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【新文速递】2024年2月5日复合材料SCI期刊最新文章

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

Composite Structures

A multiscale study on warpage of multi-pinned composites induced by curing process

Jisiyuan Cheng, Yingjie Xu, Weihong Zhang, Weiwei Liu

doi:10.1016/j.compstruct.2024.117951

固化过程诱发多销复合材料翘曲的多尺度研究

In this paper, we studied the curing process and curing-induced warpage of multi-pinned composite structures through a novel multiscale methodology. This method interconnects the curing kinetics, composite micromechanics, mesoscale depiction and equivalent property calculation of Z-pinned regions, and macroscale warpage prediction by transmitting the evolving degree of cure and cure-dependent material properties. This methodology was then experimentally validated. We also systemically illustrated how the multi-pinned composites evolve through the curing process and further analyzed the effects of Z-pin diameter, spacing, material, composite layup, and cure temperature profile on the curing-induced warpage. It shows that Z-pinning primarily alters the tensile, through-thickness thermal expansion, and through-thickness chemical shrinkage properties of composites throughout the curing. Composites with medium-diameter Z-pins, larger Z-pinning spacing, and carbon fiber Z-pins are found to show larger macroscale warpages. Compared with other unidirectional patterns, the [45°]n layup is more susceptible to curing-induced warpage. Furthermore, the cure temperature profile affects the warpages through the final degrees of cure.

本文通过一种新颖的多尺度方法研究了多销钉复合材料结构的固化过程和固化诱发的翘曲。该方法将固化动力学、复合材料微观力学、Z 销区域的中尺度描述和等效性能计算以及宏观翘曲预测相互联系起来,传递不断变化的固化程度和与固化相关的材料性能。这一方法随后得到了实验验证。我们还系统地说明了多销复合材料在固化过程中的演变过程,并进一步分析了 Z 销直径、间距、材料、复合材料铺层和固化温度曲线对固化引起的翘曲的影响。结果表明,在整个固化过程中,Z 形钉主要改变了复合材料的拉伸、厚度热膨胀和厚度化学收缩性能。研究发现,采用中等直径 Z 形销钉、较大 Z 形销钉间距和碳纤维 Z 形销钉的复合材料会出现较大的宏观翘曲。与其他单向模式相比,[45°]n 层叠更容易受到固化引起的翘曲的影响。此外,固化温度曲线会通过最终固化度影响翘曲。


Composites Part A: Applied Science and Manufacturing

Flexible and highly conductive Ti3C2Tx/natural rubber composites with interconnected networks for high-performance electromagnetic interference shielding

Ziheng Ye, Daqiang Zhao, Feihua Liu, Jingjing Luo, Xiangli Liu, Weiwei Zhao

doi:10.1016/j.compositesa.2024.108067

 

具有互连网络的柔性高导电性 Ti3C2Tx/天然橡胶复合材料,用于高性能电磁干扰屏蔽

Flexible composites showing highly conductive and outstanding electromagnetic interference (EMI) shielding performance with minimal thickness are urgently required for flexible electronics. Two-dimensional transition metal carbides and nitrides (MXenes) in fabricating conductive polymer composites have been revealed intensively. However, these composites need high MXene loading. Herein, by facile fast-forming approach, flexible Ti3C2Tx/natural rubber composites with 3D interconnected conductive networks were prepared, showing intact conductive framework and exhibiting outstanding electrical conductivity of 2,667 S m-1 with only 1.2 vol% Ti3C2Tx. The EMI shielding effectiveness (SE) surpassed 34 dB in the X-band with only 50 μm thickness. Furthermore, the strong interaction between natural rubber and low content Ti3C2Tx MXene nanosheets afforded the composites excellent flexibility and durability. Merely 2 dB decrease in EMI SE was revealed after being stretched to 5% for 10,000 times. The desirable conductivity, flexibility, and superior EMI shielding performance of Ti3C2Tx/NR composites pave a way in next-generation flexible electronics.

