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【新文速递】2024年5月29日复合材料SCI期刊最新文章

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

Composite Structures

Lightweight damping layer with acoustic black hole profile bonded to beam for broadband vibration reduction

Zhiwei Wan, Xiang Zhu, Tianyun Li, Kexin Zhong, Huchuan Wan

doi:10.1016/j.compstruct.2024.118235

带有声学黑洞轮廓的轻型阻尼层与波束结合,用于宽带减振

Inspired by the thickness reduction and wave focusing characteristics of the acoustic black hole (ABH) effect, a so-called ABH-damping layer (ABHD) is proposed for the broadband vibration reduction of a host structure, different from the common-used uniform thickness damping layer (UNID). The ABHD has a lighter weight and shows better vibration suppression ability. It can overcome the defect that ABHs cannot serve as the main load-bearing component due to the stiffness reduction. The primary beam structure and damping layer both follow the Timoshenko beam theory. The null space method handles the continuity between the two-layer structures. Analyses reveal the difference in vibration suppression characteristics between UNID and ABHD, further exhibiting the wave-gathering properties of ABH. The mass reduction ratio of ABHs is presented under different damping material loss factors. Finally, an experiment is conducted to verify the correctness of the proposed method and the feasibility of designing the ABHD. The damping layer’s weight of ABHD is reduced by 30.8% less than that of UNID, when the material loss factor is equal to 1.0. This study provides a new method for lightweight, strong vibration suppression performance and wide-band vibration reduction in engineering with the application of ABH.

根据声黑洞(ABH)效应的减厚和波聚焦特性,提出了一种不同于常用的均匀厚度阻尼层(UNID)的ABH阻尼层(ABHD),用于主机结构的宽带减振。ABHD具有较轻的重量和较好的抑振能力。它克服了ABHs由于刚度降低而不能作为主要承重构件的缺陷。主梁结构和阻尼层均遵循Timoshenko梁理论。零空间方法处理两层结构之间的连续性。通过分析,揭示了UNID和ABHD在振动抑制特性上的差异,进一步揭示了ABHD的集波特性。给出了不同阻尼材料损耗系数下ABHs的减重比。最后,通过实验验证了所提方法的正确性和设计ABHD的可行性。当材料损耗系数为1.0时,ABHD的阻尼层重量比UNID减少30.8%。该研究为ABH在工程上的应用提供了一种轻量化、强抑振性能和宽频带减振的新方法。


Experimental study of the importance of fibre breakage on the strength of thermoplastic matrix composites subjected to compression after impact

F. Naya, J. Pernas-Sánchez, C. Fernández, P. Zumel, M. Droździel-Jurkiewicz, J. Bieniaś

doi:10.1016/j.compstruct.2024.118238

纤维断裂对热塑性基复合材料冲击压缩强度影响的实验研究

Post-impact strength and damage tolerance of composite structures stands as a paramount design consideration in the aeronautical industry. In the event of a low velocity impact, a set of damage manifestations within laminated structures are induced, including matrix cracking, delamination and fiber breakage. Despite the critical importance of discerning the influence of each damage type on post-impact compression strength, only a limited number of studies have endeavored to quantify these effects comprehensively. In response to this research gap, we have developed a novel methodology capable of mimicking damage extension and shape caused by a low-velocity impact, while preserving fiber integrity. This innovation is achieved through the application of induced electrical currents, thereby facilitating controlled damage simulation without compromising fiber structural integrity. Our investigation compares the residual stiffness and strength of AS4/PEEK laminates subjected to low velocity impacts and induction currents, under conditions of equivalent damage. Our findings reveal that fiber breakage significantly influences the loss of stiffness in the laminate, but not its strength. Moreover, our results confirm the role of delamination as the primary determinant of strength degradation in the damaged material.

复合材料结构的冲击后强度和损伤容限是航空工业设计中最重要的考虑因素。在低速撞击的情况下,层合结构内部会产生一系列损伤表现,包括基体开裂、分层和纤维断裂。尽管识别每种损伤类型对冲击后抗压强度的影响至关重要,但只有有限数量的研究试图全面量化这些影响。为了弥补这一研究空白,我们开发了一种新颖的方法,能够模拟低速撞击造成的损伤扩展和形状,同时保持纤维的完整性。这项创新是通过感应电流的应用实现的,从而在不影响纤维结构完整性的情况下促进可控损伤模拟。我们的研究比较了AS4/PEEK层压板在同等损伤条件下低速冲击和感应电流下的剩余刚度和强度。我们的研究结果表明,纤维断裂显著影响层压板的刚度损失,但对其强度没有影响。此外,我们的研究结果证实了分层是损伤材料强度退化的主要决定因素。


Mechanical properties and regulatory strategy of twinned tetrahedral lattice structures

Ning Zhang, Xiaodong Ma, Peng Dai, Xiaogeng Tian

doi:10.1016/j.compstruct.2024.118239

孪晶四面体晶格结构的力学性能及调控策略

Given the outstanding mechanical performance of lattice metamaterials, novel structural forms and performance modulation strategies have garnered considerable attention. Herein, we develop a twined tetrahedral lattice structure (TTL) with a bending defect inside the unit cell. Mechanical properties before and after the introduction of defects in TTLs were studied using experiments and numerical simulations. The developed structure exhibits strictly stretching-dominated properties in the absence of bending defects. Whereas, the bending-dominant component of TTLs is elevated with increasing bending angle that can increase energy absorption efficiency. Moreover, the relative elastic modulus and initial peak stress can be reduced by even more than 70 % and 50 %, respectively, as the bending angle increases. Besides, a theoretical model for the relative elastic modulus of TTL at θ = 0° was established based on the displacement method on the Representative Volume Element (RVE), including both Euler-Bernoulli beam theory and Timoshenko beam theory. However, the two solutions show consistent results for strictly stretching-dominated structures. The accuracy of solutions is verified by experiments and simulations. The plateau stress theoretical model for TTLs was derived from the deformation process of the RVE based on plastic hinge theory. The theoretical solutions under different θ align well with numerical and experimental results. Overall, TTLs have superior relative elastic modulus, relative yield strength, and specific energy absorption compared to common lattice structures. The developed TTLs provide a new perspective on the property regulation of mechanical metamaterials.

