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【新文速递】2024年1月19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 5 篇,Composites Science and Technology 1 篇

Composite Structures

Bending fatigue behaviour of internal replacement pipe systems

Shanika Kiriella, Allan Manalo, Cam Minh Tri Tien, Hamid Ahmadi, Patrick G. Dixon, Warna Karunasena, Ahmad Salah, Brad P. Wham

doi:10.1016/j.compstruct.2024.117910

内换管系统的弯曲疲劳特性

Internal replacement pipe (IRP) systems are becoming an effective rehabilitation technique for legacy oil and gas pipelines with defects and discontinuities. Under repetitive traffic loads, the IRP-repaired pipes are subjected to fatigue. However, existing knowledge on the fatigue behaviour and remaining service life of IRP systems with circumferential discontinuities under cyclic bending is limited. Therefore, this paper investigated numerically the bending fatigue behaviour of legacy pipelines with circumferential discontinuities rehabilitated with IRP made from various material systems. The influence of the discontinuity width of the host pipe, thickness and elastic modulus of IRP, and level of traffic loading on the fatigue behaviour is evaluated. The results show that the tensile stress concentration at the discontinuity edge controls the bending fatigue behaviour of fully bonded IRP. The critical stresses and the minimum fatigue lifetimes are considerably influenced by the thickness and elastic modulus of the IRP systems, and the level of traffic loading while the width of the circumferential discontinuity has an insignificant effect. Multiple regression analyses show that the level of the traffic load has the most significant effect on the critical stress generated in the IRP, while the largest contribution to the minimum fatigue life comes from the elastic modulus of the repair material.

内部替换管道(IRP)系统正在成为一种有效的修复技术,用于修复存在缺陷和不连续性的传统油气管道。在重复的流量载荷作用下,irp修复的管道会产生疲劳。然而,现有的关于具有周向不连续的IRP系统在循环弯曲下的疲劳行为和剩余使用寿命的知识是有限的。因此,本文对采用不同材料体系的IRP修复具有周向不连续的遗留管道的弯曲疲劳行为进行了数值研究。评估了主管不连续宽度、IRP厚度和弹性模量以及交通荷载水平对其疲劳行为的影响。结果表明,不连续边缘处的拉应力集中控制着全粘结IRP的弯曲疲劳行为。临界应力和最小疲劳寿命受IRP系统的厚度、弹性模量和交通荷载水平的显著影响,而周向不连续面宽度的影响不显著。多元回归分析表明,交通荷载水平对IRP产生的临界应力影响最显著,而修复材料的弹性模量对最小疲劳寿命的贡献最大。


Mechanical Response of Carbon Fiber Reinforced Epoxy Composite Parts Joined with Varying Bonding Techniques for Aerospace Applications

Furkan Karaboğa, Fatih Göleç, Doruk Erdem Yunus, Serkan Toros, Yahya Öz

doi:10.1016/j.compstruct.2024.117920

航空航天用不同粘接技术的碳纤维增强环氧复合材料部件的力学响应

As a result of the widespread use of composite materials in primary structures of aerospace platforms, composite joining became more crucial. This study addresses the effect of joining methods on the strength of composite joints experimentally, numerically and analytically. Single lap joint shear strengths of carbon fiber reinforced epoxy composite parts joined by mechanical fastening with a pop rivet and solid rivet, secondary bonding with a paste adhesive, co-curing and co-bonding techniques were compared. In addition, the effect of adhesive thicknesses (0.2, 0.4, 0.6, 0.76 mm) on the single lap shear strength was investigated. Carbon fiber reinforced composite (CFRP) samples were produced according to the ASTM 5868 standard. After the production of samples with varying joining methods, single lap shear tests were implemented. Moreover, the interface damage in composites was examined by use of a scanning electron microscope (SEM) for the purpose of studying the damage mechanism. Fracture mechanisms corresponding with bonding methods were also assessed by examining the fracture surface of the composite samples. Furthermore, results were analyzed by Hypermesh, ABAQUS and ESAComp. For instance, the co-bonded sample with an adhesive film exhibits an experimental shear strength of 24.03 MPa which deviates only 3 % from the numerical expectation.

随着复合材料在航空航天平台初级结构中的广泛应用,复合材料连接变得更加关键。本文研究了不同连接方式对复合材料接头强度的影响。比较了流行铆钉与实钉机械紧固、粘贴胶二次粘接、共固化和共粘接碳纤维增强环氧复合材料零件的单搭接抗剪强度。此外,还研究了胶粘剂厚度(0.2、0.4、0.6、0.76 mm)对单次搭接抗剪强度的影响。碳纤维增强复合材料(CFRP)样品按ASTM 5868标准生产。在制作出不同连接方式的试件后,进行了单搭接剪切试验。利用扫描电子显微镜(SEM)对复合材料的界面损伤进行了研究。通过观察复合材料试样的断口形貌,对不同粘结方式下的断裂机制进行了评价。利用Hypermesh、ABAQUS和ESAComp对结果进行分析。例如,带胶膜的共粘结试样的实验抗剪强度为24.03 MPa,与数值预期偏差仅为3%。


Enhanced mechanical properties of re-entrant auxetic honeycomb with self-similar inclusion

Zeyao Chen, Junhao Li, Baisheng Wu, Xin Chen, Yi Min Xie

doi:10.1016/j.compstruct.2024.117921

具有自相似夹杂物的可重入型消蚀蜂窝的力学性能增强

A new auxetic honeycomb configuration is proposed by adding self-similar inclusion to the conventional re-entrant hexagonal structure. Theoretical models of the elastic mechanical property are developed for both auxetic honeycombs. The new re-entrant honeycomb exhibits enhanced auxeticity and stiffness compared to the original structure. Both experimental and numerical simulation methods are employed to investigate the in-plane compressive behavior of the auxetic structures, and they show good agreement. The dramatic increase in stiffness observed in the stress-strain curve of the novel auxetic structure can be attributed to self-contact during compression, leading to a significant escalation in plateau stress. The specific energy absorption of the new auxetic structure is approximately 10 times greater than that of the original structure. In addition, the new design enhances the stability of compressive deformation, resulting in a more consistent negative Poisson’s ratio effect. A parametric study of the inclusion’s geometry is also conducted using the validated numerical model, demonstrating that the concave angle of the inclusion is a key parameter to influence the energy absorption capability and compressive stability. Reducing the height-to-length ratio of the entire structure can significantly prevent its buckling. The proposed auxetic honeycomb exhibits significant potential for application in protection engineering, due to its superior stiffness and energy absorption capacity.

在传统的可入式六边形结构基础上加入自相似包体,提出了一种新的消声蜂窝结构。建立了两种辅助蜂窝弹性力学性能的理论模型。与原来的结构相比,新的可重新进入的蜂窝结构表现出增强的可塑性和刚度。采用实验和数值模拟两种方法对消声结构的面内压缩特性进行了研究,结果吻合较好。在应力-应变曲线中观察到的这种新型结构的刚度急剧增加可归因于压缩过程中的自接触,导致平台应力显著升高。新结构的比能量吸收比原结构大约10倍。此外,新设计增强了压缩变形的稳定性,导致更一致的负泊松比效应。采用验证的数值模型对夹杂物的几何形状进行了参数化研究,结果表明,夹杂物的凹角是影响其吸能能力和压缩稳定性的关键参数。降低整个结构的高长比可以显著防止结构的屈曲。所提出的消声蜂窝由于其优越的刚度和能量吸收能力,在防护工程中具有重要的应用潜力。


Composites Part A: Applied Science and Manufacturing

Liquid metal-facilitated flexible electrospun thermoplastic polyurethane fibrous mats with aligned wavelike structure for strain and triboelectric double-mode sensing

Jiannan Li, Yi Zhao, Xinxin Zhao, Wei Zhai, Kun Dai, Chuntai Liu, Changyu Shen

doi:10.1016/j.compositesa.2024.108031

液态金属促进柔性电纺热塑性聚氨酯纤维垫与排列波状结构的应变和摩擦电双模传感

Flexible electronic skins (E-skins) have attracted widespread attention in artificial intelligence. Nevertheless, it still remains a huge challenge to fabricate multi-functional flexible E-skins through simple and efficient method. Herein, we present an E-skin with aligned wavelike structure for strain and triboelectric double-mode sensing, which is based on the composite of aligned liquid metal (LM)/ thermoplastic polyurethane (TPU) fibrous mat (ALTFM) through a strategy of electrospinning, coating and pre-stretching. The ALTFM possesses good strain sensing performances including wide sensing range (up to 430% strain), fast response/recovery time (400 ms) and long-term durability. The ALTFM based E-skins demonstrates good triboelectric properties, including a high open-circuit voltage (VOC) of 255 V and a large power density of 27.6 mW/m2, resulting in reliable power supply and self-powered sensing capability. The assembled ALTFM can capture the trajectory of full range human motion stimuli, showing a broad application prospect in next generation wearable electronic devices.