柔性电子产品迫切需要具有高导电性和出色的电磁干扰(EMI)屏蔽性能且厚度极小的柔性复合材料。二维过渡金属碳化物和氮化物(MXenes)在制造导电聚合物复合材料方面的应用已得到深入研究。然而,这些复合材料需要较高的 MXene 负载。本文采用简便的快速成型方法制备了具有三维互连导电网络的柔性 Ti3C2Tx/天然橡胶复合材料,其导电框架完好无损,导电率高达 2,667 S m-1,而 Ti3C2Tx 的含量仅为 1.2 vol%。在 X 波段,厚度仅为 50 μm 的 EMI 屏蔽效果 (SE) 超过了 34 dB。此外,天然橡胶与低含量 Ti3C2Tx MXene 纳米片之间的强相互作用为复合材料提供了出色的柔韧性和耐用性。在拉伸 10,000 次至 5%后,EMI SE 仅下降了 2 分贝。Ti3C2Tx/NR 复合材料具有理想的导电性、柔韧性和优异的 EMI 屏蔽性能,为下一代柔性电子器件的发展铺平了道路。


Composites Part B: Engineering

One-pot solvent-free green strategy to fabricate ultra-efficient polyphosphoester flame retardant for Poly(Lactic acid)

Zhicheng Bai, Feixiang Yin, Jiahao Shen, JinJia Xu, Fengqing Chen, Teng Huang, Hufeng Li, Dan Xie, Yi An, Wenbiao Zhang, Jinfeng Dai

doi:10.1016/j.compositesb.2024.111236

 

一锅法无溶剂绿色制备聚乳酸超高效聚磷酯阻燃剂

Tremendous attention has been dedicated to crafting eco-friendly flame retardants with excellent comprehensive performance via green means. Herein, a novel ultra-efficient polyphosphoester (PPE) flame retardant was synthesized via a facile one-pot method of solid-phase polycondensation reaction. PPE was then employed as a multifunctional additive for high-performance poly (lactic acid) (PLA). Benefiting from the dual-phase flame-retardant effect, the resultant PLA composite with merely 0.5 wt% PPE exhibited a desired limiting oxygen index (LOI) value of 26.1 %, and a satisfactory V0 rating of UL-94 (1.6 mm) with well-preserved mechanical properties. Due to the nucleating effect of PPE on PLA, the mechanical properties and crystallization ability of the PLA composites were both gradually enhanced as PPE content increased from 0.3 to 1.5 wt%. The designed ultra-efficient approach, enhancing fire safety and mechanical properties simultaneously at a low content, lays a foundation of an affordable, eco-friendly, and versatile flame retardant for potential applications of PLA.

通过绿色手段制备综合性能优异的环保型阻燃剂一直备受关注。本文通过一种简便的单锅固相缩聚反应方法合成了一种新型超高效聚磷酸酯(PPE)阻燃剂。随后,PPE 被用作高性能聚乳酸(PLA)的多功能添加剂。得益于双相阻燃效应,PPE 含量仅为 0.5 wt% 的聚乳酸复合材料的极限氧指数 (LOI) 值达到了理想的 26.1%,V0 等级达到了令人满意的 UL-94 (1.6 mm),并具有良好的机械性能。由于 PPE 对聚乳酸的成核作用,随着 PPE 含量从 0.3 wt% 增加到 1.5 wt%,聚乳酸复合材料的机械性能和结晶能力都逐渐增强。所设计的超高效方法可在低含量下同时提高防火安全性和机械性能,为聚乳酸的潜在应用奠定了经济、环保和多功能阻燃剂的基础。


End group capturing in polyurea elastomer by using aromatic dianhydrides for flame retardance

Hongyang Deng, Lixian Guo, Keping Chen, Pingfeng You, Ping Zhang, Yewei Xu, Ningning Song, Chunrong Tian, Jianhua Wang, Shuen Liang

doi:10.1016/j.compositesb.2024.111276

 

利用芳香族二酐捕获聚脲弹性体中的末端基团以实现阻燃效果

Polyurea (PU) elastomers have become increasingly popular in recent years due to their exceptional blast mitigation, ballistic protection, and wear resistance properties. However, their applications as protective materials are often limited as a result of their high flammability. In this study, aromatic dianhydrides (ArDAs) were employed to capture the thermal decomposing products of PU during combustion and facilitate the generation of highly heat-resistant aromatic polyimides (i.e., end group capturing effect), thus enhancing the material's char-forming ability and improving its flame retardancy. The ArDAs were found to significantly reduce the peak heat release rate (PHRR), total heat release (THR), total smoke release (TSR), and total CO release (TCO) of PU, and meanwhile increased the amount of char residue. At 20 wt% content of 3,3′,4,4′-benzophenonetetracarboxylic dianhydride (BTDA), PHRR, THR, TSR and TCO of PU were reduced by 70.6%, 32.5%, 44.7% and 58.8%, respectively, the char residue was increased by 405%, and the mechanical properties of PU were well maintained (88.5% tensile strength and 91.0% elongation at break of pure PU). These findings demonstrate that ArDAs could serve as a new kind of halogen/phosphorus-free flame retardant for PU elastomers.