由于晶格超材料优异的力学性能,新的结构形式和性能调制策略引起了人们的广泛关注。在此,我们开发了一种具有弯曲缺陷的缠绕四面体晶格结构(TTL)。采用实验和数值模拟的方法研究了引入缺陷前后ttl的力学性能。在没有弯曲缺陷的情况下,发育的结构表现出严格的拉伸主导性能。弯曲主导成分随着弯曲角度的增加而增加,从而提高了能量吸收效率。随着弯曲角的增大,相对弹性模量和初始峰值应力可分别降低70%和50%以上。此外,基于代表性体积单元(RVE)上的位移法,结合Euler-Bernoulli梁理论和Timoshenko梁理论,建立了θ = 0°时TTL相对弹性模量的理论模型。然而,这两种解对严格拉伸主导结构的结果是一致的。通过实验和仿真验证了解的准确性。基于塑性铰理论,从RVE的变形过程中推导出ttl的平台应力理论模型。不同θ下的理论解与数值和实验结果吻合较好。总的来说,与普通晶格结构相比,ttl具有优越的相对弹性模量、相对屈服强度和比能吸收。所开发的ttl为研究机械超材料的性能调控提供了新的视角。


Composites Part A: Applied Science and Manufacturing

Packaging of ZIF-8 into diatomite sealed by ionic liquid and its application in flame retardant polyurea composites

Xue Bi, Zeqi Zhang, Kunpeng Song, Xiaoyu Zhang, Ye-Tang Pan, Hongqiang Qu, Henri Vahabi, Jiyu He, Rongjie Yang

doi:10.1016/j.compositesa.2024.108283

 

离子液体密封硅藻土包装ZIF-8及其在阻燃聚脲复合材料中的应用

Diatomaceous earth (DE) has abundant silicon elements and unique pore structure, and has a good application prospect in the field of flame retardants. However, the compatibility between DE and polymers still needs to be improved. In this manuscript, imidazole-based metal organic framework (ZIF-8) was ingeniously filled into the pores of the biomorphic DE as an obstacle, and ternary (Si-P-N) composites (DE@ZIF@ILs) were obtained by introducing phosphorus-containing ionic liquids (ILs) on its surface. It effectively improves the problem of poor mechanical properties of polymer composites caused by large-size DE. The results of the cone test showed that the introduction of DE@ZIF@ILs effectively reduced the fire hazard of polyurea (PUA). The peak heat release rate, total heat release, peak smoke production rate and total smoke production decreased by 49.7%, 45.3%, 53.0% and 41.4%, respectively. This study also explored the specific mechanism of flame retardant and smoke suppression of DE@ZIF@ILs.

硅藻土(DE)具有丰富的硅元素和独特的孔隙结构,在阻燃剂领域具有良好的应用前景。然而,DE与聚合物的相容性仍有待提高。本文巧妙地将咪唑基金属有机骨架(ZIF-8)作为障碍物填充到生物形态DE的孔隙中,通过在其表面引入含磷离子液体(ILs)得到三元(Si-P-N)复合材料(DE@ZIF@ILs)。有效改善了大尺寸DE导致聚合物复合材料力学性能差的问题。锥形试验结果表明,DE@ZIF@ILs的引入有效降低了聚脲(PUA)的火灾危险性。峰值放热率、总放热率、峰值产烟率和总产烟率分别下降了49.7%、45.3%、53.0%和41.4%。本研究还探讨了DE@ZIF@ILs阻燃抑烟的具体机理。


Sustainable assembling of graphite flakes into graphite/carbon composite foams with thermal percolative interfaces for active heat dissipation

L.P. Maiorano, N. Verdú, J.M. Molina

doi:10.1016/j.compositesa.2024.108279

 

石墨片可持续组装成具有热渗透界面的石墨/碳复合泡沫,用于主动散热

Current methods for producing open-pore graphite foams with heat dissipation potential involve costly graphitization processes, limiting their widespread use. This study presents a sustainable approach to fabricate high-performance graphite/carbon composite foams with porosities in the range of 49–82 %. The method involves the densification and carbonization of solid mixtures comprising natural graphite flakes, sucrose, and NaCl particles. The dissolution of NaCl creates coarse pores, while carbonized sucrose contributes fine porosity and serves as a binder to impart mechanical stability, ensuring the maintenance of thermally conductive percolative contacts between flakes. The composite foams exhibit thermal conductivities of up to 91 Wm−1K−1, permeability values in the range of 10−11–10−10 m2, and excellent mechanical properties. Experimental and computational findings demonstrate that the developed materials surpass the heat dissipation capabilities of conventional heat sinks based on graphite and aluminum foams by about 3 and 1.5 times, respectively, making them excellent candidates for thermal management applications.

目前生产具有散热潜力的开孔石墨泡沫的方法涉及昂贵的石墨化过程,限制了它们的广泛应用。本研究提出了一种可持续的方法来制备孔隙率在49-82 %范围内的高性能石墨/碳复合泡沫材料。该方法涉及到由天然石墨薄片、蔗糖和NaCl颗粒组成的固体混合物的致密化和碳化。NaCl的溶解形成粗孔,而碳化蔗糖形成细孔,并作为粘合剂赋予机械稳定性,确保薄片之间保持导热渗透接触。复合泡沫材料的导热系数高达91 Wm−1K−1,渗透率在10−11-10−10 m2之间,具有优异的力学性能。实验和计算结果表明,所开发的材料的散热能力分别比基于石墨和泡沫铝的传统散热器高出约3倍和1.5倍,使其成为热管理应用的优秀候选人。


