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【新文速递】2024年9月13日复合材料SCI期刊最新文章

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今日更新:Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 3 篇,Composites Science and Technology 2 篇

Composites Part A: Applied Science and Manufacturing

The influence of impact-induced damage on electromagnetic shielding behaviour of carbon fibre reinforced polymer composites

E. Mikinka, T. Whittaker, P. Synaszko, W. Whittow, G. Zhou, K. Dragan

doi:10.1016/j.compositesa.2024.108464

 

冲击损伤对碳纤维增强聚合物复合材料电磁屏蔽性能的影响

Increasing interest in multifunctional carbon fibre reinforced polymer (CFRP) composite structures for electromagnetic (EM) shielding prompts discussions on their EM shielding durability. Herein, the EM shielding effectiveness (SE) of impact damaged and artificial delamination conditioned CFRP laminates was characterised and compared to intact specimens. The SE in two frequency regimes was investigated: the UHF (0.03–1.5 GHz) and Ka band (26–42 GHz). The lower frequency SE experiments demonstrated a positive effect of impact delamination, ascribed to the enhanced absorption caused by multiple reflections. Concurrently, owing to the reduced skin depth, severe damage involving fibre fracture was required to induce noticeable SE changes at higher frequencies. The effect of artificial delamination was a strong function of the lay-up, with a significant deterioration in thin cross-ply laminates due to the impaired contribution of through-the-thickness conduction loss. The lower frequency results were simulated in CST Microwave Studio, demonstrating good agreement with experimental values.

碳纤维增强聚合物(CFRP)复合材料多功能电磁屏蔽结构引起了人们对其电磁屏蔽耐久性的讨论。本文对冲击损伤和人工分层条件CFRP层合板的电磁屏蔽效能(SE)进行了表征,并与完整样品进行了比较。研究了UHF(0.03-1.5 GHz)和Ka(26-42 GHz)两个频段的SE。低频SE实验表明,由于多次反射引起的吸收增强,冲击分层具有积极作用。同时,由于皮肤深度减少,需要纤维断裂的严重损伤才能在较高频率下引起明显的SE变化。人工分层的影响是铺层的一个强大功能,由于通过厚度传导损失的贡献受损,薄交叉层合板的性能显著恶化。在CST Microwave Studio中对低频结果进行了模拟,结果与实验值吻合较好。


Composites Part B: Engineering

Effect of Field's metal particles coated with PVA, nano-SiO2 and PVA@nano-SiO2 on the performance of cement pastes

Cheng QIAN, Zhaocai ZHANG, Yu ZHU

doi:10.1016/j.compositesb.2024.111823

菲尔德金属颗粒包覆PVA、纳米sio2和PVA@nano-SiO2对水泥浆体性能的影响

In this paper, a modification method for physical surface coating of Field's metal particles (FMP) using individual/combined polyvinyl alcohol (PVA) and nano-silica (NS) is proposed. The properties of cement pastes modified by FMP@H2O, FMP@PVA, FMP@PVA@NS, FMP@NS were evaluated by mechanical test, EIS, NMR, XRD, TG, and SEM. The results showed that the flexural strength and compressive strength of cement pastes with FMP@PVA, FMP@PVA@NS, FMP@NS at 7 days increased 2.74∼13.01 % and 9.18∼18.10 %, respectively, compared to the control samples, due to the inhibition of calcium hydroxide (CH) nucleation crystallization in the connection region between FMP and matrix by PVA, and CH reacting with NS to generate CSH gels. The cement paste with FMP@PVA has the best matrix strength at 28 days, resulting from the optimized connection region. Additionally, the mechanism of modified FMP strengthening connection region was proposed to explain the uniform distribution of FMP in fresh state, and the directional growth of CH crystals, which has a good agreement with the results of mechanical properties, phase analysis, thermal analysis and SEM observation. In accordance with the research in this paper, FMP as a new functional raw material is expected to be applied in the mix design of large-volume concrete, oil-gas well cement, and geothermal cement, especially used for temperature self-regulation and crack self-healing of cementitious materials.