近年来,聚脲(PU)弹性体因其优异的防爆、防弹和耐磨性能而越来越受欢迎。然而,由于其易燃性较高,其作为防护材料的应用往往受到限制。本研究采用芳香族二酐(ArDAs)来捕获聚氨酯在燃烧过程中的热分解产物,促进生成高耐热性芳香族聚酰亚胺(即端基捕获效应),从而增强材料的成炭能力并改善其阻燃性。研究发现,ArDAs 能显著降低聚氨酯的峰值热释放率(PHRR)、总热释放率(THR)、总烟雾释放率(TSR)和总 CO 释放率(TCO),同时增加炭残留量。当 3,3′,4,4′-二苯甲酮四羧酸二酐(BTDA)的含量为 20 wt%时,聚氨酯的 PHRR、THR、TSR 和 TCO 分别降低了 70.6%、32.5%、44.7% 和 58.8%,残炭量增加了 405%,聚氨酯的机械性能保持良好(纯聚氨酯的拉伸强度为 88.5%,断裂伸长率为 91.0%)。这些研究结果表明,ArDAs 可用作聚氨酯弹性体的一种新型无卤/无磷阻燃剂。


Composites Science and Technology

Multifunctional heterostructured composite foam with tunable electromagnetic interference shielding

Shuaibing Wang, Zhu Wang, Si Yu Zheng, Jintao Yang

doi:10.1016/j.compscitech.2024.110482

 

具有可调电磁干扰屏蔽功能的多功能异质结构复合泡沫

Multifunctional composite materials with adjustable electromagnetic interference (EMI) shielding properties hold significant promise in the emerging field of combating electromagnetic radiation pollution. Herein, we construct a heterostructured composite foam with tunable EMI shielding performance by adjusting the thickness and spatial distribution of Ag conductive network in the porous sponge, coupled with the incorporation of CNTs/WPU aerogel. The remarkable conductivity of 3D Ag network within the composite foam enables it possesses excellent shielding performance at X-band (47.1 dB), fast sensing response time (∼0.2 s), and high temperature of 101.8 °C through efficient joule heating even at a low voltage of 3 V. Importantly, controllable tuning of EMI shielding effectiveness (from 25.0 to 40.1 dB), are successfully achieved by changing the position of the Ag layer or compression strain of the composite foam. These achievements underscore the substantial potential of this material for creating electromagnetic shielding solutions with adaptable characteristics.

具有可调电磁干扰(EMI)屏蔽性能的多功能复合材料在应对电磁辐射污染的新兴领域大有可为。在本文中,我们通过调整多孔海绵中银离子导电网络的厚度和空间分布,并结合 CNTs/WPU 气凝胶,构建了一种具有可调电磁干扰屏蔽性能的异质结构复合泡沫。复合泡沫中三维银网络的卓越导电性使其在 X 波段(47.1 dB)具有出色的屏蔽性能,感应响应时间快(0.2 秒),即使在 3 V 的低电压下也能通过有效的焦耳加热达到 101.8 °C 的高温。这些成果凸显了这种材料在创造具有可调整特性的电磁屏蔽解决方案方面的巨大潜力。



来源:复合材料力学仿真Composites FEM
ACTMechanicalAdditiveSystemMAGNET断裂复合材料燃烧化学电子材料多尺度
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首次发布时间:2024-11-06
最近编辑:6天前
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【新文速递】2024年2月7日复合材料SCI期刊最新文章

