计合成了三种含Pt(II)二酮吡咯(DPP)基供体-受体(D - A)型π共轭金属共聚物(P1Pt、P2Pt和P3Pt),并与不含Pt(II)配位的对照共聚物(P1、P2和P3)进行了比较。结果表明,Pt(II)中心和共聚分子结构在调节带隙和共面性方面起着重要作用。在共聚物中掺杂单壁碳纳米管(SWCNTs)后,观察到较大的费米能级位移。正如预期的那样,在共聚物中引入Pt(II)侧链并掺杂SWCNTs可以显著提高共聚物的功率因数(PF),当P3Pt/60 wt% SWCNTs时,功率因数达到276.5±26.6 μW·m-1·K-2的最大值。在109 K温度梯度下,p型热电发生器的输出功率可达0.55 μW。我们的研究结果为设计和制备高效热电材料和柔性热电发生器提供了途径。



来源:复合材料力学仿真Composites FEM
ACTMechanicalSystemInspireMAGNET振动疲劳断裂复合材料非线性拓扑优化航空航天裂纹理论电机化机控制纺织
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首次发布时间:2024-11-21
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【新文速递】2024年7月21日复合材料SCI期刊最新文章

今日更新:Composite Structures 1 篇,Composites Part B: Engineering 3 篇,Composites Science and Technology 1 篇Composite StructuresComprehensive investigation on modelling of low-velocity impact damage response of composite laminates − Experimental correlation and assessmentKaidong Zheng, Dongfeng Cao, Haixiao Hu, Hongda Chen, Wei Cai, Shuxin Lidoi:10.1016/j.compstruct.2024.118412复合材料层合板低速冲击损伤响应建模综合研究−实验关联与评估Low velocity impact (LVI) experiments are performed to provide correlations with the simulation results based on numerical modeling of the intralaminar matrix damage and interlaminar delamination damage of composite laminates. The good agreement between the numerical simulation and experimental results provided validation of the numerical modeling approach. The validated numerical modeling is then used in the parametrical assessment of the influence of material properties and model- related parameters on the global LVI deformation responses and the evolution characteristics of the intralaminar and interlaminar damage. It is observed that the element deletion method is not suitable to resolve the element distortion problem induced by the progressive damage. The numerical convergence problem caused by element distortion can be resolved with appropriate selection of threshold value of the critical damage parameter without element deletion. The parametrical numerical investigations showed that the variations of material properties and parameters related to interlaminar damage exhibited significant influence on the LVI global deformation responses and progressive damage evolutions. Meanwhile, insignificant influence of the material properties related to the intralaminar damage was observed for the normal variations within material scatters.在对复合材料层板层间基体损伤和层间分层损伤进行数值模拟的基础上,进行了低速冲击(LVI)实验,以提供与仿真结果的相关性。数值模拟结果与实验结果吻合较好,验证了数值模拟方法的有效性。利用验证后的数值模拟,对材料性能和模型相关参数对LVI整体变形响应的影响以及层内和层间损伤的演化特征进行了参数化评估。结果表明,单元删除法不适用于解决渐进式损伤引起的单元变形问题。在不删除单元的情况下,适当选择临界损伤参数的阈值可以解决单元畸变引起的数值收敛问题。参数化数值研究表明,材料性能和层间损伤相关参数的变化对LVI整体变形响应和渐进损伤演化有显著影响。同时,材料散射体内部的正常变化对层间损伤相关的材料性能影响不显著。Composites Part B: EngineeringHigh strength and fatigue performance achieved for L-PBF processed hybrid particle reinforced Al-Cu-Mg compositeSeren Senol, Guichuan Li, Vivek Devulapalli, Etienne Brodu, Kim Vanmeenseldoi:10.1016/j.compositesb.2024.111736L-PBF加工的杂化颗粒增强Al-Cu-Mg复合材料具有较高的强度和疲劳性能This study highlights the successful manufacturing of a crack-free, dense, hybrid ex-situ/in-situ particle reinforced (Ti+B4C)/Al-Cu-Mg composite, fabricated by laser powder bed fusion and exhibiting exceptional mechanical performance. In its as-built (AB) state, the composite displays a unique microstructure characterized by equiaxed grains with an average grain size of 1.0 ± 0.3 μm, notable interdendritic microsegregation of Cu, Mg, Mn, and Fe, randomly distributed ex-situ added Ti and B4C particles featuring a surface interaction layer with the metal matrix, and in-situ formed reinforcing particles, such as TiB2 and TiC. After subjecting