Composites Part B: Engineering

High-yield conversion of lab waste to resources for the development of nanocomposite broadband photocatalysts embracing near-infrared plasmonic effects

Jnanraj Borah, Pallab Pathak, Jyotisman Bora, Sritam Biswas, Pabitra Nath, Arup R. Pal, Bimal K. Sarma

doi:10.1016/j.compositesb.2024.111594

采用近红外等离子体效应的纳米复合宽带光催化剂的高产量转化为资源

This work presents novel and environment-friendly nanocomposite photocatalysts capable of utilizing near-UV, visible, and near-infrared light. The primary phase of the nanocomposite is Al-doped ZnO (AZO), which consists of wurtzite nanocrystallites (size: 10–16 nm) and is produced from the discarded sputtering target constituting about two-thirds of the target mass. The AZO/NiO and AZO/CuO nanocomposites are developed by the ball mill method. X-ray diffraction, X-ray photoelectron spectroscopy, and electron microscopy confirm the formation of nanocomposites with phase purity. The plasmonic peak (∼1900 nm) of AZO is strongly noticeable in the reflectance spectra, which is supported by the electromagnetic simulation of the enhancement of the electric field. The AZO/CuO nanocomposite efficiently degrades environmental pollutants, especially, aqueous sulfamethazine and p-nitrophenol which is evident from the liquid-chromatography mass spectrometry measurements. A mechanism of broadband photon collection, carrier generation, charge separation, and redox reactions is proposed and complemented by the scavenger tests, electrochemical impedance spectroscopy, first principles calculations, and photoconductivity measurements.

这项工作提出了一种新型的、环境友好的纳米复合光催化剂,能够利用近紫外光、可见光和近红外光。纳米复合材料的初级相是al掺杂ZnO (AZO),由纤锌矿纳米晶体(尺寸:10-16 nm)组成,由约占目标质量三分之二的废弃溅射靶产生。采用球磨机法制备了AZO/NiO和AZO/CuO纳米复合材料。x射线衍射、x射线光电子能谱和电子显微镜证实形成了相纯度较高的纳米复合材料。AZO的等离子体峰值(~ 1900 nm)在反射光谱中非常明显,这得到了电场增强的电磁模拟的支持。AZO/CuO纳米复合材料可有效降解环境污染物,特别是水磺胺乙烷和对硝基苯酚,这从液相色谱-质谱测量中可见一斑。提出了宽带光子收集、载流子产生、电荷分离和氧化还原反应的机制,并通过清除剂测试、电化学阻抗谱、第一性原理计算和光电导率测量进行了补充。


来源:复合材料力学仿真Composites FEM
ACTMechanicalInspireMAGNETDeform振动断裂复合材料化学航空电子声学电场BIM理论材料
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首次发布时间:2024-11-14
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【新文速递】2024年5月8日复合材料SCI期刊最新文章