今日更新:Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 9 篇,Composites Science and Technology 1 篇Composites Part A: Applied Science and ManufacturingImpregnation process of large-tow carbon-fiber woven fabric/polyamide 6 composites using solvent methodOsuke Ishida, Shiho Oda, Kiyoshi Uzawadoi:10.1016/j.compositesa.2024.108068采用溶剂法的大纤度碳纤维编织物/聚酰胺 6 复合材料浸渍工艺Large-tow carbon fibers (CF) are suitable for low-cost industrial applications. However, it is challenging to impregnate large fiber bundles with thermoplastics owing to their high melt viscosity. In this study, polyamide 6 (PA 6) is dissolved in a mixture of calcium chloride and methanol to decrease its viscosity, and a large-tow CF fabric is immersed in the solution. Subsequently, the solvent is removed with water and the fabric is dried. Scanning electron microscopy observations indicate that many PA6 particles are present inside the fiber bundles owing to solution impregnation. Thereafter, compression molding is conducted using a stack of additional PA6 films. The fabricated composites exhibit much better impregnation quality than those fabricated without solution impregnation. The quality of impregnation is also impacted by the concentration of the solution because it affects the amount of PA6 in the CF tow and the remaining calcium chloride.大束碳纤维(CF)适用于低成本的工业应用。然而,由于大纤维束的熔体粘度较高,用热塑性塑料浸渍大纤维束具有挑战性。在这项研究中,将聚酰胺 6(PA 6)溶解在氯化钙和甲醇的混合物中以降低其粘度,然后将大纤度碳纤维织物浸入溶液中。随后,用水除去溶剂并将织物烘干。扫描电子显微镜观察表明,由于溶液浸渍,纤维束内存在许多 PA6 颗粒。随后,使用额外的 PA6 薄膜堆叠进行压缩成型。与未进行溶液浸渍的复合材料相比,制成的复合材料的浸渍质量要好得多。浸渍质量还受到溶液浓度的影响,因为溶液浓度会影响 CF 纤维束中 PA6 的含量和剩余的氯化钙。Composites Part B: EngineeringSimultaneous toughening and strengthening of CF/EP composites through bi-component thermoplastics with hybrid phases between composite layersYi Xue, Zhaoyang Li, Jiamei Luo, Xueqin Yang, Zehao Yang, Yanhua Shi, Yong Liu, Yu Ma, Hui Zhang, Jianyong Yudoi:10.1016/j.compositesb.2024.111286 通过在复合材料层之间添加混合相的双组分热塑性塑料,同时增韧和增强 CF/EP 复合材料In this work, bi-component polyaryletherketone-cardo/polyethersulfone (PEK-C/PES) films with different areal densities were designed and fabricated by phase inversion approach, applied as interleaves to simultaneously toughen and strengthen the carbon fiber/epoxy resin (CF/EP) composites prepared by vacuum-assisted resin infusion process (VARI). Optical microscopy observations manifested that the PEK-C/PES films could maintain stability at the infusion temperature of epoxy resin. Nonetheless, PEK-C/PES films could dissolve into the epoxy resin at heating and later stages of curing, by which the distribution of PEK-C and PES between the layers of CF/EP composites could be effectively controlled. Interestingly, both Mode I and Mode II fracture toughness of the CF/EP composites interleaved with PEK-C/PES films of optimal areal density (22.0 gsm) increased by 135.3% and 51.6%, respectively, compared with the untoughened composites. Furthermore, the PEK-C/PES films resulted in a 62.4% improvement in the compression-after-impact (CAI) strength CF/EP composites. Additionally, observation of the fracture surfaces of Mode I and Mode II specimens by scanning electron microscopy revealed that PEK-C had good compatibility with epoxy resin and formed a “scale-like” phase structure, which significantly improved the toughness of the CF/EP composites. While the “sea