本文提出了一种用单独/复合聚乙烯醇(PVA)和纳米二氧化硅(NS)改性菲尔德金属粒子(FMP)物理表面涂层的方法。采用力学试验、EIS、NMR、XRD、TG、SEM等方法对FMP@H2O、FMP@PVA、FMP@PVA@NS、FMP@NS改性水泥膏体的性能进行了评价。结果表明,与对照样品相比,FMP@PVA、FMP@PVA@NS、FMP@NS水泥浆体的抗折强度和抗压强度在7 d时分别提高了2.74 ~ 13.01%和9.18 ~ 18.10%,这是由于PVA抑制了FMP与基质连接区域的氢氧化钙(CH)成核结晶,以及CH与NS反应生成CSH凝胶。掺FMP@PVA的水泥浆体在28 d时基质强度最佳,这是由优化的连接区域产生的。此外,提出了改性FMP强化连接区的机理,解释了FMP在新鲜状态下的均匀分布和CH晶体的定向生长,这与力学性能、物相分析、热分析和SEM观察结果吻合较好。根据本文的研究,FMP作为一种新型的功能原料,有望应用于大体积混凝土、油气井水泥、地热水泥的配合比设计,特别是用于胶凝材料的温度自调节和裂缝自愈合。


Stretchable supramolecular hydrogel with instantaneous self-healing for electromagnetic interference shielding control and sensing

Kunpeng Qian, Jianyu Zhou, Miao Miao, Sineenat Thaiboonrod, Jianhui Fang, Xin Feng

doi:10.1016/j.compositesb.2024.111826

 

具有瞬时自愈的可拉伸超分子水凝胶,用于电磁干扰屏蔽控制和传感

Conductive hydrogels possess instantaneous self-healing and adhesive properties have generated great excitement in the fields of sensing and electromagnetic interference (EMI) shielding. In this study, we ingeniously designed hydrogel-based soft materials with high conductivity by using poly(vinyl alcohol) (PVA), positively charged Ti3C2Tx MXene and thioctic acid (TA) as source materials. Through concentration-induced ring-opening polymerization of TA monomers in an aqueous solution of potassium hydroxide (KOH), supramolecular poly(potassium thioctate) (poly(PT)) was obtained. Then, the multifunctional poly(PT)/PVA/p-MXene hydrogel with exceptional stretchability, substrate-adhesion and self-healing capability was achieved through abundant dynamic bonds, including disulfide bonds, hydrogen bonds, coordination bonds and electrostatic interactions. The hydrophobic main chains within poly(PT) provide robust protection against the oxidative degradation of MXene. This hydrogel shows outstanding strain sensing and extraordinary EMI shielding effectiveness (SE) of 48.56 dB caused by the inner structure, conductivity, and water content. Interestingly, the EMI SE can be regulated by reabsorbing moisture from the air, thereby enabling the reuse of dried hydrogel. Furthermore, the EMI SE can be dynamically modulated through controlled deformations, confirming the potential application for electromagnetic waves (EMWs) sensing. This innovative approach not only simplifies the fabrication of multifunctional materials but also expands the applications of adhesive hydrogels with conductivity.

导电水凝胶具有瞬时自愈和粘接特性,在传感和电磁干扰屏蔽领域引起了极大的关注。本研究以聚乙烯醇(PVA)、带正电的Ti3C2Tx MXene和硫辛酸(TA)为原料,巧妙地设计了具有高导电性的水凝胶基软材料。通过在氢氧化钾水溶液中对TA单体进行浓度诱导开环聚合,得到了超分子聚硫辛酸钾(PT)。然后,通过丰富的动态键,包括二硫键、氢键、配位键和静电相互作用,获得了具有优异拉伸性、底物粘附性和自修复能力的多功能聚(PT)/PVA/p-MXene水凝胶。聚(PT)中的疏水主链对MXene的氧化降解提供了强大的保护。由于其内部结构、电导率和含水量,该水凝胶具有出色的应变传感和非凡的电磁干扰屏蔽效果(SE),达到48.56 dB。有趣的是,EMI SE可以通过从空气中重新吸收水分来调节,从而使干燥的水凝胶能够重复使用。此外,EMI SE可以通过控制变形进行动态调制,证实了电磁波(EMWs)传感的潜在应用。这种创新的方法不仅简化了多功能材料的制造,而且扩展了具有导电性的粘接水凝胶的应用。


A hydro-thermo-chemo-mechanical model for slag-blended cementitious systems at early ages

Jun Wang, Zhangli Hu, Jian Zhang, Hua Li, Jiaping Liu

doi:10.1016/j.compositesb.2024.111830

早期矿渣混合胶凝体系的水-热-化学-力学模型

A comprehensive hydro-thermo-chemo-mechanical model for predicting the early-age properties development of slag-blended cementitious systems is presented in this study. A new kinetics evolution for slag reaction that takes into account the heterogeneous nucleation effect and induction time of slag was proposed, with which the model effectively quantifies the contributions of slag to the hydration, energy exchange and mass conversation within blended systems. This paper provides a thorough documentation of input parameters, fundamental equations, and constitutive laws associated with the model. The hydro-thermo-chemo-mechanical model successfully predicts the heat release, hydration degrees of cement and slag, self-desiccation, basic creep and autogenous shrinkage in slag-blended cementitious systems. The predictions align well with the experimental observation obtained from this work and reported works in the literature, validating the accuracy and reliability of the proposed model in capturing and explaining the complex early-age behaviors of slag-blended cementitious systems.