柔性电子皮肤(e -skin)在人工智能领域引起了广泛关注。然而,如何通过简单高效的方法制备多功能柔性电子皮肤仍然是一个巨大的挑战。在此,我们提出了一种基于定向液态金属(LM)/热塑性聚氨酯(TPU)纤维垫(ALTFM)复合材料,通过静电纺丝、涂覆和预拉伸的策略,具有定向波浪形结构的应变和摩擦电双模传感电子皮肤。ALTFM具有良好的应变传感性能,包括宽传感范围(高达430%的应变),快速响应/恢复时间(400 ms)和长期耐用性。基于ALTFM的电子皮肤具有良好的摩擦电性能,包括255 V的高开路电压(VOC)和27.6 mW/m2的大功率密度,从而实现可靠的供电和自供电传感能力。组装后的ALTFM可以捕捉人体全范围运动刺 激的轨迹,在下一代可穿戴电子设备中显示出广阔的应用前景。


Sand Casting-inspired Surface Modification of 3D-printed Porous Polyetheretherketone Scaffolds for Enhancing Osteogenesis

Jingjie Yu, Yuhan Zhang, Jiabao Guo, Xinrui Shu, Qinqin Lu, Qiang Chen

doi:10.1016/j.compositesa.2024.108033

基于砂型铸造的3d打印多孔聚醚醚酮支架表面改性促进成骨

3D-printed polyetheretherketone (PEEK) scaffolds are developed as novel bone substitutes, however, their bioinert surface hinders osteogenesis and modifying PEEK scaffolds without blocking their inter-connected porous structure is challenged. In this study, 45S5 bioactive glasses (BG) were homogeneously coated on PEEK scaffolds inspired by traditional sand-casting. The structure of PEEK scaffolds was preserved under shaping effect of BG fillers. Modulus, coating yield and hydrophilicity of scaffolds after different thermal treatment time were comparatively investigated. Excellent hydroxyapatite-forming ability of BG-coated scaffolds was confirmed by mineralization study. In-vitro assessments, BG-coated scaffolds cultured with MC3T3-E1 cells present potential as bone implants with excellent cytocompatibility and osteogenic properties. Following similar coating strategy, conductive particles, multi-component particles and template particles were also coated on PEEK surface. The proposed methodology highlights a useful approach towards producing tunable biomedical coatings and microstructure on porous PEEK scaffolds for bone tissue engineering.

3d打印聚醚醚酮(PEEK)支架是一种新型的骨替代品,然而其生物惰性表面阻碍了成骨,并且在不阻断其相互连接的多孔结构的情况下修改PEEK支架是一个挑战。在这项研究中,45S5生物活性玻璃(BG)被均匀涂覆在PEEK支架上。在BG填料的塑形作用下,PEEK支架的结构得以保留。比较研究了不同热处理时间后支架的模量、包覆率和亲水性。矿化研究证实了bg包被支架具有良好的羟基磷灰石形成能力。体外评估表明,用MC3T3-E1细胞培养的bg包被支架具有良好的细胞相容性和成骨性能,具有作为骨植入物的潜力。采用类似的涂覆策略,在PEEK表面还涂覆了导电颗粒、多组分颗粒和模板颗粒。提出的方法强调了在骨组织工程的多孔PEEK支架上生产可调生物医学涂层和微观结构的有用方法。


Composites Part B: Engineering

Mechanical properties and scratch recovery of nanoclay/polyester composite coatings for pre-coated metal (PCM) sheets

Weikang Lin, Yitian Zhao, Grant Edward, Qiang Guo, Tianzhen Chen, Shuning Song, Michael Heitzmann, Darren Martin, Lisbeth Grøndahl, Mingyuan Lu, Han Huang

doi:10.1016/j.compositesb.2024.111217

预涂金属(PCM)板材用纳米粘土/聚酯复合涂层的力学性能和划伤恢复

Scratch resistance is crucial for the polyester coating on pre-coated metal (PCM) used in domestic appliances and automotive parts to prevent aesthetic degradation and corrosion of the steel substrate. Incorporating nanoclay filler into a polyester coating has demonstrated the potential to enhance scratch resistance. In this study, Lucentite™ (LU) nanoclay with hydrophilic surface modification was added into polyester to fabricate LU/polyester nanocomposite coatings. Nanoindentation and scratch were applied to evaluate the hardness and scratch resistance of the polyester-based coatings, respectively. The result showed that as the LU loading increased from 0.0 to 5.0 wt%, the coating hardness decreased from 187 ± 3 MPa to 107 ± 11 MPa. This softening effect is ascribed to the interactions between the modified clay surface and crosslinker, resulting in reduced degree of crosslinking. Despite the decrease in hardness, adding LU resulted in impressive self-healing abilities of the coatings, attributed to both the reduced crosslinking density and the rotation of the LU platelets. The magnitude of recovery increased with the LU loading. When subjected to scratch loads between 5 and 40 mN, coatings with 5.0 wt% LU demonstrated full recovery after 100 min, while the pure polyester only exhibited 80%–63 % recovery 1000 min after scratch. This unique ability can provide a significant advantage for utilizing these polyester-based composite coatings on PCM sheet.

家用电器和汽车部件中使用的预涂金属(PCM)上的聚酯涂层的耐刮擦性至关重要,以防止钢材基体的美观退化和腐蚀。在聚酯涂层中加入纳米粘土填料已被证明具有增强抗刮擦性的潜力。在本研究中,将表面亲水性改性的Lucentite™(LU)纳米粘土加入到聚酯中制备LU/聚酯纳米复合涂层。采用纳米压痕法和划痕法分别评价了聚酯基涂层的硬度和抗划痕性。结果表明,随着LU用量从0.0 wt%增加到5.0 wt%,涂层硬度从187 ± 3 MPa降低到107 ± 11 MPa。这种软化作用归因于改性粘土表面与交联剂之间的相互作用,导致交联度降低。尽管硬度降低,但由于交联密度降低和LU血小板的旋转,添加LU的涂层具有令人印象深刻的自愈能力。随着LU载荷的增加,恢复幅度增大。当受到5到40 mN之间的划痕载荷时,5.0 wt% LU的涂层在100 min后表现出完全的恢复,而纯聚酯涂层在划痕后1000 min仅表现出80%-63 %的恢复。这种独特的能力为在PCM板材上使用这些聚酯基复合涂层提供了显著的优势。


Adhesively bonded joints – A review on design, manufacturing, experiments, modeling and challenges

Yang Wei, Xihong Jin, Quantian Luo, Qing Li, Guangyong Sun

doi:10.1016/j.compositesb.2024.111225

 

粘接接头的设计、制造、实验、建模和挑战综述

This paper provides a state-of-the-art review on adhesively bonded joints (ABJs) for composite materials and structures, with a focus on the open literatures from 2016 to 2023 to reflect the latest advances in the field. In this review, joint configurations, adhesive materials, manufacturing techniques, toughening methods and defect detection of ABJs are assessed. Quasi-static and dynamic experimental investigations, analytical and numerical studies on ABJs are discussed in detail. The effects of design parameters on the mechanical behavior of ABJs are evaluated. Design optimization procedures and some typical applications of ABJs are outlined. The review is anticipated to provide the interested readers with an updated comprehension on the latest advances in ABJs and gain new insights into the design and manufacturing of novel ABJ structures, thereby highlighting the prospects of future studies.

本文综述了复合材料和结构的粘接接头(ABJs)的研究进展,重点分析了2016年至2023年的公开文献,以反映该领域的最新进展。本文从接头结构、粘结材料、制造工艺、增韧方法和缺陷检测等方面进行了综述。详细讨论了abj的准静态和动态实验研究、分析和数值研究。评估了设计参数对abj力学性能的影响。概述了abj的设计优化过程和一些典型应用。本综述旨在为有兴趣的读者提供对ABJ最新进展的最新理解,并对新型ABJ结构的设计和制造获得新的见解,从而突出未来研究的前景。


Exploring the self-nucleation effect: Transforming crystalline morphology for improved mechanical performance of carbon fiber reinforced polyphenylene sulfide composites

Yi Ren, Muhuo Yu, Zhouyang Li, Chengchang Ji, Jing Li, Chao Zhang, Jintao Shen, Jianfeng Zhou, Shu Zhu

doi:10.1016/j.compositesb.2024.111231

 

探索自核效应:改变结晶形态提高碳纤维增强聚苯硫醚复合材料力学性能

Advanced thermoplastic composites have garnered significant attention due to the advantages such as secondary thermoforming. In the case of thermoplastic composites based on semicrystalline polymers, the self-nucleation (SN) effect induced by repeated thermal cycling can greatly influence the crystallization behavior and mechanical properties of both the matrix and the composites. This study investigated the SN effect of carbon fiber reinforced polyphenylene sulfide (CF/PPS) composites and its impact on non-isothermal crystallization behavior by differential scanning calorimetry, polar optical microscopes and atomic force microscopes. The results revealed that a lower secondary melting temperature led to a higher crystallization temperature. Furthermore, the SN effect significantly improved the fiber/matrix interfacial interaction and mechanical properties of CF/PPS composites. This improvement was evident in the enhanced compression properties, interlaminar shear properties, and in-plane shear properties at different test temperatures. The study also proposed mechanisms for the improved fiber/matrix interfacial interaction and matrix mechanical properties through the SN effect. This work not only enhances our understanding of the changes in mechanical properties of CF/PPS composites due to matrix crystalline morphology changes during secondary thermoforming but also provides insights into improving the manufacturing efficiency and mechanical properties by selecting a low melting temperature to achieve a high crystallization temperature in secondary thermoforming.