今日更新:Composite Structures 4 篇,Composites Part A: Applied Science and Manufacturing 2 篇,Composites Part B: Engineering 3 篇,Composites Science and Technology 5 篇Composite StructuresThe effect of span length on the flexural properties of glass and basalt fiber reinforced sandwich structures with balsa wood core for sustainable shipbuildingMohamed Chairi, Jalal El Bahaoui, Issam Hanafi, Federica Favaloro, Chiara Borsellino, Fabia Galantini, Guido Di Belladoi:10.1016/j.compstruct.2024.118187跨长对可持续造船用玻璃玄武岩纤维增强轻木芯夹层结构抗弯性能的影响The current research aims to analyze the mechanical characterization of sandwich materials through a three-point flexural test. The sandwich structures in question composed of balsa wood as a core and four different types of fiber reinforced vinyl ester composite facesheets, namely Glass, Basalt, Glass/Carbon, and Basalt/Carbon. The sandwich panels were prepared using the vacuum infused processing method. The primary objective of this investigation is to explore the feasibility of utilizing basalt fibers for the production of structural parts in shipbuilding and replacing the already existed glass fibers. The flexural test was carried out with using three-point flexural test with varying the span length from 120 mm, 180 mm, 220 mm. Additionally, an analysis of variance (ANOVA) was then carried out to compare the mean values of properties deduced from these tests. The results showed that using basalt fibers instead of glass fiber reinforced enhanced the flexural stiffness of the sandwich structure. The flexural strength and modulus are shown to depend on span length and fiber type. The flexural modulus increases with an increase in span length. Similarly, flexural strength increases in glass fiber-based structures, while a slight reduction is observed in basalt fiber-reinforced structures the larger span length. The findings of this research suggest that basalt fibers hold potential as a replacement for glass fibers in producing structural components in shipbuilding. These results offer valuable information that can aid in the design and optimization of sandwich materials in shipbuilding.本研究旨在通过三点弯曲试验分析夹层材料的力学特性。该夹层结构由轻木为核心和四种不同类型的纤维增强乙烯酯复合材料面板组成,即玻璃、玄武岩、玻璃/碳和玄武岩/碳。采用真空灌注法制备夹层板。本研究的主要目的是探索利用玄武岩纤维生产造船结构件的可行性,并取代现有的玻璃纤维。采用跨度为120 mm、180 mm、220 mm的三点弯曲试验进行弯曲试验。此外,方差分析(ANOVA),然后进行比较从这些测试推断的属性的平均值。结果表明,用玄武岩纤维代替玻璃纤维增强夹层结构可以提高夹层结构的抗弯刚度。抗弯强度和模量取决于跨度长度和纤维类型。挠曲模量随跨长的增加而增加。同样,玻璃纤维结构的抗弯强度增加,而玄武岩纤维增强结构的抗弯强度在跨度较大时略有降低。该研究结果表明,玄武岩纤维在造船结构部件生产中具有替代玻璃纤维的潜力。这些结果为船舶夹层材料的设计和优化提供了有价值的信息。Energy absorption behavior of aramid/DCPD backing to determining the blunt trauma criterion of a human head in a ballistic helmetKayode Olaleye, Dariusz Pyka, Adam Kurzawa, Mirosław Bocian, Krzysztof Jamroziakdoi:10.1016/j.compstruct.2024.118172芳纶/DCPD的能量吸收行为为确定防弹头盔中人头部钝性损伤标准提供依据The research involved analyzing a material solution for a 9 mm Full Metal Jacket (FMJ) Parabellum loaded with ballistic impact on a resin laminate strengthened with extra aramid layers. The goal of this research is to determine the impact of material (aramid/DCPD) layer thickness on the energy absorption performance of the laminate for blunt trauma as blunt criterion (BC). For this purpose, aramid fiber laminate with dicyclopentadiene (DCPD) resin matrix was prepared. Laminate samples were tested on the drop test and were subjected to ballistic loads. The ABAQUS/Explicit program and finite element method were used to conduct the study. Individual material systems' optimal solutions were created using numerical analysis, and they were then classified using the mass-efficiency criterion. The numerical results were compared with the experimental using samples prepared according to the modeling methods. Selected results were shown and discussed in the later part of the paper.该研究涉及分析9 mm全金属护套(FMJ) Parabellum的材料解决方案,该护套承载弹道冲击,并通过额外的芳纶层加强树脂层压板。本研究的目的是确定材料(芳纶/DCPD)层厚对钝性损伤层压板吸能性能的影响作为钝性标准(BC)。为此,制备了以二环戊二烯(DCPD)树脂为基体的芳纶纤维层压板。层压板试样进行了跌落试验和弹道载荷试验。采用ABAQUS/Explicit程序和有限元法进行研究。使用数值分析创建了单个材料系统的最优解,然后使用质量效率准则对它们进行分类。利用模拟方法制备的试样,将数值计算结果与实验结果进行了比较。选取的结果在论文的后半部分进行了展示和讨论。Uncertain stochastic vibration characteristic analysis of composite laminated rectangular plate based on improved kriging modelYugeng Chen, Rui Zhong, Qingshan Wang, Liming Chen, Bin Qindoi:10.1016/j.compstruct.2024.118180基于改进kriging模型的复合材料叠合矩形板不确定随机振动特性分析The stochastic vibration analysis of composite laminated structures has been conducted extensively in the field of structural dynamics. Existing studies in this field are primarily conducted based on deterministic structural parameters, whereas the effects of parametric uncertainties on the stochastic vibration characteristics of composite laminated structures are disregarded. This study investigates a composite laminated rectangular plate by considering the effect of interval uncertainty in the intrinsic parameters and load on its stochastic vibration characteristics. A rapid analysis model for the structural stochastic vibration characteristics is established based on an improved kriging model. Additionally, an innovative approach that combines the improved kriging model with intelligent optimization is proposed to solve problems pertaining to uncertainty-propagation analysis of structures. Based on this method, an uncertainty-propagation analysis of structural stochastic vibration responses is efficiently implemented. The effectiveness of the proposed method is demonstrated by comparing the results with those obtained from Monte Carlo simulation. The numerical results indicate that different uncertain factors exert varying degrees of effect on the stochastic vibration characteristics of the plate. Finally, the effects of density, elastic modulus ratio, fiber orientation and load on the interval fluctuation patterns of uncertain responses are discussed.