island-like” microspheres developed by PES between the CF/EP composite layers could cause the deflection and termination of cracks, thus enlarging the surface area of cracks. In addition, the tensile, flexural, and interlaminar shear properties of CF/EP composites were moderately enhanced, attributed to the incorporation of PEK-C/PES films. This cost-effective approach reconciles efficiently the conflict of the interlaminar toughness and in-plane mechanical properties of composites for fabricating of high toughness CF/EP composites.在这项工作中,采用相反转方法设计并制备了不同等密度的双组分聚芳醚酮-卡多/聚醚砜(PEK-C/PES)薄膜,并将其用作交织层,以同时韧化和增强通过真空辅助树脂灌注工艺(VARI)制备的碳纤维/环氧树脂(CF/EP)复合材料。光学显微镜观察表明,PEK-C/PES 薄膜在环氧树脂灌注温度下仍能保持稳定。然而,PEK-C/PES 薄膜在加热和后期固化阶段会溶解到环氧树脂中,从而有效控制了 PEK-C 和 PES 在 CF/EP 复合材料层间的分布。有趣的是,与未增韧的复合材料相比,交错有最佳面积密度(22.0 克/平方米)PEK-C/PES 薄膜的 CF/EP 复合材料的模式 I 和模式 II 断裂韧性分别提高了 135.3% 和 51.6%。此外,PEK-C/PES 薄膜还使 CF/EP 复合材料的冲击后压缩(CAI)强度提高了 62.4%。此外,通过扫描电子显微镜观察模式 I 和模式 II 试样的断裂表面发现,PEK-C 与环氧树脂具有良好的相容性,并形成了 "鳞片状 "相结构,从而显著提高了 CF/EP 复合材料的韧性。而 PES 在 CF/EP 复合材料层之间形成的 "海岛状 "微球可导致裂纹的偏转和终止,从而扩大了裂纹的表面积。此外,由于加入了 PEK-C/PES 薄膜,CF/EP 复合材料的拉伸、弯曲和层间剪切性能都得到了适度提高。这种经济有效的方法有效地解决了复合材料层间韧性和面内机械性能之间的矛盾,从而制造出了高韧性 CF/EP 复合材料。Superior shear strength subject to the regulation of plastic toughness in K4169 alloy/TiAl intermetallic joints vacuum brazed with gradient composite amorphous filler metalsLiangliang Zhang, Peng Li, Shuai Li, Fuheng Nie, Baosheng Wu, Chao Li, Jiachen Li, Zhenyang Zhang, Xin Jiang, Bomin Zhao, Honggang Dongdoi:10.1016/j.compositesb.2024.111288 使用梯度复合非晶填充金属真空钎焊的 K4169 合金/TiAl 金属间化合物接头的超强剪切强度受塑性韧性的影响The concept of gradient composite amorphous filler metal (GAFM) was utilized to solve the scientific problem of low strength caused by excessive Ti-containing brittle-hard intermetallic compounds (IMCs) generated in Ni/TiAl brazed joints through interfacial hysteresis reaction. Based on the cluster-plus-glue-atom model, the GAFMs (Zr25Ti21.25Ni25Cu18.75/Zr31.25-XVXCu50Ni18.75) were designed for vacuum brazing of K4169 alloy with TiAl intermetallic. And the shear strength of the joint brazed with (Ti21.25Zr25Ni25Cu18.75/Zr25V6.25Cu50Ni18.75) GAFM reached 344 MPa. The relation between grain boundary, solution, dislocation and strength was established. The cracks initiated from the (Ti,Zr)(Ni,Cu)+(Cr,Fe,Ni) brittle-hard phase and the plastic-tough phase (Zr,Ti)(Ni,Cu) interface in Zone II with (Ti21.25Zr25Ni25Cu18.75/Zr31.25-XVXCu50Ni18.75) GAFMs at 1040 °C/10 min, and then extended to the (Ti,Zr)(Al,Ni,Cu)3[010]/(Ti,Zr)(Ni,Cu,Al)3[0-10] non-coherent interface. To regulate the distribution of the plastic-tough phase in Zone II, raising brazing temperature could promote the dissolution of Zone I into Zone II. The addition of V to the GAFMs, εG and εα mismatches increased and prompted the Niss[00-1]+TiAl[010] phase, (Cr,Fe,Ni)ss[00-1] phase with a-value lattice distortion of 21.38%, (Ni,Cr,Fe) and ZrNi3[0-2-1] grains refinement in Zone II, where KIC*/KIC>1, the brazed joint strengthening effect was enhanced. The columnar grains were transformed into grains with reticulated cladding characteristics. The percentage of substructured grains increased from 46.6% to 56.3%, and the percentage of HAGBs rose to 84.7%, which inhibited dislocation migration. Therefore, the ZrNi3 plastic-tough phase, prohibited the expansion of the major crack generated from the (Cr,Fe,Ni) brittle-hard phase. The major crack extended to the Ti(Ni,Cu,Al)3 [1–10]/Ti(Al,Cu,Ni)2[0-10] semi-coherent interface and then to the TiAl substrate, resulting in a zigzag crack expansion.