先进的热塑性复合材料由于具有二次热成型等优点而受到广泛关注。在基于半晶聚合物的热塑性复合材料中,反复热循环引起的自成核效应会极大地影响基体和复合材料的结晶行为和力学性能。采用差示扫描量热法、极性光学显微镜和原子力显微镜研究了碳纤维增强聚苯硫醚(CF/PPS)复合材料的SN效应及其对非等温结晶行为的影响。结果表明,二次熔融温度越低,结晶温度越高。此外,SN效应显著改善了CF/PPS复合材料的纤维/基体相互作用和力学性能。在不同的测试温度下,这种改善在压缩性能、层间剪切性能和面内剪切性能上都有明显的提高。研究还提出了通过SN效应改善纤维/基体界面相互作用和基体力学性能的机理。本研究不仅加深了我们对二次热成型过程中基体结晶形态变化导致的CF/PPS复合材料力学性能变化的理解,而且为在二次热成型过程中选择较低的熔融温度来实现较高的结晶温度来提高制造效率和力学性能提供了见解。


A straightforward and efficient gradient pressure method for bamboo flattening: Strain and multi-scale deformation

Xianke Wang, Xiaohan Chen, Lili Shang, Lin Chen, Bin Huang, Xinxin Ma, Benhua Fei, Huanrong Liu, Changhua Fang

doi:10.1016/j.compositesb.2024.111232

一种简单有效的梯度压扁法:应变与多尺度变形

Flattening is an environmentally friendly and efficient processing technique that transforms arc-shaped bamboo strips into regular rectangular ones, greatly expanding bamboo's application potential. However, the current method of bamboo flattening requires softening the strips in a high-temperature and high-pressure environment, followed by continuous roller flattening. This process consumes significant energy and does not allow real-time monitoring of the bamboo strips during the process. This study devised a straightforward and efficient gradient pressure method to flatten naturally arc-shaped bamboo strips into rectangular ones within 30 min, all while preserving the complete culm wall structure without any cracks. The analysis of the deformation characteristics during the process revealed that the outer side of the bamboo strip was subjected to compressive stress, while the inner side was subjected to tensile stress. The parenchyma and vessel cells underwent wrinkling and shrinking due to moisture loss and external pressure. Flattening generated horizontal, vertical, and shear strains in bamboo strips, with horizontal strain being predominant, reaching a maximum negative horizontal strain of approximately −0.131. Besides, significant differences were detected in strain among different parts of the bamboo strip. The overall strain exhibited an obvious left-right symmetrical distribution. For the first time this work analyzed the strain distribution and deformation characteristics during the flattening process of arc-shaped bamboo strips while preserving the intact bamboo culm wall structure. The findings of this research provide a novel option of bamboo culm flattening, enhancing the utilization of raw materials and expanding the application of bamboo as engineering materials.

扁平化是一种环保高效的加工技术,将弧形竹条转化为规则的矩形竹条,极大地拓展了竹子的应用潜力。然而,目前的竹材压扁方法需要在高温高压环境下软化竹材,然后进行连续辊压扁。这个过程消耗大量的能量,并且在这个过程中不能对竹条进行实时监控。本研究设计了一种简单有效的梯度压力法,在30 min内将自然弧形竹条压平为矩形竹条,同时保留完整的竹墙结构,无任何裂缝。分析过程中的变形特征表明,竹条外侧承受压应力,内侧承受拉应力。薄壁组织和血管细胞由于水分流失和外界压力而发生起皱和收缩。扁平化在竹篾中产生水平应变、垂直应变和剪切应变,以水平应变为主,最大负水平应变约为- 0.131。此外,竹条不同部位的菌种差异显著。整体应变呈现明显的左右对称分布。本文首次分析了弧形竹条在保留完整竹竿墙体结构的情况下扁平化过程中的应变分布和变形特征。本研究结果为竹材扁平化提供了一种新的选择,提高了原材料的利用率,扩大了竹材作为工程材料的应用。


Structurally engineered 3D porous graphene based phase change composite with highly efficient multi-energy conversion and versatile applications

Xinbei Zhu, Jingkai Liu, Kerong Yang, Liyue Zhang, Shuaipeng Wang, Xiaoqing Liu

doi:10.1016/j.compositesb.2024.111233

 

结构工程化三维多孔石墨烯基相变复合材料,具有高效多能转换和多功能应用

Micro-nano encapsulation strategy combining three-dimensional (3D) porous carriers and phase change materials (PCMs) has been widely investigated due to its structure stability, high efficiency, and designability. However, the current 3D scaffolds suffering from structure regularity are hard to meet the urgent requirements of high energy conversion efficiency and versatile applications. Herein, a 3D porous graphene scaffold (2LrGO@LIG), which is fabricated from polybenzoxazine/graphene oxide (GO) composite using laser irradiation that structurally engineers a gully-shaped surface and a 3D overlapped graphene networks, was employed for PCMs encapsulation. The addition of GO is proved to enhance the quality of produced laser induced graphene (LIG), which could also be reduced into laser-reduced graphene oxide (LrGO) and connect the adjacent LIGs as thermal bridges. As a consequence, the obtained phase change composite (2LrGO@LIG/MA) showed photo-thermal and electro-thermal conversion efficiency of 94.1 % and 99.1 %, respectively. In addition, benefiting from the surface hydrophobicity (135°), high energy storage density (167.7 J/g) and electrical conductivity (307.9 S/m), 2LrGO@LIG/MA also demonstrated great potential in smart building materials and wearable electronic devices. This study provides a facile method for designing advanced PCM composites with multi-energy conversion capacity and application versatility.

三维多孔载体与相变材料相结合的微纳封装策略以其结构稳定、效率高、可设计性好等优点得到了广泛的研究。然而,目前的三维支架存在结构不规范的问题,难以满足高能量转换效率和多用途应用的迫切要求。本文采用聚苯并恶嗪/氧化石墨烯(GO)复合材料,通过激光照射制成三维多孔石墨烯支架(2LrGO@LIG),在结构上形成沟壑状表面和三维重叠的石墨烯网络,用于pcm封装。实验证明,氧化石墨烯的加入可以提高激光诱导石墨烯(LIG)的质量,它也可以被还原成激光还原氧化石墨烯(LrGO),并作为热桥连接相邻的LIG。得到的相变复合材料(2LrGO@LIG/MA)光热转换效率为94.1%,电热转换效率为99.1%。此外,得益于表面疏水性(135°)、高能量存储密度(167.7 J/g)和导电性(307.9 S/m), 2LrGO@LIG/MA在智能建筑材料和可穿戴电子设备中也显示出巨大的潜力。该研究为设计具有多能转换能力和应用通用性的先进PCM复合材料提供了一种简便的方法。


Composites Science and Technology

A human muscle-inspired, high strength, good elastic recoverability, room-temperature self-healing, and recyclable polyurethane elastomer based on dynamic bonds

Shanshan Wang, Xingyu Chen, Lizhen Guo, Sasa Wang, Fuhao Dong, He Liu, Xu Xu

doi:10.1016/j.compscitech.2024.110457

 

一种以人体肌肉为灵感,高强度,良好的弹性可恢复性,室温自愈性,基于动态键的可回收聚氨酯弹性体

Polyurethane elastomers have been widely used in aerospace engineering, intelligent electronics, smart buildings, and other high-tech fields. However, preparing polyurethane elastomers with self-healing at room temperature, high toughness, and strength, remains a significant challenge. Hence, inspired by human muscles, A room-temperature self-healing and recyclable polyurethane elastomer was developed. This elastomer possesses tough, high strength, and good elastic recoverability by adjusting the structure of its hard domains. In detail, the obtained polyurethane elastomers exhibit a high tensile strength of 30.3 MPa, an elongation at break of 1114.6 %, toughness of 126.4 MJ/m3, fracture energy of 96.4 kJ/m2, and remarkable anti-fatigue properties as demonstrated by cyclic tensile. Meanwhile, the introduction of asymmetric aliphatic ring structure into the hard domain structure is beneficial for accelerating the exchange rate of dynamic bonds in polyurethane elastomers, resulting in a healing efficiency is up to 90.8 %. In addition, the mechanical properties of the resultant polyurethane elastomers are not lost after being recycled three times. Finally, the polyurethane elastomer is used as the substrate for electromagnetic shielding material, and the electromagnetic shielding efficiency was investigated. This study demonstrates the design of self-healing elastomers at room temperature with high toughness and strength, which provides a new avenue for the development of sustainable electronic materials in the future.