复合材料层合结构的随机振动分析在结构动力学领域得到了广泛的研究。该领域的现有研究主要基于确定性结构参数,忽略了参数不确定性对复合材料层合结构随机振动特性的影响。考虑了复合材料层合矩形板固有参数和载荷的区间不确定性对其随机振动特性的影响。基于改进的kriging模型,建立了结构随机振动特性的快速分析模型。此外,提出了一种将改进的克里格模型与智能优化相结合的创新方法来解决结构的不确定性传播分析问题。基于该方法,可以有效地实现结构随机振动响应的不确定性传播分析。通过与蒙特卡罗仿真结果的比较,验证了该方法的有效性。数值结果表明,不同的不确定因素对板的随机振动特性有不同程度的影响。最后讨论了密度、弹性模量比、纤维取向和载荷对不确定响应区间波动模式的影响。Quasi-static and dynamic behavior analysis of 3D CFRP woven laminated composite auxetic structures for load-bearing and energy absorption applicationsEhsan Etemadi, Minglonghai Zhang, Mohaddeseh Gholikord, Keda Li, Mabel Mei Po Ho, Hong Hudoi:10.1016/j.compstruct.2024.118182三维CFRP编织层合复合材料减振结构的准静动态性能分析This paper investigated the quasi-static and dynamic behavior of 3D auxetic metamaterial structures made from carbon fiber reinforced polymer (CFRP) laminated composite. The aim of the study was to enhance design methodologies for load-bearing and energy absorption applications of these 3D novel structures, filling the research gap in understanding their response to quasi-static and especially dynamic loadings. The two novel 3D structures were designed and fabricated by using an interlocking assembly method based on the 2D auxetic CFRP sheets, which were formed with hybrid double-arrow-head with re-entrant and star unit-cells and made with plain weave carbon epoxy prepregs. The finite element (FE) method was adopted to analyze the mechanical characteristics of the structures under the quasi-static and dynamic loading, and Hashin failure criteria were used to define damage in the structures. The study showed that the designed 3D auxetic CFRP structures simultaneously exhibit superior auxeticity, load-bearing, and energy absorption capacity.研究了碳纤维增强聚合物(CFRP)层合复合材料三维增塑型超材料结构的准静态和动态行为。该研究的目的是增强这些3D新型结构的承载和能量吸收应用的设计方法,填补在理解其对准静态,特别是动态负载的响应方面的研究空白。基于复合碳纤维增强玻璃钢(CFRP)复合材料,采用复合双箭头和星形单元格,并采用平纹环氧预浸料制成复合碳纤维增强玻璃钢复合材料,采用联锁装配的方法设计和制造了两种新型三维结构。采用有限元法分析了结构在准静、动载荷作用下的力学特性,并采用Hashin破坏准则定义了结构的损伤。研究表明,所设计的三维碳纤维增强塑料结构同时具有较好的增强性、承载能力和吸能能力。Composites Part A: Applied Science and ManufacturingHigh-temperature transient-induced thermomechanical damage of fiber-reinforced ceramic-matrix composites in supersonic wind tunnelJiangtao Wang, Zhengmao Yang, Rui Yang, Jian Jiao, Lianjie Yue, Xiao Houdoi:10.1016/j.compositesa.2024.108243超声速风洞中纤维增强陶瓷基复合材料高温瞬态热力学损伤研究This article is based on the supersonic directly connected wind tunnel. Through a specially designed experimental chamber, combined with infrared temperature measurement, high-speed camera, etc., in-situ monitoring of composite materials under airflow at Ma 3.0 with a total temperature of 950 ∼ 1473K was carried out. The dimensional analysis method was used to propose dimensionless parameters to characterize the thermal coupling caused by high-speed airflow thermal shock. Research has shown that the thermal coupling effect of supersonic airflow causes uneven temperature inside the material, and the thermal stress caused by temperature gradient changes (including increasing and decreasing processes) is the main reason for material damage. The damage of ceramic matrix composites under thermal shock mainly manifests as a decrease in surface roughness, surface fiber fracture and a decrease in elastic modulus. In addition, the study also found that there are damage thresholds for the thermal shock effect of airflow at different total temperatures, which helps to further understand the thermomechanical damage mechanism and degradation law of composite structure under high-temperature transient conditions.本文基于超音速直连风洞。通过专门设计的实验舱,结合红外测温、高速摄像等手段,对复合材料在 Ma 3.0 气流下的总温度 950 ∼ 1473K 进行了原位监测。利用尺寸分析方法提出了表征高速气流热冲击引起的热耦合的无量纲参数。研究表明,超音速气流的热耦合效应导致材料内部温度不均匀,温度梯度变化(包括上升和下降过程)引起的热应力是材料损伤的主要原因。陶瓷基复合材料在热冲击下的损伤主要表现为表面粗糙度下降、表面纤维断裂和弹性模量降低。此外,研究还发现不同总温下气流热冲击效应存在损伤阈值,有助于进一步了解高温瞬态条件下复合材料结构的热力学损伤机理和降解规律。Compression and hydrothermal ageing after impact of carbon fibre reinforced epoxy laminatesRowan L. Caldwell, Peter Davies, Mael Arhant, B. Gangadhara Prustydoi:10.1016/j.compositesa.2024.108258 碳纤维增强环氧层压板冲击后的压缩和水热老化This paper proposes a new methodology for the assessment of seawater ageing effects on impact-damaged composite laminates. CF/Epoxy laminates which were unimpacted, and impacted at 30 J, 60 J, and 90 J by hemispherical and conical impactors were subject to 4 months hydrothermal ageing in renewed natural seawater at 60 +/-2 °C. The majority of water uptake by impacted laminates (0.05 wt% − 0.3 wt%) occurred in the first 24 h and is believed to be held in damage cavities by capillary mechanisms. The increase in diffusive water uptake rate by the matrix due to impact damage was only small, at less than 0.008 wt%.mm.hr−0,5, compared with the total diffusive water uptake rate of 0.1 wt%.mm.hr−0,5. Hydrothermal ageing reduced the residual compressive strength of pristine laminates by 25 % and impact-damaged laminates by 8 % to 16 % for impacts between 30 J and 90 J.提出了一种评估海水老化对冲击损伤复合材料层合板影响的新方法。