本文提出了一种综合的水-热-化学-力学模型,用于预测矿渣混合胶凝体系的早期性能发展。提出了考虑矿渣非均相成核效应和诱导时间的矿渣反应动力学演化模型,该模型有效地量化了矿渣对混合体系水化、能量交换和质量转化的贡献。本文提供了一个彻底的文件输入参数,基本方程,并与模型相关的本构律。水-热-化学-力学模型成功地预测了水泥-矿渣混合胶凝体系的放热、水化程度、自干燥、基本徐变和自收缩。这些预测与本研究获得的实验观察结果以及文献中报道的工作相吻合,验证了所提出模型在捕获和解释渣混合胶凝体系复杂的早期行为方面的准确性和可靠性。


Composites Science and Technology

A progressive optimization of axial compression performance of 3D angle-interlock tubular woven composites through textile structure and yarn configuration innovations

Rui Xu, Jiaye Wang, Wei Zhang, Hailou Wang

doi:10.1016/j.compscitech.2024.110864

 

通过织物结构和纱线配置创新,逐步优化三维角互锁管编织复合材料轴向压缩性能

Lightweight tubular composite materials with excellent compression performance are important structural components for load-bearing or energy absorption. Generally, outstanding performance depends on the structural design. Herein, a progressive structural optimization of 3D angle-interlock tubular woven reinforced composites (3DATWCs) is performed. The structural factors under consideration involve proportion of warp lining yarn, layers of weft yarn, surface constraint yarn and weft density. The axial compression performance and failure process of 3DATWCs with different structures are investigated through experiments and finite element method. The results indicate that increasing proportion of warp lining yarn can significantly improve the axial compression performance of 3DATWC. However, simply increasing proportion of warp lining yarn may decrease the straightness of yarn and constraint on warp yarns, leading to the performance reduction. The problem of performance reduction can be solved by introducing surface constraint yarn or increasing weft density. Finally, an optimization strategy is unveiled. Compared to ordinary structure, the ultimate load, plateau average load, ultimate stress, elastic modulus, total energy absorption and specific energy absorption of optimized 3DATWC increase by 101.88%, 96.12%, 77.46%, 142.55%, 119.06%, and 77.39%, respectively. Additionally, the axial compression performance is seriously affected by the fiber waviness, yarn waviness and interfacial properties, and can be further improved through reducing the waviness during the preparation of fabric preform.

轻质管状复合材料具有优异的压缩性能,是承载或吸能的重要结构部件。一般来说,优异的性能取决于结构设计。在此基础上,对三维角互锁管编织增强复合材料(3DATWCs)进行了渐进式结构优化。考虑的结构因素包括经纱衬纱比例、纬纱层数、表面约束纱和纬密度。通过试验和有限元分析,研究了不同结构的3DATWCs轴压性能和破坏过程。结果表明,增加经纱衬里纱的比例,可以显著提高3DATWC的轴压性能。而单纯增加经衬纱的比例,会降低纱线的直线度和对经纱的约束,导致性能下降。通过引入表面约束纱或增加纬纱密度,可以解决性能下降的问题。最后,提出了优化策略。与普通结构相比,优化后的3DATWC极限荷载、平台平均荷载、极限应力、弹性模量、总能量吸收和比能量吸收分别提高了101.88%、96.12%、77.46%、142.55%、119.06%和77.39%。此外,纤维的波纹度、纱线的波纹度和界面性能对轴向压缩性能有严重影响,在织物预成型的制备过程中可以通过降低波纹度来进一步提高轴向压缩性能。


Graphene-based hierarchical structure for significantly enhancing thermal conductivity of composites with high mechanical reinforcement

Xinyang Sun, Han Wang, Ni Lu, Jiangang Zhang, Chaoqun Ma, Xuhai Xiong, Zhenguo Zhu, Chang Liu, You Zeng

doi:10.1016/j.compscitech.2024.110865

 