聚氨酯弹性体已广泛应用于航空航天工程、智能电子、智能建筑等高科技领域。然而,制备具有室温自愈、高韧性和高强度的聚氨酯弹性体仍然是一个重大挑战。因此,受人体肌肉的启发,开发了一种室温自愈和可回收的聚氨酯弹性体。该弹性体通过调整其硬畴结构,具有高韧性、高强度和良好的弹性可恢复性。制备的聚氨酯弹性体抗拉强度为30.3 MPa,断裂伸长率为1114.6 %,韧性为126.4 MJ/m3,断裂能为96.4 kJ/m2,循环拉伸试验表明,该弹性体具有良好的抗疲劳性能。同时,在硬畴结构中引入不对称脂肪族环结构有利于加快聚氨酯弹性体中动态键的交换速率,其修复效率可达90.8 %。此外,所得聚氨酯弹性体的机械性能在回收三次后不会损失。最后,以聚氨酯弹性体为基材作为电磁屏蔽材料,对其电磁屏蔽效率进行了研究。本研究展示了室温下具有高韧性和高强度的自愈弹性体的设计,为未来可持续电子材料的发展提供了一条新的途径。




来源:复合材料力学仿真Composites FEM
ACTMechanicalOpticalSystemHyperMesh结构基础疲劳断裂复合材料光学通用航空航天汽车建筑理论材料多尺度人工智能
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首次发布时间:2024-11-05
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【新文速递】2024年1月8日复合材料SCI期刊最新文章