未受冲击以及在30 J、60 J和90 J下受半球形和锥形冲击的CF/环氧树脂层合板在60 +/-2 °C的再生自然海水中进行了4 个月的热液老化。受冲击层压板的大部分吸水(0.05 wt% - 0.3 wt%)发生在前24 小时,并且被认为是通过毛细管机制保持在损伤腔中。冲击损伤导致基体扩散吸水率的增加很小,小于0.008 wt%.mm。总扩散吸水率为0.1 wt%.mm. Hr−0,5。在30 J和90 J之间,水热老化使原始层压板的残余抗压强度降低了25% %,冲击损伤层压板的残余抗压强度降低了8% %至16% %。Composites Part B: EngineeringBiomimetic papilla texture by femtosecond laser for high-strength CFRTP/A6061-T6 FSSW hybrid structuresXiaoyang Bi, Hua Liu, Yan Li, Mengjia Xu, Zhenmin Wangdoi:10.1016/j.compositesb.2024.111500飞秒激光对高强度CFRTP/A6061-T6 FSSW杂化结构的仿生乳 头织构The lightweight design concept in structural applications has generated interest in hybrid structures of carbon-fiber-reinforced thermoplastics (CFRTP) and metals as attractive structure components. However, these hybrid structures face challenges due to the significant differences in physical and chemical properties between CFRTP and metals, resulting in limited strength and rendering them unsuitable for advanced transportation. To address these limitations, the current research focuses on creating a biomimetic texture on A6061-T6 (6061) surfaces using femtosecond laser to manufacture high-strength hybrid structures, inspired by organismal body surfaces. The CFRTP and 6061 were joined by friction stir spot welding (FSSW). The femtosecond laser treatment produces double-scale roughness on 6061 surfaces and causes carbon to absorb into alumina. These changes in physical and chemical structures enhance the compatibility between 6061 and CFRTP. The biomimetic rough aluminum surface creates effective mechanical interlock at the interface with CFRTP, preventing the initiation and propagation of fracture cracks. The presence of absorbed carbon enhances the Al-O covalency, which influences the bonding behavior at CFRTP/6061 interfaces. The improved compatibility, mechanical interlock, and enhanced bonding behavior synergistically strengthen the joint strength of CFRTP/6061 hybrid structure modified by the biomimetic papilla structure. Current biomimetic design strategy inherits the remarkable natural wisdom and is expected to provide valuable insights for the development and application of CFRTP/metal hybrid structures.结构应用中的轻量化设计概念引起了人们对碳纤维增强热塑性塑料(CFRTP)和金属混合结构作为有吸引力的结构部件的兴趣。然而,由于CFRTP与金属在物理和化学性质上的显著差异,这些混合结构面临着挑战,导致其强度有限,不适合先进的运输。为了解决这些限制,目前的研究重点是利用飞秒激光在A6061-T6(6061)表面上创建仿生纹理,以制造高强度混合结构,灵感来自生物体表面。采用搅拌摩擦点焊(FSSW)连接CFRTP和6061。飞秒激光处理在6061表面产生双尺度粗糙度,并导致碳被氧化铝吸收。这些物理和化学结构的变化增强了6061与CFRTP的相容性。仿生粗糙铝表面与CFRTP界面形成有效的机械联锁,防止断裂裂纹的萌生和扩展。吸附碳的存在增强了Al-O共价,影响了CFRTP/6061界面的成键行为。仿生乳 头结构修饰的CFRTP/6061杂化结构的相容性改善、机械互锁、键合行为增强,协同增强了其结合强度。目前的仿生设计策略继承了非凡的自然智慧,有望为CFRTP/金属混合结构的发展和应用提供有价值的见解。From experimental testing to computational modelling: A review of shape memory alloy fiber-reinforced concrete compositesAlireza Tabrizikahou, Mieczysław Kuczma, Christoph Czaderski, Moslem Shahverdidoi:10.1016/j.compositesb.2024.111530从实验测试到计算模型:形状记忆合金纤维增强混凝土复合材料综述Shape memory alloys (SMAs) have unique characteristics, such as the shape memory effect, which allows them to recover their initial shape after being deformed when stimulated, and pseudoelasticity, which enables them to accommodate large deformation without residual strains after being unloaded. SMAs may be used as short fibers in fiber-reinforced concrete (FRC) composites to pre-stress, heal fractures, and re-center themselves. As a result, SMA-FRC is a potential alternative to conventional construction materials in a wide range of applications. SMA-FRC composite application and modeling may present challenges, such as computational modeling complexities, practical constraints regarding fiber volume fraction, fiber-to-concrete adhesion strength, and the complex temperature-based activation of SMA fibers embedded in concrete. Despite these challenges and difficulties, significant work toward resolution is being made, making SMA-FRC an innovative technology with many potential research and development alternatives. This article presents an overview of experimental testing, computational methods, limitations, and future research potential for SMA-FRC composite materials. The study also looks at practical applications of SMA fibers in concrete composites including beam–column junctions, pre-stressing, and self-healing, as well as major developments and implications. The advantages and limits of several computational strategies for studying SMA-FRCs are discussed. The research suggests multiscale modeling as an effective approach for analyzing SMA-FRC, and a unique example of SMA-FRC multiscale modeling is briefly demonstrated. In conclusion, this research emphasizes the significant potential of SMA-FRC composites as novel construction materials with prospective practical applications, as well as the importance of multiscale modeling in SMA-FRC computational modeling.形状记忆合金(sma)具有独特的特性,如形状记忆效应,使其在受刺 激变形后能够恢复其初始形状,以及伪弹性,使其能够在卸载后适应大变形而不产生残余应变。sma可以用作纤维增强混凝土(FRC)复合材料中的短纤维,用于预应力、愈合裂缝和重新居中。因此,SMA-FRC在广泛的应用中是传统建筑材料的潜在替代品。SMA- frc复合材料的应用和建模可能会带来挑战,例如计算建模的复杂性、纤维体积分数、纤维与混凝土粘合强度的实际限制,以及嵌入混凝土中的SMA纤维基于温度的复杂活化。尽管存在这些挑战和困难,但人们正在努力解决这些问题,使SMA-FRC成为一项具有许多潜在研究和开发替代方案的创新技术。本文概述了SMA-FRC复合材料的实验测试、计算方法、局限性和未来的研究潜力。该研究还着眼于SMA纤维在混凝土复合材料中的实际应用,包括梁柱连接、预应力和自修复,以及主要发展和影响。讨论了几种用于研究SMA-FRCs的计算策略的优点和局限性。研究表明,多尺度建模是分析SMA-FRC的有效方法,并简要介绍了一个独特的SMA-FRC多尺度建模实例。总之,本研究强调了SMA-FRC复合材料作为具有实际应用前景的新型建筑材料的巨大潜力,以及SMA-FRC计算建模中多尺度建模的重要性。