the material to hot isostatic pressing (HIP) and subsequent aging treatment, dissolution of interdendritically segregated elements occurs, and precipitation of Al2Cu, Al12Mg17, and Al-Fe-Cu-Mn phases is observed. Significantly enhanced fatigue performance is recorded, reaching to 107 cycles at 250 MPa in AB and 330 MPa in HIP state, marking a 32% improvement. The current study highlights the intricate relationship between the different microstructural features in AB and HIPed state, leading to fracture during tensile and fatigue loading conditions.本研究成功制备了一种无裂纹、致密、非原位/原位混合颗粒增强(Ti+B4C)/Al-Cu-Mg复合材料,该复合材料采用激光粉末床熔合制备,具有优异的力学性能。在原位(AB)状态下,复合材料表现出独特的微观结构:平均晶粒尺寸为1.0±0.3 μm的等轴晶,枝晶间存在明显的Cu、Mg、Mn和Fe微偏析,随机分布的原位添加Ti和B4C颗粒与金属基体形成表面相互作用层,以及原位形成的TiB2和TiC等增强颗粒。经热等静压(HIP)和时效处理后,枝晶间分离元素发生溶解,析出Al2Cu、Al12Mg17和Al-Fe-Cu-Mn相。其疲劳性能显著提高,在AB状态下可达到250 MPa的107次循环,在HIP状态下可达到330 MPa,提高了32%。目前的研究强调了AB和HIPed状态下不同的显微组织特征之间的复杂关系,导致拉伸和疲劳加载条件下的断裂。Recent advances on bast fiber composites: Engineering innovations, applications and perspectivesShiyun Zhu, Junxian Xie, Qianqian Sun, Zhaohui Zhang, Jinming Wan, Ziyong Zhou, Junliang Lu, Jian Chen, Jun Xu, Kefu Chen, Mizi Fandoi:10.1016/j.compositesb.2024.111738韧皮纤维复合材料的最新进展:工程创新、应用与展望Plant fibers are a class of biomass resources one of most abundant materials on earth. The bast fiber, as one of the plant fibers with superior specific stiffness and strength, has received constant attention in the field of biocomposites for various industrial sectors. This study is to provide a comprehensive overview of bast fiber composites. The characteristic, chemical composition and performance of five types of most commonly available bast fibers (ramie, jute, kenaf, flax and hemp fibers), and their functionalization in biocomposites are analyzed. The engineering technologies and performance in uses, e.g. flame retardancy, adsorption, reinforcement, biodegradability green sustainability and recyclability of the bast fiber composites are assessed and compiled. The challenges and future development of bast fiber composites are also discussed. The review is expected to provide a platform database but insightful understanding for effective engineering design and broadened applications of bast fiber composites, and for further innovations of functionalized bast fiber composites.植物纤维是一类生物质资源,是地球上最丰富的物质之一。韧皮纤维作为一种具有优良比刚度和比强度的植物纤维,在生物复合材料领域受到了广泛的关注。本文对韧皮纤维复合材料进行了综述。分析了苎麻、黄麻、红麻、亚麻和大 麻五种常用麻类纤维的特性、化学成分和性能,以及它们在生物复合材料中的功能化作用。对韧皮纤维复合材料的阻燃性、吸附性、增强性、可生物降解性、绿色可持续性和可回收性等工程技术和使用性能进行了评价和汇编。讨论了韧皮纤维复合材料面临的挑战和未来的发展。本文的研究将为有效的工程设计和拓展基材纤维复合材料的应用,以及功能化基材纤维复合材料的进一步创新提供一个平台、数据库和深刻的认识。Nanomechanical characterization of carbon nanotube-based composite interfaces tailored by electrophoretic depositionDae Han Sung, Sagar M. Doshi, Andrew N. Rider, Erik T. Thostensondoi:10.1016/j.compositesb.2024.111741电泳沉积碳纳米管基复合材料界面的纳米力学表征Carbon nanotube (CNT) addition to composite materials can offer both nanoscale reinforcement and a multifunctional element due to their extraordinary mechanical, thermal and electrical properties. Electrophoretic deposition (EPD) offers a scalable processing technique to incorporate CNTs into conventional fiber-reinforced polymer composites (FRPCs), facilitating the production of unique nanoscale structures in the critical interphase region. In this study, CNTs functionalized with polyethyleneimine (CNT-PEI) were deposited onto a planar substrate via EPD followed by the infusion of epoxy matrix in order to replicate the nanocomposite interphase region present in nanomodified FRPCs. The nanocomposite films have thicknesses ranging from several