今日更新:Composite Structures 7 篇,Composites Part A: Applied Science and Manufacturing 5 篇,Composites Part B: Engineering 2 篇,Composites Science and Technology 3 篇Composite StructuresExperimental and Numerical Analysis of the Microstructure and Mechanical Properties of Unidirectional Glass Fiber Reinforced Epoxy CompositesSeshaiah Turaka, Ravikiran Chintalapudi, Narayanan Kannaiyan Geetha, Bridjesh Pappula, Seshibe Makgatodoi:10.1016/j.compstruct.2024.117887单向玻璃纤维增强环氧树脂复合材料微观结构和力学性能的实验与数值分析Numerical modeling was done to predict the pattern and features of the fracture surface and to understand the mechanisms and cause of the failure. Various fiber orientations of 0°, 90°, 0°/90° and ±45° were utilized in the production of unidirectional glass-fiber-reinforced epoxy composites via the vacuum bagging technique. The mechanical properties of the manufactured composites were evaluated by measuring parameters including tensile strength, compressive strength, flexural strength and interlaminar shear strength. High-resolution scanning electron microscopy was employed to determine the mechanisms of fracture in laminates. The mechanical properties of the composite material were found to be considerably enhanced when a unidirectional 0° fiber orientation was employed, as compared to other fiber orientations. This was true for tensile, compressive, flexural and interlaminar shear loading modes. Depending on the direction of the fibers, the composite laminates showed different ways to break, such as fibers pulling away from the matrix, holes in the matrix, and river flow lines. The outcomes of the numerical simulation demonstrated a high level of concordance with experimental findings.为预测断裂面的形态和特征以及了解断裂的机理和原因,进行了数值建模。通过真空袋技术,利用 0°、90°、0°/90° 和 ±45° 等不同纤维取向生产单向玻璃纤维增强环氧树脂复合材料。通过测量拉伸强度、压缩强度、弯曲强度和层间剪切强度等参数,对所制造复合材料的机械性能进行了评估。高分辨率扫描电子显微镜用于确定层压板的断裂机制。结果发现,与其他纤维取向相比,采用单向 0° 纤维取向时复合材料的机械性能大大提高。拉伸、压缩、弯曲和层间剪切加载模式都是如此。根据纤维方向的不同,复合材料层压板显示出不同的断裂方式,如纤维从基体中拉出、基体中出现孔洞以及河流流线。数值模拟结果与实验结果高度一致。Experimental and Numerical Investigation on Bearing Behavior of Hybrid Thin/Thick-ply Composite LaminatesMohamed Sahbi Loukil, Sergio Costa, Mats Bergwall, H.S. Deepthi Prasad, Florence Moreau, Mikael Segersäll, Zlatan Kapidzic, Robin Olssondoi:10.1016/j.compstruct.2024.117888薄层/厚层混合复合层压板承载行为的实验和数值研究Experimental and numerical studies were carried out to characterize hybrid thin- and thick-ply composite laminates and assess modelling capabilities. Five different composite laminates were manufactured using a single material system with varying proportions of thin plies (0%, 50%, and 100% thin-ply). Bearing tests were performed and the results from the tests were investigated. The results showed that performance, in terms of bearing strength at onset of damage and ultimate bearing stress, increased proportionally with the increasing amount of thin plies within the laminate. Microscopic examination of the failure modes for all laminates was performed at the center of the hole to determine the dominant failure mode. The numerical investigation uses a highly detailed mesoscale model previously validated for crash simulations but never used successfully to bearing damage areas. The results showed a good correlation regarding both the load response and the morphology of damage.为了确定薄层和厚层混合复合材料层压板的特性并评估建模能力,我们进行了实验和数值研究。使用单一材料系统制造了五种不同的复合材料层压板,薄层的比例各不相同(0%、50% 和 100% 薄层)。进行了承载试验,并对试验结果进行了研究。结果表明,随着层压板中薄层数量的增加,其性能(即开始损坏时的承载强度和极限承载应力)也成比例增加。在孔中心对所有层压板的失效模式进行了显微检查,以确定主要的失效模式。数值研究使用了一个高度详细的中尺度模型,该模型曾在碰撞模拟中得到验证,但从未成功用于承载损坏区域。结果表明,载荷响应和损坏形态之间具有良好的相关性。A NEW C0 CONTINUOUS REFINED ZIGZAG {1,2} FINITE ELEMENT FORMULATION FOR FLEXURAL AND FREE VIBRATION ANALYSES OF LAMINATED COMPOSITE BEAMSBatuhan Yurtsever, Yonca Bab, Akif Kutlu, Mehmet Dorduncudoi:10.1016/j.compstruct.2024.117890一种新的 C0 连续精炼之字形 {1,2}用于层状复合梁弯曲和自由振动分析的有限元配方This study presents a novel C0 continuous refined zigzag finite element formulation {1,2}, namely RZE{1,2}, for the bending and free vibration analyses of laminated composite beams. The Refined Zigzag Theory (RZT) effectively combines accuracy and computational efficiency, making it a robust approach for thin and thick laminated composite structures. The RZT eliminates the need for shear correction factors, thereby enhancing the overall streamline of the analysis process. The present RZE{1,2} formulation takes into account the transverse stretching by introducing quadratic through-thickness variations of deflection components. The governing equations of the RZT are derived by means of Hamilton’s principle. The through-the-thickness variations of the transverse shear and normal stresses are calculated by integrating the stress equilibrium equations in a post-processing step. Therefore, the Peridynamic Least Squares Minimization (PDLSM) approach is utilized to obtain precise derivatives of axial stresses in the stress equilibrium equations. A new finite element formulation is built up with 3-nodes with a total of 15 DOF. In order to study the influence of transverse stretching, different types of boundary conditions and material variations are applied for laminated composite beams for the bending and free vibration analyses. The distribution of displacements as well as the axial and transverse stresses of the thick beams are extensively examined. The outcomes of RZT are in good agreement with the reference solutions in the literature. The findings of the present study reveal that the presence of the transverse stretching produces more realistic predictions for thick beams where the shear deformations are influential.本研究针对层状复合梁的弯曲和自由振动分析,提出了一种新颖的 C0 连续精炼之字形有限元公式 {1,2},即 RZE{1,2} 。精制之字形理论(RZT)有效地结合了精度和计算效率,是一种适用于薄层和厚层复合材料结构的稳健方法。RZT 不需要剪切修正系数,从而提高了分析过程的整体流畅性。目前的 RZE{1,2} 公式通过引入挠度分量的二次穿透厚度变化来考虑横向拉伸。RZT 的控制方程是通过汉密尔顿原理推导出来的。横向剪应力和法向应力的厚度变化是通过后处理步骤中的应力平衡方程积分计算得出的。因此,利用周动力最小二乘法(PDLSM)来获得应力平衡方程中轴向应力的精确导数。新的有限元模型由 3 个节点组成,共有 15 个 DOF。为了研究横向拉伸的影响,在层压复合梁的弯曲和自由振动分析中应用了不同类型的边界条件和材料变化。对厚梁的位移分布以及轴向和横向应力进行了广泛研究。RZT 的结果与文献中的参考解十分吻合。本研究的结果表明,对于剪切变形影响较大的厚梁,横向拉伸的存在能产生更真实的预测结果。NSM-CFRP Rods with varied embedment depths for strengthening RC T-beams in the negative moment region: Investigation on high cyclic responseLaurencius Nugroho, Yanuar Haryanto, Hsuan-Teh Hu, Ay Lie Han, Fu-Pei Hsiao, Chia-Chen Lin, Pu-Wen Weng, Endah Purwaningsih Widiastutidoi:10.1016/j.compstruct.2024.117891不同嵌入深度的 NSM-CFRP 杆件用于负弯矩区域的 RC T 型梁加固:高循环响应研究Throughout its service life, structural reinforced concrete (RC) encounters cyclic loads and the load amplitude might always vary, leading to a mixed high and low-cycle failure. This research investigates the high cyclic response of RC T-beams strengthened in the negative moment region using near-surface mounted (NSM) Carbon Fiber Reinforced Polymer (CFRP) rods. The distinctive aspect lies in exploring varied embedment depths, including the introduction of half-embedded configurations as an alternative NSM technique. The study comprehensively analyzes load-carrying capacity, failure modes, energy dissipation, ductility, stiffness degradation, and strain behavior, providing insights into the effects of loading rates on structural response. Through an experimental program comparing fully-embedded (BF-D) and half-embedded (BH-D) CFRP rods with a control beam (BN-D) under high-rate cyclic loading, significant increases in ultimate load capacity (21.23% for BH-D and 30.86% for BF-D) are demonstrated despite debonding occurrences. The findings highlight a trade-off between benefits (enhanced ultimate load capacities, improved energy dissipation, and increased stiffness) and drawbacks (reduced ductility and tendencies toward brittle behavior) under high loading rates. Furthermore, a rate-dependent material formula is developed and validated, predicting the flexural strength of the negative moment region in good agreement with experimental results. Finally, this research contributes practical solutions to RC element strengthening challenges and advances understanding of NSM-CFRP-strengthened beam, emphasizing the impact of loading rates on structural response.钢筋混凝土(RC)结构在其整个使用寿命期间都会遇到循环载荷,而且载荷振幅可能始终变化,从而导致高循环和低循环混合失效。本研究探讨了使用近表面安装(NSM)碳纤维增强聚合物(CFRP)杆件加固负弯矩区域 RC T 梁的高循环响应。其独特之处在于探索了不同的嵌入深度,包括引入半嵌入配置作为 NSM 的替代技术。研究全面分析了承载能力、失效模式、能量耗散、延展性、刚度退化和应变行为,深入探讨了加载速率对结构响应的影响。通过对全嵌入式(BF-D)和半嵌入式(BH-D)CFRP 杆件与控制梁(BN-D)在高速循环加载下的实验项目进行比较,尽管出现了脱粘现象,但极限承载能力仍显著提高(BH-D 为 21.23%,BF-D 为 30.86%)。研究结果突出表明,在高加载速率下,材料的优点(提高极限承载能力、改善能量消耗和增加刚度)与缺点(降低延展性和倾向于脆性行为)之间存在权衡。此外,还开发并验证了一种与速率相关的材料公式,该公式预测负弯矩区域的抗弯强度与实验结果非常吻合。最后,这项研究为 RC 单元加固难题提供了实用的解决方案,并加深了对 NSM-CFRP 加固梁的理解,强调了加载速率对结构响应的影响。