Coating effect of metal organic complex (Co-DTPMP) layer on enhancing PEC water oxidation performance of BiVO4 photoanodeAlaa Magdy Saad, Mostafa Saad Sayed, Amr Hussien Mady, Woo Kyoung Kimdoi:10.1016/j.compositesb.2024.111534 金属有机配合物(Co-DTPMP)涂层对提高BiVO4光阳极PEC水氧化性能的影响Photoelectrochemical (PEC) water splitting is a promising method for transforming solar energy into clean and sustainable energy. However, PEC is severely limited, and they cannot achieve the predicted photocurrent density owing to the severe photochemical deterioration of the electrode and the recombination of photogenerated carriers. In this study, BiVO4/Co- diethylenetriamine Penta (methylene phosphonic acid) (BVO/Co-DTPMP) co-catalyst was successfully prepared as a nanoporous photoanode. Diethylenetriamine Penta (methylene phosphonic acid) was crosslinked with Co ions and coated on the BiVO4 surface by successive ionic layer adsorption and reaction (SILAR) to reduce fast recombination, which correlated with the BiVO4 photoanode. Various characterization and PEC measurements were conducted, revealing that the co-catalyst thin layer enhanced the charge separation and electrons transfer which significantly affected on the PEC performance of BiVO4, and the current density by BVO/Co-DTPMP was 4 mA cm−2 at 1.23 V vs. RHE. Furthermore, the co-catalyst exhibited improved charge transport and long-term stability.光电化学水分解是一种很有前途的将太阳能转化为清洁和可持续能源的方法。然而,PEC受到严重限制,由于电极严重的光化学劣化和光生载流子的重组,它们无法达到预期的光电流密度。本研究成功制备了BiVO4/Co-二乙烯三胺五亚甲基膦酸(BVO/Co- dtpmp)共催化剂作为纳米孔光阳极。二乙烯三胺五(亚甲基膦酸)与Co离子交联,并通过连续离子层吸附和反应(SILAR)涂覆在BiVO4表面,以减少快速复合,这与BiVO4光阳极相关。各种表征和PEC测量结果表明,共催化剂薄层增强了BiVO4的电荷分离和电子转移,显著影响了BiVO4的PEC性能,BVO/Co-DTPMP在1.23 V时的电流密度为4 mA cm−2。此外,共催化剂表现出更好的电荷输运和长期稳定性。Composites Science and TechnologyComparison of piezoresistive sensitivity based on the size of silica as secondary filler on hybrid CNT compositesKun-Woo Nam, Oh-Nyoung Hur, Byung-Ho Kang, Sung-Hoon Parkdoi:10.1016/j.compscitech.2024.110642 杂化碳纳米管复合材料中二次填料二氧化硅尺寸对压阻灵敏度的影响Recent research has increasingly focused on the potential applications of carbon nanotube (CNT) hybrid composites in wearable sensor technologies. Piezoresistivity, which is characterized by the ability to detect alterations in electrical resistance in response to external forces, is a pivotal attribute of resistive sensors. Numerous studies have attempted to improve this performance by incorporating secondary fillers. Despite extensive efforts to comprehend the influence of the dimensions of secondary fillers on electrical conductivity under static and dynamic conditions, notable confusion persists in the literature regarding the comparative analysis of the effects of nano- and microscale secondary fillers. In this study, two distinct sizes of silica particles were introduced as secondary fillers in CNT/polymer composites, followed by a rigorous comparative analysis of their mechanical and electrical properties under static conditions. Furthermore, this study assessed the influence of the silica particle size on the electrical resistance under dynamic tensile conditions, elucidating its impact on the conductive network.碳纳米管(CNT)复合材料在可穿戴传感器技术中的潜在应用日益受到关注。压阻性是电阻式传感器的关键属性,其特点是能够检测响应外力的电阻变化。许多研究都试图通过加入二次填料来改善这一性能。尽管在理解静态和动态条件下二次填料的尺寸对电导率的影响方面做了大量的努力,但关于纳米级和微米级二次填料影响的比较分析,文献中仍然存在明显的混乱。在这项研究中,引入了两种不同尺寸的二氧化硅颗粒作为CNT/聚合物复合材料的二次填料,然后对它们在静态条件下的力学和电学性能进行了严格的比较分析。此外,本研究还评估了动态拉伸条件下二氧化硅粒径对电阻的影响,阐明了其对导电网络的影响。Microstructural Evolution of Highly Aligned Discontinuous Fiber Composites during Longitudinal Extension in FormingThomas A. Cender, Pavel Simacek, John W. Gillespie, Suresh G. Advanidoi:10.1016/j.compscitech.2024.110649 高对准不连续纤维复合材料纵向拉伸成形过程中的显微组织演变The longitudinal extensional viscosity of a highly aligned discontinuous fiber (ADF) thermoplastic matrix composite is investigated to develop a model and validate microstructural evolutionary mechanisms. Samples stretched at constant temperature and strain rate are shown to exhibit a strain softening behavior. X-ray CT analysis and optical micrographs show that the composite microstructure deconsolidates before forming and evolves with deformation. The conventional unit cell micromechanical model includes the effects of matrix viscosity, fiber aspect ratio and fiber volume fraction. This model is modified to include the stiffening effect of fiber spacing variability, and the softening effects of porosity and decreasing fiber overlap length with elongation. Calibration of the model reveals that matrix shear strain rate is an order of magnitude higher than previously predicted due to local fiber spacing. This effect is captured by a fiber spacing variability parameter which scales average spacing down by an order of magnitude. The observed strain softening behavior is described and a combinations of fiber overlap length reduction and local fiber spacing increase.研究了高度排列不连续纤维(ADF)热塑性基复合材料的纵向拉伸粘度,建立了模型并验证了微观结构的演化机制。在恒定温度和应变速率下拉伸的样品显示出应变软化行为。x射线CT分析和光学显微照片表明,复合材料的微观组织在成形前就开始反固结,并随着变形而演变。传统的单胞细观力学模型考虑了基体粘度、纤维长径比和纤维体积分数的影响。对该模型进行了修正,加入了纤维间距变异性的增强效应、孔隙率和纤维重叠长度随伸长率的减小而减小的软化效应。模型的校正表明,由于局部纤维间距的影响,基体剪切应变率比先前预测的高一个数量级。这种效应由光纤间距变异性参数捕获,该参数将平均间距缩小一个数量级。描述了观察到的应变软化行为和纤维重叠长度减少和局部纤维间距增加的组合。