基于石墨烯的层次化结构显著提高了复合材料的导热性,具有较高的机械强度

Significant enhancement in out-of-plane thermal conductivity of carbon fiber/epoxy laminated composites without sacrificing mechanical strength is of great challenge for advanced composites. In this study, a novel graphene-based hierarchical structure was constructed by combining graphene foams (GrFs) with graphene nanoplatelets (GNPs) together and laminating with carbon fiber (CF) fabrics. The GrFs acted as thermally-conductive skeletons in bridging CF fabrics together to remarkably increase out-of-plane thermal conductivity of composites, while the GNPs were helpful to further increasing heat-transfer paths and effectively transferring stress between continuous CFs for high mechanical reinforcement. The hierarchical composites exhibited extremely high out-of-plane thermal conductivity of 2.64 W/m·K, increasing by 158.8% than that of CF/Ep composites, and they also showed satisfactory tensile, flexural, and interlaminar shear strength. Such high performance is mainly due to the hierarchical structure, continuous heat-transfer paths, synergetic enhancement of GrFs with GNPs, and strong interfacial interactions between components for high-efficiency heat and stress transfer.

如何在不牺牲机械强度的前提下显著提高碳纤维/环氧层合复合材料的面外导热系数是目前先进复合材料面临的一大挑战。在这项研究中,将石墨烯泡沫(GrFs)与石墨烯纳米片(GNPs)结合在一起,并与碳纤维(CF)织物复合,构建了一种新型的石墨烯基分层结构。GrFs作为桥接CF织物的导热骨架,显著提高复合材料的面外导热系数,而GNPs有助于进一步增加传热路径,并有效地在连续CF织物之间传递应力,从而获得高机械增强。层叠复合材料的面外导热系数为2.64 W/m·K,比CF/Ep复合材料提高了158.8%,并且具有良好的拉伸、弯曲和层间剪切强度。这主要得益于其层次化的结构、连续的传热路径、GrFs与GNPs的协同增强以及组分之间强的界面相互作用,从而实现高效的热应力传递。



来源:复合材料力学仿真Composites FEM
ACTMechanicalSystemMAGNETDeform断裂复合材料化学油气材料控制试验
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【新文速递】2024年8月3日固体力学SCI期刊最新文章