Field test of GFRP bar anti-floating anchor slurry-rock interface bonding performanceXiaoyu Bai, Xiangmei Zhao, Nan Yan, Gan Sun, Dongshuai Hou, Junwei Liudoi:10.1016/j.compstruct.2024.117893GFRP 条形抗浮锚杆泥浆-岩石界面粘结性能现场测试Based on fiber Bragg grating (FBG) sensing and monitoring technology, the slurry-rock interface bonding characteristics of glass fiber reinforced polymer (GFRP) anti-floating anchor and steel anti-floating anchor were investigated through the field pull-out destructive test of GFRP bars and steel anti-floating anchor. The differences in slurry-rock interface bonding properties between GFRP anti-floating anchor and steel anti-floating anchor were defined. In addition, the distribution law of shear stress and axial stress at the slurry-rock interface of the GFRP anti-floating anchor was revealed along the anchoring depth. The results showed that the axial stress at the slurry-rock interface of the GFRP anti-floating anchor is maximum at the hole opening and decreases as depth increases. The axial stress reduces to zero at the anchorage depth of about 2.4 m. The shear stress at the slurry-rock interface increases and then decreases. The slurry-rock interface bonding curve of the GFRP anti-floating anchor is approximately a straight line, while the slurry-rock interface bonding curve of the steel anti-floating anchor is a broken line with an obvious inflection point. Comparing different materials and types of anti-floating anchors indicate that the bond performance of steel anti-floating anchors is slightly higher than that of GFRP anti-floating anchors, and the bond strength of anti-floating anchors’ slurry-rock interface improves with the increase of anchor bar diameter. The synergistic effect among anchor bars, grout, and rock mass of the GFRP anti-floating anchor exceeds that of the steel anti-floating anchor. Using the finite element software ABAQUS to GFRP anti-floating anchor rod on rock interface bonding performance simulation, the simulation results was coincident with the test result.基于光纤布拉格光栅(FBG)传感与监测技术,通过对玻璃纤维增强聚合物(GFRP)抗浮锚杆和钢制抗浮锚杆的现场拉拔破坏性试验,研究了玻璃纤维增强聚合物(GFRP)抗浮锚杆和钢制抗浮锚杆的岩浆-岩石界面粘结特性。明确了 GFRP 抗浮锚杆和钢质抗浮锚杆在浆岩界面粘结性能上的差异。此外,还揭示了 GFRP 抗浮锚杆浆岩界面剪应力和轴向应力沿锚固深度的分布规律。结果表明,GFRP 抗浮锚杆浆岩界面的轴向应力在孔口处最大,并随着深度的增加而减小。在锚固深度约为 2.4 米时,轴向应力减小为零。浆岩界面的剪应力先增大后减小。GFRP 抗浮锚杆的岩浆-岩石界面粘结曲线近似于一条直线,而钢制抗浮锚杆的岩浆-岩石界面粘结曲线是一条有明显拐点的折线。比较不同材料和类型的抗浮锚杆可知,钢制抗浮锚杆的粘结性能略高于 GFRP 抗浮锚杆,抗浮锚杆浆岩界面的粘结强度随锚杆直径的增加而提高。GFRP 抗浮锚杆的锚杆、注浆和岩体之间的协同效应超过了钢抗浮锚杆。利用有限元软件 ABAQUS 对 GFRP 抗浮锚杆对岩石界面的粘结性能进行了模拟,模拟结果与试验结果吻合。In-plane and out-of-plane vibration analysis of laminated composite frames with warping effectsRamazan-Ali Jafari-Talookolaei, Saman Sadripour, Paolo S. Valvodoi:10.1016/j.compstruct.2024.117895具有翘曲效应的层压复合材料框架的平面内和平面外振动分析This paper addresses the free vibration analysis of a general planar frame structure, consisting of an assembly of laminated composite beam members. A mathematical model is established for the beams by introducing a novel displacement field, which encompasses the influence of shear deformation, rotary inertia, material coupling, warping phenomenon, as well as in-plane and out-of-plane deformations. By incorporating these various factors, a comprehensive representation of the beam's behavior is achieved. The continuity equations for displacements and rotations of two adjacent members are formulated to derive the equations for the entire frame structure. The assembled equations are solved using the Finite Element Method (FEM). The numerical results obtained are compared with existing results in the literature and new results from 3D models in ANSYS. The present results for torsional modes are closer to the ANSYS results than the results of previous studies. An extensive analysis is performed to investigate the impact of various parameters, including stacking sequence, frame angle, relative frame length, and anisotropy ratios, on the system response.本文探讨了由层压复合梁构件组合而成的一般平面框架结构的自由振动分析。通过引入新的位移场,建立了梁的数学模型,其中包括剪切变形、旋转惯性、材料耦合、翘曲现象以及平面内和平面外变形的影响。通过纳入这些不同的因素,实现了对梁行为的全面表述。通过计算相邻两个构件的位移和旋转的连续性方程,可以推导出整个框架结构的方程。使用有限元法(FEM)求解组合方程。获得的数值结果与文献中的现有结果以及 ANSYS 三维模型的新结果进行了比较。与之前的研究结果相比,目前的扭转模式结果更接近 ANSYS 的结果。通过大量分析,研究了各种参数(包括堆叠顺序、框架角度、相对框架长度和各向异性比)对系统响应的影响。Mechanical analysis of new-type arc-cone anchor for CFRP strand wiresRong-Gui Liu, Zheng-Nan Jing, Gui-Hua Xie, Ying Lidoi:10.1016/j.compstruct.2024.117896用于 CFRP 钢绞线的新型弧锥锚的力学分析Conventional anchors tend to produce ‘notch-effect’ at the tensile end due to stress concentration when anchoring prestressed CFRP strand cables. A new-type arc-cone anchor was designed with the purpose of optimizing the stress distribution in the anchor zone in this study. The ‘arc-cone’ model was proposed to represent the mechanical characteristics of the anchor, and the numerical simulation and experiments were carried out. The effect of the design factors on the anchoring performance was discussed, involving the arc-cone radius, the anchoring length, and the end hole wall thickness. The failure mode, the ultimate load, the anchoring efficiency coefficient as well as the stress distribution were ascertained with the consideration of the effect of the abovementioned design factors. The research results show that the extrusion stress on the barrel decreases with respect to both the wall thickness and the anchor length. The larger the radius of the arc-cone is, the larger the slip of the CFRP strand wire is. The proposed anchor configuration inversely changes the stress distribution from the tensile end to the free end, alleviates the ‘notch effect’ existing in the anchoring zone of conventional anchors, and consequently, improves the anchoring efficiency for CFRP strand wires.传统的锚具在锚固预应力 CFRP 钢绞线时,由于应力集中,往往会在拉伸端产生 "缺口效应"。本研究设计了一种新型弧锥锚,旨在优化锚区的应力分布。提出了 "弧锥 "模型来表示锚的力学特性,并进行了数值模拟和实验。讨论了弧锥半径、锚固长度和端孔壁厚等设计因素对锚固性能的影响。考虑到上述设计因素的影响,确定了破坏模式、极限载荷、锚固效率系数以及应力分布。研究结果表明,筒体上的挤压应力随壁厚和锚固长度的增加而减小。弧锥半径越大,CFRP 钢绞线的滑移越大。所提出的锚固结构反向改变了从拉伸端到自由端的应力分布,缓解了传统锚固器锚固区存在的 "缺口效应",从而提高了 CFRP 钢绞线的锚固效率。Composites Part A: Applied Science and ManufacturingMXenes-based nanojunction with defective MoSe2 nanocatalyst towards reducing the thermal runaway hazard of polymerJunling Wang, Keji Li, Chao Cheng, Shibin Nie, Wei Cai, Qi Zhang, Fudong Zhao, YUEN Kwok Kit Richarddoi:10.1016/j.compositesa.2024.108004 基于有缺陷 MoSe2 纳米催化剂的 MXenes 纳米结降低聚合物的热失控危害The shining star of transition metal carbides (MXenes, denoted as MX) has motivated the great interest in flame retardation. Meanwhile, its usage suffers from the issues of poor flame-retardant effectiveness, serious aggregation, etc. Here, the interfacial assembly method is employed to deploy the MX based nanojunction with defective MoSe2 nanocatalyst (MX-Mo-A). Under its extremely-low dosage (∼1.0 wt%), the decreases of 41.0%, 57.0%, 29.2% on peak heat release rate, peak smoke production rate, total smoke production of thermoplastic polyurethane are achieved, confirming the greatly hindered emissions of heat and smoke. Besides, the peak CO yield is impaired by 81.2%, demonstrating the obviously impeded fire toxicity. Such flame retardance superiorities are vividly elucidated via contrast with published works. More encouragingly, the markedly suppressed releases of toxic aromatic compounds, NO and HCN are detected. This work may enable the new paradigm for designing interfacial assembly induced nanojunctions and fabricating fire-proof polymer-matrix composites (PMCs).过渡金属碳化物(MXenes,简称 MX)这颗耀眼的明星激发了人们对阻燃的极大兴趣。与此同时,它的使用也存在阻燃效果差、聚集严重等问题。在此,我们采用界面组装方法,将 MX 与有缺陷的 MoSe2 纳米催化剂(MX-Mo-A)形成纳米结。在极低的用量(1.0 wt%)下,热塑性聚氨酯的峰值放热率、峰值产烟率和总产烟量分别下降了 41.0%、57.0% 和 29.2%,热量和烟雾的排放受到了极大的阻碍。此外,一氧化碳的峰值产率降低了 81.2%,表明火灾毒性明显减弱。通过与已发表作品的对比,这些阻燃优势得到了生动的阐释。更令人鼓舞的是,还检测到有毒芳香族化合物、NO 和 HCN 的释放明显受到抑制。这项研究为设计界面组装诱导纳米结和制造防火聚合物基复合材料(PMC)提供了新的范例。Multi-stage releasing water: The unique decomposition property makes attapulgite function as an unexpected clay minral-based gas source in intumescent flame retardantZeyang Gao, Bihe Yuan, Congrui Qi, Junfan Liu, Yu Zhu, Shusheng Wu, Pengcheng Wang, Yue Kong, Hang Jin, Bin Mudoi:10.1016/j.compositesa.2024.108014多级释放水:独特的分解特性使凹凸棒石成为膨胀型阻燃剂中意想不到的粘土矿基气体源During extensive research on intumescent flame retardants, the gas source has primarily focused on nitrogenated compounds releasing toxic gases like ammonia. This investigation revealed that attapulgite (ATP) possesses the ability to form an intumescent char layer with remarkable height within polymers. To elucidate its flame-retardant and char-expansion mechanisms, a comprehensive study was conducted. The investigation unveiled that ATP possesses a unique decomposition characteristic of multi-stage water release, distinguishing it from halloysite, montmorillonite, and kaolinite. Furthermore, ATP exhibits the capability of migrating and facilitating the formation of a char layer. Consequently, an expanded char layer is formed through ATP’s dual effects on both gas and condensed phases. Additionally, acid modification enhances its dispersibility within the composite, thereby providing better support to its char layer. This pioneering research establishes the connection between ATP and its role as a gas source, offering innovative insights into applications of ATP in gas-phase flame retardancy.