hundred nanometers to a few microns to represent different fiber-matrix interphase regions found in FRPCs. The morphology and mechanical performance of CNT-PEI/epoxy nanocomposites are examined using atomic force microscopy (AFM) in both tapping and nanoindentation modes. The EPD creates a homogeneously distributed porous CNT network bridged by PEI, forming the pathway of epoxy resin infusion through interconnected pores with diameters less than 100 nm. CNT-PEI/epoxy nanocomposites exhibited significant improvements in stiffness, hardness, and creep resistance compared to constituent porous CNT-PEI films and neat epoxy. The improvement was directly related to the ability of the load bearing CNTs chemically bonded with the epoxy matrix through the grafted PEI, providing an efficient load transfer mechanism. The chemical bond between the porous CNT-PEI and epoxy also produced far greater fracture surface in nanoscale scratch tests compared to unmodified epoxy, indicating the CNT-PEI/epoxy nanocomposite is capable of distributing load and absorbing more energy prior to fracture.碳纳米管(CNT)添加到复合材料中,由于其非凡的机械、热学和电学性能,可以提供纳米级的增强材料和多功能元件。电泳沉积(EPD)提供了一种可扩展的加工技术,将碳纳米管结合到传统的纤维增强聚合物复合材料(frpc)中,促进了在关键相间区生产独特的纳米级结构。在本研究中,通过EPD将聚乙烯亚胺功能化的CNTs (CNT-PEI)沉积在平面基底上,然后注入环氧基,以复 制纳米改性frpc中存在的纳米复合相间区。纳米复合膜的厚度从几百纳米到几微米不等,以代表在frpc中发现的不同的纤维基质间相区域。采用原子力显微镜(AFM)对CNT-PEI/环氧树脂纳米复合材料在攻丝和纳米压痕两种模式下的形貌和力学性能进行了研究。EPD通过PEI桥接形成均匀分布的多孔碳纳米管网络,形成了环氧树脂通过直径小于100 nm的互连孔注入的途径。与组成多孔CNT-PEI薄膜和纯环氧树脂相比,CNT-PEI/环氧纳米复合材料在刚度、硬度和抗蠕变性能方面都有显著提高。这种改善与负载CNTs通过接枝PEI与环氧基化学结合的能力直接相关,从而提供了有效的负载传递机制。与未改性的环氧树脂相比,多孔CNT-PEI与环氧树脂之间的化学键也在纳米尺度划痕测试中产生了更大的破裂面,这表明CNT-PEI/环氧纳米复合材料能够在破裂前分配载荷并吸收更多的能量。Composites Science and TechnologyA Statistical Volume Element-based procedure for the prediction of the mechanical and electrical response of an epoxy-PZT self-sensing layer for application in composite laminatesMichele Gulino, Tommaso Maria Brugo, Alessandro Pirondi, Andrea Zucchellidoi:10.1016/j.compscitech.2024.110772 基于统计体积元的预测环氧树脂- pzt自感层的机械和电气响应的程序,用于复合材料层合板Structural Health Monitoring (SHM) techniques are being developed to continuously oversee defects in composite structures. Within this context, research is focusing on the development of new types of sensors with high sensitivity and a proper integration in the laminate.In this work, the mechanical and electrical properties of a recently developed piezoelectric composite material made of a Lead Zirconate Titanate (PZT) powder embedded in an epoxy matrix are evaluated with finite element simulations of plane strain Statistical Volume Elements (SVEs). The homogenized properties are then implemented in a second finite element model of a composite specimen with the embedded self-sensing material and loaded in compression. The electrical sensitivity is evaluated as a function of the distance between the signal electrodes.The results show that the finite element models with the homogenized properties have decreasing sensitivity with increasing electrodes distance, in agreement with the experimental results from another work, in which Glass Fiber Reinforced Polymer (GFRP) laminates with the embedded piezoelectric composite are loaded in compression and tested for output signal.结构健康监测(SHM)技术的发展是为了持续监测复合材料结构的缺陷。在这种背景下,研究的重点是开发具有高灵敏度和适当集成在层压板中的新型传感器。在这项工作中,利用平面应变统计体积元(SVEs)的有限元模拟评估了最近开发的一种由锆钛酸铅(PZT)粉末嵌入环氧树脂基体制成的压电复合材料的机械和电气性能。然后,在嵌入自传感材料并加载压缩的复合材料的第二个有限元模型中实现均匀化特性。电灵敏度作为信号电极之间距离的函数来评估。结果表明,随着电极距离的增加,具有均匀性的有限元模型的灵敏度降低,这与另一项工作的实验结果一致,该工作是对嵌入压电复合材料的玻璃纤维增强聚合物(玻璃钢)层合板进行压缩加载并测试输出信号。来源:复合材料力学仿真Composites FEM

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