今日更新:International Journal of Solids and Structures 1 篇,Journal of the Mechanics and Physics of Solids 1 篇,Thin-Walled Structures 1 篇International Journal of Solids and StructuresA continuum model for the mechanics of elastomeric sheets reinforced with extensible bidirectional fibers resistant to lateral pressureWenhao Yao, Tahmid Rakin Siddiqui, Chun I.L. Kimdoi:10.1016/j.ijsolstr.2024.113002用可拉伸双向纤维增强弹性体板抗侧压力学的连续体模型We investigate the concurrent three-dimensional (in-plane and out-of-plane) deformations of fiber-reinforced composite (FRC) sheets undergoing lateral pressure. This involves the utilization of the Neo-Hookean strain energy model for the matrix material and computing the strain energy of bidirectional fibers by accounting for the stretching, bending, and twisting responses of the fibers. The kinematics of FRC are formulated within the framework of differential geometry on FRC surfaces, including the computations of the first and second gradient of deformation. By employing the variational principles, we derive the Euler equations describing the mechanics of the fiber–matrix composite system subjected to lateral pressure. The resulting three-dimensional continuum model theoretically predicts the deformation of the matrix material and it is found that the maximum deformation of matrix material occurs in the diagonal direction of the domain, yet, the center of the domain suffers weak in-plane deformation because of surface tension equilibrium. In addition, the stretching, bending, and twisting kinematics of fiber units are computed to investigate the effects of the individual fiber’s kinematics on the overall deformation of fiber meshwork. Lastly, it is found that the lateral pressure on the FRC surface induces fiber flexure in the vicinity of domain boundaries and fiber stretch inside the domain, corresponding to the intensified shrinking strain near the edges and stretching strain in the middle of the domain. The theoretical results provide phenomenologically meaningful insights into comprehending the damage patterns of the fiber-reinforced building material, the hemispherical dome shaping results of bamboo Poly (lactic) acid (PLA) composites and the out-of-plane deformation of woven fabric.我们研究了纤维增强复合材料(FRC)板在侧向压力下的三维(面内和面外)变形。这涉及到对基体材料的Neo-Hookean应变能模型的利用,并通过考虑纤维的拉伸、弯曲和扭转响应来计算双向纤维的应变能。在FRC曲面的微分几何框架下,建立了FRC的运动学模型,包括第一和第二变形梯度的计算。利用变分原理,导出了描述纤维基复合材料在侧向压力作用下力学特性的欧拉方程。所得的三维连续体模型从理论上预测了基体材料的变形,发现基体材料的最大变形发生在对角线方向,而区域中心由于表面张力平衡而发生微弱的面内变形。此外,还计算了纤维单元的拉伸、弯曲和扭转运动学,以研究单个纤维的运动学对纤维网整体变形的影响。最后,发现FRC表面的侧压力导致区域边界附近的纤维挠曲和区域内的纤维拉伸,对应于区域边缘附近的收缩应变和区域中部的拉伸应变的增强。理论结果为理解纤维增强建筑材料的损伤模式、竹聚乳酸(PLA)复合材料的半球形成形结果以及机织物的面外变形提供了现象学上有意义的见解。Journal of the Mechanics and Physics of SolidsCriterion for unhomogeneous yielding of porous materialsR. Vigneshwaran, A.A. Benzergadoi:10.1016/j.jmps.2024.105804多孔材料非均匀屈服准则A criterion is developed for the unhomogeneous yielding of materials containing arbitrarily oriented ellipsoidal voids. The criterion is built upon classical estimates for pure pressure and pure shear. A data-driven approach is then followed to incorporate the effects of void shape and orientation. A large number of micromechanical unit cell results are used to calibrate the yield criterion. A key feature of the criterion is that it predicts a significant reduction of the effective shear yield strength due to mere void inclination, with the reduction increasing with the void dimension perpendicular to the shear. The coupling between tension and shear deformation results in an apparent rotation of the yield surface, which provides a sound micromechanical basis for predicting void closure in shear among other new features. Once supplemented with evolution equations of relevant internal parameters, the resulting constitutive formulation will enable ductile failure simulations heretofore impossible to carry out on a sound physical basis for general loading conditions.提出了含有任意取向椭球体空洞的材料的非均匀屈服判据。该准则是建立在纯压力和纯剪切的经典估计基础上的。然后采用数据驱动的方法来结合空隙形状和方向的影响。大量的微力学单胞结果被用来校准屈服准则。该准则的一个关键特征是,它预测了有效抗剪屈服强度的显著降低,因为仅仅是空洞倾斜,随着垂直于剪切的空洞尺寸的增加,这种降低也在增加。拉伸和剪切变形之间的耦合导致屈服面出现明显的旋转,这为预测剪切过程中孔隙闭合等新特征提供了良好的微观力学基础。一旦补充了相关内部参数的演化方程,得到的本构公式将使迄今为止不可能在一般加载条件下在可靠的物理基础上进行的延性破坏模拟成为可能。Thin-Walled StructuresControlled swelling-induced shape change of soft gel filled structuresSilvia Monchetti, Roberto Brighenti, Tamara Hanuhov, Noy Cohendoi:10.1016/j.tws.2024.112280控制膨胀诱导的软凝胶填充结构的形状变化Gels are polymers that can imbibe large amounts of solvent and generate large volumetric deformations in a process commonly termed swelling. The swelling-induced deformations can be harnessed to produce pressure against surrounding elastic elements, and therefore lead to spatial shape changes without the need for an external energy source. In the present paper, we consider a thin cylindrical elastic tube that encapsulates a gel and deforms in response to the swelling-induced forces. It is expected that by controlling the spatial stiffness distribution of the tube, the deformed swelling-induced shape can be programmed. We exploit this simple idea to obtain controlled shape change driven by the large volumetric expansion of gels. To this end, we train a machine learning algorithm through many FE simulations that enable solving the inverse problem: for any prescribed swelling-induced target shape, the algorithm provides the spatial stiffness distribution of the thin tube. The results confirm that precise controlled shape change is achievable by exploiting the large swelling-induced volumetric deformations in an autonomous manner (i.e. without the need for any external energy source). This work paves the way for new perspectives in the design of shape-change systems based on the simple yet proper elastic distribution of confining structures.凝胶是一种聚合物,它可以吸收大量的溶剂,并在通常称为膨胀的过程中产生大量的体积变形。膨胀引起的变形可以用来对周围的弹性元件产生压力,从而导致空间形状的变化,而不需要外部能源。在本论文中,我们考虑了一个薄的圆柱形弹性管,它封装了凝胶,并在响应膨胀诱导的力时变形。期望通过控制管材的空间刚度分布,实现管材膨胀变形形状的编程。我们利用这个简单的想法来获得由凝胶的大体积膨胀驱动的可控形状变化。为此,我们通过许多有限元模拟训练了一种机器学习算法,该算法能够解决反问题:对于任何规定的膨胀诱导目标形状,该算法提供了薄管的空间刚度分布。结果证实,通过以自主的方式(即不需要任何外部能源)利用由膨胀引起的大体积变形,可以实现精确控制的形状变化。这项工作为基于简单而适当的约束结构弹性分布的形状变化系统设计的新视角铺平了道路。来源:复合材料力学仿真Composites FEM

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