Biobased, recyclable, and multi-functional high-performance composites for electromagnetic interference shieldingXiao-Li Zhao, Yi-Dong Li, Long-Yang Zhan, Jian-Bing Zengdoi:10.1016/j.compscitech.2024.110635 生物基,可回收,多功能高性能电磁干扰屏蔽复合材料High-performance fiber-reinforced thermoset composites (FRTCs) are highly demanded in modern society but are challenged because they depend on nonrenewable fossil-based feedstocks, are hard to recycle after service, and lack advanced functions. Here, we report a methodology to fabricate sustainable, recyclable, high-performance, and multifunctional FRTCs from renewable feedstocks such as vanillin, glycerol triglycidyl ether, 1,10-diaminodecane, and basalt fiber. We designed a mussel-inspired approach to prepare high conductive basalt fiber (CBF), and combined the CBF with a fully biobased covalent adaptable network (CAN) based on dynamic imine bonds to produce the composites i.e., CAN/CBF laminar composites through a solvent-free method. The CAN/CBF composites showed highly reinforced mechanical properties and multiple functionalities including electromagnetic interference shielding, shape memory and self-adhesion characters through combination in the advantages and functions of both CAN and CBF. Furthermore, we demonstrate that the CAN matrix and the reinforced CBF can be recycled separately and can be further reformed to the CAN/CBF composites due to the dynamic nature of the CAN matrix. Our study thus provides an urgently applicable approach for advanced manufacturing toward the green and circular advanced composites economy.高性能纤维增强热固性复合材料(frtc)在现代社会需求量很大,但由于其依赖于不可再生的化石基原料,使用后难以回收,缺乏先进的功能而受到挑战。在这里,我们报告了一种利用可再生原料(如香兰素、甘油三甘油酯醚、1,10-二氨基癸烷和玄武岩纤维)制造可持续、可回收、高性能和多功能frtc的方法。我们设计了一种以贻贝为灵感的方法来制备高导电性玄武岩纤维(CBF),并将CBF与基于动态亚胺键的全生物基共价自适应网络(CAN)结合,通过无溶剂方法制备了CAN/CBF层状复合材料。通过将CAN和CBF的优点和功能结合在一起,CAN/CBF复合材料具有高强度的力学性能和电磁干扰屏蔽、形状记忆和自粘等多种功能。此外,我们证明了CAN基体和增强的CBF可以单独回收,并且由于CAN基体的动态特性,可以进一步改造成CAN/CBF复合材料。因此,我们的研究为实现绿色循环先进复合材料经济的先进制造提供了一条迫切适用的途径。Low velocity impact response of Automated Fiber Placement Advanced Placed Ply compositesRutger Kok, Ramón Cuvillo, Verónica Rodríguez-García, Jesús Pernas, José Alfonso Artero-Guerrero, Roberto Guzmán de Villoria, Francisca Martínez-Herguetadoi:10.1016/j.compscitech.2024.110636 自动铺放先进铺层复合材料的低速冲击响应This study explores the influence of the internal architecture in the low-velocity impact response of Automated Fiber Placement Advanced Placed Ply laminates. AP-PLY laminates with different lay-up are subjected to low velocity impact and compression after impact experiments. Different performance in terms of damage tolerance is obtained as a function of their internal architecture. Triaxial and quasi-isotropic AP-PLY configurations presented a reduced extension of the delamination in comparison to cross-ply panels. As a result, the cross-ply configuration exhibited a drastic loss in residual strength of 49.1% when subjected to 50 J of impact energy. Numerical simulations were employed to provide insight into the deformation and failure mechanisms (e.g., matrix cracking of directly impacted yarns, delamination or tow debonding), and assess the performance of AP-PLY against conventional angle-ply laminates, predicting larger delamination for the latter, showing the potential of the AP-PLY architecture to produce laminates with improved low-velocity impact performance.本研究探讨了内部结构对自动铺放先进铺层板低速冲击响应的影响。通过冲击试验,对不同铺层的AP-PLY复合材料进行了低速冲击和压缩试验。在损伤容限方面的不同性能是其内部结构的函数。与交叉铺层板相比,三轴和准各向同性AP-PLY配置的分层扩展减少。结果表明,当冲击能量为50j时,交叉层结构的残余强度损失高达49.1%。通过数值模拟,研究了AP-PLY复合材料的变形和破坏机制(例如,直接撞击纱线的基体开裂、分层或束脱粘),并评估了AP-PLY复合材料与传统角股复合材料的性能,预测后者会出现更大的分层,显示了AP-PLY复合材料在提高低速冲击性能方面的潜力。Piezoresistivity Analyses of GNP-filled Composite Piezoresistor Under Cycling Loading and Correlation with The Monte Carlo Percolation ModelMelike Nur Önder, Mehmet Ali Gülgün, Melih Papiladoi:10.1016/j.compscitech.2024.110641 循环加载下gnp填充复合压敏电阻的压阻分析及其与蒙特卡罗渗流模型的相关性This paper presents a composite piezoresistor made of graphite paste and graphene nano-platelets (GNP). We focused on fluctuations in the gauge factor of piezoresistive composites and their dependence on the amplitude of strain cycles. A three-dimensional Monte Carlo percolation model was created. The model examines how the interactions between fillers and deformation-driven geometric changes could affect piezoresistivity. The present model of the composite piezoresistor simulates the percolation path for conduction through tunneling and capacitive interaction of particle pairs. Strain cycles of different amplitudes (loading parameter) and Poisson’s ratios (material parameter) are the variables of the analyses by the model. During the loading, the algorithm simulates the cross-sectional shrinkage of the matrix given the Poisson’s ratio. Shrinkage of the matrix enhances the conductance while the extension decreases it. Simulations demonstrated that the impact of the shrinkage on piezoresistivity varies with the amplitude of the strain. The results of the experimental plan for the composite piezoresistors are qualitatively in line with the simulations verifying the dominant influence of variations in extension/shrinkage amplitude as the main reason for a degrading gauge factor.本文介绍了一种由石墨糊和石墨纳米片(GNP)制成的复合压敏电阻。我们重点研究了压阻复合材料的应变系数波动及其与应变周期幅值的关系。建立了三维蒙特卡罗渗流模型。该模型考察了填料之间的相互作用和变形驱动的几何变化如何影响压电阻率。该复合压阻模型模拟了隧道传导的渗透路径和粒子对的电容性相互作用。不同幅值的应变循环(加载参数)和泊松比(材料参数)是模型分析的变量。在加载过程中,该算法在给定泊松比的情况下模拟了基体的截面收缩。基体的收缩提高了电导,而拉伸降低了电导。模拟结果表明,收缩对压阻率的影响随应变幅值的变化而变化。复合压敏电阻实验方案的结果与仿真结果在定性上一致,验证了扩展/收缩幅度的变化是导致测量因子退化的主要原因。来源:复合材料力学仿真Composites FEM

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