在对膨胀型阻燃剂的广泛研究中,气体来源主要集中在释放氨等有毒气体的含氮化合物上。这项研究发现,阿塔蓬石(ATP)具有在聚合物中形成具有显著高度的膨胀炭层的能力。为了阐明其阻燃性和炭扩展机制,进行了一项综合研究。研究发现,ATP 具有多级释水的独特分解特性,有别于埃洛石、蒙脱石和高岭石。此外,ATP 还具有迁移和促进炭层形成的能力。因此,通过 ATP 对气相和凝结相的双重作用,形成了一个扩展的炭层。此外,酸改性还能提高其在复合材料中的分散性,从而为其炭层提供更好的支撑。这项开创性的研究建立了 ATP 与其作为气源的作用之间的联系,为 ATP 在气相阻燃领域的应用提供了创新性的见解。Strengthening and Toughing Design of Graphene Oxide Based Artificial Nacre Composites Regulated by Dimensional Hierarchy of Ternary StructureYongcun Li, Zhen Wen, Yunbo Luan, Dawei Sun, Jinglei Yangdoi:10.1016/j.compositesa.2024.108015 三元结构尺寸层次调控氧化石墨烯基人造珍珠质复合材料的强度和韧性设计The strength and toughness of materials are predominantly attributed to the structure-related stress distribution and energy dissipation in the deformation and damage process. Inspired by the hierarchical structure of nacre, the ternary structure artificial nacre composite films composed of homophonous dimensional hierarchy graphene oxide (GO) sheets and polyvinyl alcohol (PVA) were designed and prepared via the dry-spinning process. It demonstrates that there is a mechanical synergistic effect of the dimensional hierarchy GO sheets that can improve the stress distribution (suppress and disperse the local stress concentration regions) and increase the energy dissipation (trigger more crack deflection), thus improving the toughness on the premise of ensuring excellent strength of the films. Based on the dry-spinning and lamination assembly process, large-size bulk composites with excellent mechanical properties constructed by these films can be obtained and are expected to achieve mass production, which has great potential applications in aerospace, automobile, biomedical, and energyindustries.材料的强度和韧性主要归因于变形和损伤过程中与结构相关的应力分布和能量耗散。受珍珠质分层结构的启发,设计并通过干法纺丝工艺制备了由同构分层氧化石墨烯(GO)片和聚乙烯醇(PVA)组成的三元结构人工珍珠质复合薄膜。结果表明:同维分层氧化石墨烯(GO)片材具有力学协同效应,可改善应力分布(抑制和分散局部应力集中区域),增加能量耗散(引发更多裂纹偏转),从而在保证薄膜优异强度的前提下提高其韧性。基于干法纺丝和层压组装工艺,由这些薄膜构建的具有优异力学性能的大尺寸块状复合材料可望实现批量生产,在航空航天、汽车、生物医学和能源等行业具有巨大的应用潜力。The influence of drilling-induced damages and hole quality on hoop tensile and fatigue behavior of CFRP tubesSezer Morkavuk, Kubilay Aslantaş, Lokman Gemi, Uğur Köklü, Şakir Yazmandoi:10.1016/j.compositesa.2024.108005钻孔引起的损伤和孔的质量对 CFRP 管的环向拉伸和疲劳行为的影响Filament winding and roll wrapping methods are widely used in the production of composite tubes. While the mechanical behavior of composites produced by different methods may be different, the effects of the damages that occurred while machining composite tubes on the mechanical behavior may also be different. In this study, the effects of drilling-induced damages and hole quality on the tensile and fatigue strength of the filament-wound and roll-wrapped composite tubes were experimentally investigated. Results showed that while the behavior of the filament-wound composite tube under hoop tensile load is better than the roll-wrapped composite tube, the roll-wrapped tube performs better than filament-wound tube under hoop fatigue load. It was also observed that different drilling conditions affect the mechanical behavior of filament-wound tube while it was found that drilling conditions do not have a significant effect on the mechanical behavior of roll-wrapped tube because manufacturing defects are more dominant.缠丝法和辊包法被广泛用于复合材料管的生产。不同方法生产的复合材料的力学性能可能不同,而加工复合材料管时产生的损伤对其力学性能的影响也可能不同。本研究通过实验研究了钻孔引起的损伤和孔的质量对丝状缠绕复合管和辊式缠绕复合管的拉伸强度和疲劳强度的影响。结果表明,丝绕复合管在环向拉伸载荷下的性能优于辊绕复合管,而辊绕复合管在环向疲劳载荷下的性能优于丝绕复合管。研究还发现,不同的钻孔条件会影响丝绕复合管的机械性能,而钻孔条件对卷包复合管的机械性能影响不大,因为制造缺陷是主要原因。Biomimetic and Environmentally Friendly Self-Assembly Behavior of Melamine onto the Surface of Black Phosphorus Nanosheets: Constructing Advanced P/N-Containing Nano Flame RetardantsWei Cai, Weiyi Xing, Tianyang Cui, Junling Wang, Bicheng Lin, Zhaoxin Li, Liangyuan Qi, Xin Hu, Yang Ming, Peng Xiao, Fuli Bian, Bin Fei, Yuan Hudoi:10.1016/j.compositesa.2024.108006 三聚氰胺在黑磷纳米片表面的仿生和环保自组装行为:构建先进的含 P/N 纳米阻燃剂Herein, inspired by the hierarchical structure within the biological protein, we adjust the temperature of the aqueous solution to control the unfolding and reconstitution of hydrogen bonds among melamine (MA) molecules, thus preparing MA-functionalized black phosphorus (MA@BP) nanosheets. As confirmed by the first-principles calculations, melamine can spontaneously adsorb onto the surface of BP nanosheets and enhance the interfacial interactions between BP nanosheets and thermoplastic polyurethane (TPU) matrix. Compared to pure BP nanosheets, MA@BP nanosheets present more efficient suppression effects in heat release and toxic CO production. Besides, due to the photo-thermal conversion effect of BP nanosheets, TPU-MA@BP-2.0 presents an equilibrium temperature of ∼80 oC under simulated sunlight of 1.0 kW/m2 and a significant solar de-icing performance. The solve-free and hydrogen-bond assembly method not only solves the lack problem of functional groups for the functionalization of BP nanosheets, but also develops a flame-retardant and photo-thermal polymer nanocomposite applied in various occasions.在此,我们从生物蛋白质的分层结构中得到启发,通过调节水溶液的温度来控制三聚氰胺(MA)分子间氢键的展开和重组,从而制备出三聚氰胺功能化黑磷(MA@BP)纳米片。第一性原理计算证实,三聚氰胺可自发吸附在黑磷纳米片表面,并增强黑磷纳米片与热塑性聚氨酯(TPU)基体之间的界面相互作用。与纯 BP 纳米片相比,MA@BP 纳米片能更有效地抑制热释放和有毒 CO 的产生。此外,由于 BP 纳米片的光热转换效应,TPU-MA@BP-2.0,在 1.0 kW/m2 模拟太阳光下的平衡温度可达 ∼ 80 oC,具有显著的太阳能除冰性能。无溶剂和氢键组装法不仅解决了 BP 纳米片功能化所需的官能团缺乏的问题,还开发出一种阻燃和光热聚合物纳米复合材料,可应用于多种场合。Composites Part B: EngineeringPolyelectrolyte composite hydrogels based on a derivative of functional dietary fiber for long-term gastric retention and drug deliveryJueying Yang, Ying Wang, Ailing Wei, Kelin Peng, Rui Huang, Zhenfei Wang, Xilan Ma, Qingquan Tian, Yu Chendoi:10.1016/j.compositesb.2024.111194基于功能性膳食纤维衍生物的聚电解质复合水凝胶,用于长期胃保留和给药Gastric retention drug delivery is experiencing significant demand for hydrogels that exhibit in situ controllable forming in the stomach, resistance against severe gastric degradation, and exceptional biocompatibility. However, current studies lack comprehensive investigations on these requirements. In this study, resistant starch is chosen as a kind of novel dietary fiber with remarkable gastric retention effects compared to conventional natural polymers. To address its limited solubility, resistant starch was modified by carboxymethyl groups. Moreover, a semi-dissolution acidification sol–gel transition method was employed to enable in situ gelation under gastric acid conditions and fabricate physically crosslinked polyelectrolyte composite hydrogels (CMRS/CTS) based on carboxymethylated resistant starch and chitosan. This method obviates the need for toxic chemical crosslinkers and initiators, ensuring favorable biocompatibility. The influence of carboxymethyl substitution degree and the anion-to-cation ratio of the composite hydrogels on the mechanical, rheological, and swelling properties was thoroughly investigated. Compared to conventional carboxymethyl starch-based hydrogels, CMRS/CTS maintained a relatively intact structure even after immersion in simulated gastric fluid for 30 days owing to the enzymatic stability of the hydrogel. Upon drug loading, CMRS/CTS exhibited sustained and controlled drug release, facilitating prolonged therapeutic effects. Simultaneously achieving in situ gastric drug release, biocompatibility, resistance to degradation, and sustained release, CMRS/CTS represents a promising avenue for the development of long-term gastric retention hydrogels.胃保留给药对水凝胶的需求量很大,这些水凝胶在胃中的原位成型可控,能抵抗严重的胃降解,并具有优异的生物相容性。然而,目前的研究缺乏对这些要求的全面调查。本研究选择了抗性淀粉作为一种新型膳食纤维,与传统的天然聚合物相比,抗性淀粉具有显著的胃保留效果。为了解决抗性淀粉溶解度有限的问题,研究人员对其进行了羧甲基改性。此外,该研究还采用了一种半溶解酸化溶胶-凝胶转变方法,在胃酸条件下实现原位凝胶化,并制备出基于羧甲基化抗性淀粉和壳聚糖的物理交联聚电解质复合水凝胶(CMRS/CTS)。这种方法无需使用有毒的化学交联剂和引发剂,确保了良好的生物相容性。研究人员深入研究了复合水凝胶的羧甲基取代度和阴阳离子比对其机械、流变和溶胀性能的影响。与传统的羧甲基淀粉基水凝胶相比,由于水凝胶的酶稳定性,CMRS/CTS 在模拟胃液中浸泡 30 天后仍能保持相对完整的结构。加载药物后,CMRS/CTS 表现出持续、可控的药物释放,从而延长了治疗效果。CMRS/CTS 可同时实现原位胃药释放、生物相容性、抗降解性和持续释放,是开发长期胃保留水凝胶的一个很有前景的途径。Porous PLGA/MBG scaffold enhanced bone regeneration through osteoimmunomodulationYang Liu, Shuang Zhang, Xiaohui Zhang, Luli Ji, Hongmeng Yu, Jing Wang, Changsheng Liudoi:10.1016/j.compositesb.2024.111202 多孔 PLGA/MBG 支架通过骨免疫调节促进骨再生The role of osteoimmunomodulation in orthopedic biomaterials has been demonstrated to be crucial in the regulation of bone repair and regeneration. Macrophages, the primary effector cells in the immune response to biomaterials, are highly heterogeneous and plastic, making them a prime target for immunomodulation. Mesoporous bioactive glass (MBG) is widely recognized for its biocompatibility, osteoconductivity, osteoinductivity, and immunomodulatory properties. However, the impact of MBG content on macrophage response remains unclear. To fill this knowledge gap, we designed a series of hierarchical PLGA-based composite scaffolds with varying MBG contents (0 %, 10 %, 20 % and 40 %, named as P, P10M, P20M and P40M, respectively) to investigate the osteoimmunomodulatory effects of these scaffolds. Our findings indicated that the P10M scaffolds showed a faster immune response in the early stage and exhibited superior ability to shift the pro-inflammatory immune microenvironment towards an anti-inflammatory state in the later stage, thereby enhancing the angiogenic potential of HUVECs and the osteogenic capacity of BMSCs. Furthermore, the in vivo implantation demonstrated that the immune microenvironment induced by P10M scaffolds facilitated optimal neovascularization and ectopic bone formation. These findings establish a theoretical foundation for the development of bone immunoregulatory biomaterials doped with MBG, which can effectively promote bone repair and regeneration.骨科生物材料中的骨免疫调节作用已被证明在调节骨修复和再生方面至关重要。巨噬细胞是生物材料免疫反应的主要效应细胞,具有高度异质性和可塑性,因此是免疫调节的主要目标。介孔生物活性玻璃(MBG)的生物相容性、骨传导性、骨传导性和免疫调节特性已得到广泛认可。然而,MBG 含量对巨噬细胞反应的影响仍不清楚。为了填补这一知识空白,我们设计了一系列不同 MBG 含量(0%、10%、20% 和 40%,分别命名为 P、P10M、P20M 和 P40M)的基于 PLGA 的分层复合支架,以研究这些支架的骨免疫调节作用。我们的研究结果表明,P10M 支架在早期阶段表现出更快的免疫反应,在后期阶段则表现出卓越的能力,能将促炎免疫微环境转变为抗炎状态,从而增强 HUVECs 的血管生成潜能和 BMSCs 的成骨能力。此外,体内植入实验表明,P10M 支架诱导的免疫微环境促进了最佳的新生血管生成和异位骨形成。这些发现为开发掺杂 MBG 的骨免疫调节生物材料奠定了理论基础,它能有效促进骨修复和再生。Composites Science and TechnologyDigital twin and cross-scale mechanical interaction for fabric rubber composites considering model uncertaintiesXiaoyao Xu, Guowen Wang, Shanyong Xuan, Yimeng Shan, Heng Yang, Xuefeng Yaodoi:10.1016/j.compscitech.2024.110431 考虑模型不确定性的织物橡胶复合材料数字孪生和跨尺度机械相互作用Digital twin ushers in growth as one cutting-edge technology that enables high-precision, informative and real-time interaction of advanced composites, influencing the paradigm of composite analysis and design in aerospace, automotive, intelligent electronics and other fields. The online and fine evolution of digital twins at scale face challenges due to creating scalable predictions, updates, and controls with coupled information in workflows. In this work, an interactive digital twin methodology for complex composite structures (CCSDT) based on machine learning is introduced. To demonstrate the framework's feasibility and applicability, a hybrid architecture comprising hierarchical deep neural networks (H-DNNs), statistical inference and cross-scale physical constraints is proposed considering the fabric rubber composites (FRC) in aerospace field. The framework predicts 3D displacement and stress fields directly from sensing features and can incorporate dynamic updating and evaluation of computational models into data assimilation. Real-time prediction and uncertainty quantification are verified through synthetic and experimental data, and the capability of CCSDT in perception and decision is demonstrated by a case of cruise state monitoring. The comparison between the measured strain and the post-processing predicted strain field shows the extensibility of the direct prediction results. These results provide guidance for the development of composite digital twins, stimulating the potential for cost-effective and efficient digital twin services.数字孪生作为一项前沿技术迎来了发展机遇,它实现了先进复合材料的高精度、信息化和实时交互,影响了航空航天、汽车、智能电子等领域的复合材料分析和设计模式。大规模数字孪生的在线和精细演化面临着挑战,因为要在工作流中利用耦合信息创建可扩展的预测、更新和控制。在这项工作中,介绍了一种基于机器学习的复杂复合结构交互式数字孪生方法(CCSDT)。为了证明该框架的可行性和适用性,考虑到航空航天领域的织物橡胶复合材料(FRC),提出了一种由分层深度神经网络(H-DNN)、统计推理和跨尺度物理约束组成的混合架构。该框架可直接从传感特征预测三维位移和应力场,并可将计算模型的动态更新和评估纳入数据同化。通过合成和实验数据验证了实时预测和不确定性量化,并通过巡航状态监测案例证明了 CCSDT 在感知和决策方面的能力。测量应变与后处理预测应变场之间的比较显示了直接预测结果的可扩展性。这些结果为开发复合数字孪生提供了指导,激发了提供经济高效的数字孪生服务的潜力。A deep transfer learning approach to construct the allowable load space of notched composite laminatesYushu Li, Huasong Qin, V.B.C. Tan, Liyong Jia, Yilun Liudoi:10.1016/j.compscitech.2024.110432 构建缺口复合材料层压板容许载荷空间的深度迁移学习方法Allowable load is one of the core parameters for the design and service of composite structures (CSs). However, due to the large design parameters, cumbersome design procedure and complicated simulation model of CSs, considerable amounts of experiments and simulations are needed to determine the allowable load of CSs, which is costly and inefficient, hindering the wide application of CSs in industry. In this work, we present a general deep transfer learning approach to construct the allowable load space (ALS) of notched laminates by considering various design parameters such as geometries, materials, stacking angles, ply numbers, laminate types and load types. Initially, an ensemble deep neural network (Ensemble) is trained, which can predict the allowable loads of notched laminate with known design parameters well. Here the Ensemble guided by ensemble learning is trained to reduce the errors generated by manually setting. Then, the pre-trained Ensemble is transferred to new design parameters by fine-tuning it with scarce new samples. Finally, the ALS of notch laminates is constructed by integrating the pre-trained and fine-tuned models, covering both known and diverse new design parameters. Our approach can easily be extended to other CSs.容许载荷是复合材料结构(CS)设计和使用的核心参数之一。然而,由于 CS 的设计参数大、设计程序繁琐、仿真模型复杂,确定 CS 的容许载荷需要大量的实验和仿真,成本高、效率低,阻碍了 CS 在工业领域的广泛应用。在这项工作中,我们提出了一种通用的深度迁移学习方法,通过考虑各种设计参数(如几何形状、材料、堆叠角度、层数、层压板类型和负载类型)来构建缺口层压板的允许负载空间(ALS)。首先,训练一个集 合深度神经网络(Ensemble),它能很好地预测已知设计参数下缺口层压板的容许载荷。在此,以集 合学习为指导训练集 合,以减少手动设置产生的误差。然后,利用稀缺的新样本进行微调,将预先训练好的集 合转移到新的设计参数上。最后,通过整合预训练和微调模型,构建缺口层压板的 ALS,涵盖已知和各种新设计参数。我们的方法很容易扩展到其他 CS。Characterization of migration behavior of organic electric-field regulator in polyethylene composite based on the synchronous spectra of space charge and polarization currentYongjun Li, Yongsen Han, Yunlong Sun, Zhonghua Lidoi:10.1016/j.compscitech.2024.110437 基于空间电荷和极化电流同步光谱的聚乙烯复合材料中有机电场调节器迁移行为的表征Organic electric-field regulator has the ability to suppress the space charge accumulation in the composite due to its electric-field and filler-content enhanced conductivity. Moreover, it can also migrate towards the high electric field region under the electric field gradient force, which further homogenizes the non-uniform electric field distribution. To characterize the migration behavior of the organic electric-field regulator in the composite under electric field, a distributed equivalent circuit model is firstly introduced, and it is solved to obtain the space-time distribution of conductivity in composite based on the synchronous spectra of space charge and polarization current. Combining the mathematical relationship between the direct current (DC) conductivity and electric field as well as regulator content, the space-time distribution of organic electric-field regulator in the composite is then settled. The allyloxy polyethylene glycol (APEG) is used as an example organic electric-field regulator and is filled into low-density polyethylene (LDPE) matrix to prepare composites. The DC conductivity and the synchronous spectra of space charge and polarization current are measured, respectively. The composites show noticeable electric-field and regulator-content enhanced conductivities. The space charge distribution shows that the APEG is capable of suppressing the space charge and homogenizing the electric field distribution compared with pure LDPE. The space-time distribution of regulator content in the 0.5 wt% composite is determined by the proposed method, and the regulator content near the electrodes is much higher than in the bulk, which is consistent with the infrared microscope images. The higher filler content means a higher DC conductivity, which lowers the high electric field near the electrodes and contributes to more uniform electric field distribution in the composite. The proposed method experimentally characterizes the migration behavior of the organic electric-field regulator in the polymer composite for the first time, and provides an effective way to study the migration mechanism of organic molecules (e.g. organic electric-field regulator) in the polymer composite.有机电场调节剂由于其电场和填料含量增强的导电性,能够抑制复合材料中的空间电荷积累。此外,在电场梯度力的作用下,它还能向高电场区域迁移,从而进一步均匀非均匀电场分布。为了表征电场作用下复合材料中有机电场调节剂的迁移行为,首先引入了分布式等效电路模型,并根据空间电荷和极化电流的同步谱求解得到了复合材料中电导率的时空分布。结合直流(DC)电导率与电场以及调节剂含量之间的数学关系,解决了有机电场调节剂在复合材料中的时空分布问题。以烯丙氧基聚乙二醇(APEG)为例,将其填充到低密度聚乙烯(LDPE)基体中制备复合材料。分别测量了直流电导以及空间电荷和极化电流的同步频谱。复合材料显示出明显的电场和调节剂含量增强导电性。空间电荷分布表明,与纯低密度聚乙烯相比,APEG 能够抑制空间电荷并均匀电场分布。通过所提出的方法确定了 0.5 wt% 复合材料中调节剂含量的时空分布,电极附近的调节剂含量远高于主体,这与红外显微镜图像一致。较高的填料含量意味着较高的直流电导率,从而降低了电极附近的高电场,使复合材料中的电场分布更加均匀。所提出的方法首次通过实验表征了有机电场调节剂在聚合物复合材料中的迁移行为,为研究有机分子(如有机电场调节剂)在聚合物复合材料中的迁移机理提供了有效途径。来源:复合材料力学仿真Composites FEM

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