利用梯度复合非晶填充金属(GAFM)的概念,解决了镍/钛铝钎焊接头中因界面滞后反应产生过多含钛脆硬金属间化合物(IMC)而导致强度低的科学难题。根据簇加胶原子模型,设计了 GAFMs(Zr25Ti21.25Ni25Cu18.75/Zr31.25-XVXCu50Ni18.75),用于含 TiAl 金属间化合物的 K4169 合金的真空钎焊。用(Ti21.25Zr25Ni25Cu18.75/Zr25V6.25Cu50Ni18.75)GAFM 钎焊的接头剪切强度达到 344 兆帕。建立了晶界、溶解、位错和强度之间的关系。裂纹从 II 区的(Ti,Zr)(Ni,Cu)+(Cr,Fe,Ni)脆硬相和(Ti21.Zr)(Ni,Cu)塑韧相界面开始。 25Zr25Ni25Cu18.75/Zr31.25-XVXCu50Ni18.75)GAFMs在1040 ℃/10分钟的条件下,然后扩展到(Ti,Zr)(Al,Ni,Cu)3[010]/(Ti,Zr)(Ni,Cu,Al)3[0-10]非相干界面。为了调节塑韧相在 II 区的分布,提高钎焊温度可促进 I 区溶解到 II 区。在 GAFMs 中加入 V,εG 和 εα 失配增加,促使 Niss[00-1]+TiAl[010] 相、(Cr,Fe,Ni)ss[00-1]相(a 值晶格畸变为 21.38%)、(Ni,Cr,Fe)和 ZrNi3[0-2-1] 晶粒在 II 区细化,其中 KIC*/KIC>1 时,钎焊接头强化效果增强。柱状晶粒转变为具有网状包覆特征的晶粒。亚结构晶粒的比例从 46.6% 增加到 56.3%,HAGB 的比例上升到 84.7%,从而抑制了位错迁移。因此,ZrNi3 塑性韧相阻止了(Cr,Fe,Ni)脆硬相产生的主要裂纹的扩展。主要裂纹扩展到 Ti(Ni,Cu,Al)3 [1-10]/Ti(Al,Cu,Ni)2[0-10] 半相干界面,然后扩展到 TiAl 基体,形成人字形裂纹扩展。The effect of laser assisted tape placement processing conditions on microstructural evolution, residual stress and interlaminar shear strength of carbon fibre/PEEK laminatesHong Ma, Aswani Kumar Bandaru, Paul M. Weaverdoi:10.1016/j.compositesb.2024.111293激光辅助贴带加工条件对碳纤维/PEEK 层压板微结构演变、残余应力和层间剪切强度的影响In the present study, both experiments and thermo-mechanical coupled simulations were conducted to characterise the diverse crystallisation behaviours and the processing parameter-microstructure-mechanical property relationships occurring in laser-assisted tape placement (LATP) manufacturing of carbon fibre (CF)/Polyetheretherketone (PEEK) laminates. Specifically, at various processing temperatures (350 °C or 400), increasing the compaction pressure from 2 to 4 bar causes distinct defect distribution behaviours. However, variations in processing parameters show minimal effect on the morphology and size of crystallised spherulites, which were consistently around 2–3 μm in size, resulting in a final crystallinity of manufactured laminates within 30%–35%. It was found that the cold crystallisation processes occurring in PEEK during LATP play an important role in determining the final degree of crystallinity. Experimental measurements and simulations indicate that changes in processing parameters have a negligible effect on residual stress levels, especially regarding interlaminar residual stresses. A processing temperature of 400 °C was found to generate a diffuse, yet coherent, interphase spanning the fibre/matrix interface with a thickness approximately 70 nm. In contrast, at a processing temperature of 350 °C, a distinct, incoherent interface was confirmed between fibre and matrix. The formation of the interphase, coupled with fewer defects, leading to a relatively high interlaminar shear strength (78 MPa) of manufactured laminates under appropriate processing conditions. Therefore, it is suggested that regulating the degree of cold crystallisation in polymer matrices while ensuring a strong fibre/matrix interfacial bond by the optimisation of processing temperature, will enable the tailoring of microstructure and design of composites to meet specific strength property requirements.本研究通过实验和热机械耦合模拟来描述碳纤维(CF)/聚醚醚酮(PEEK)层压板在激光辅助贴带(LATP)制造过程中发生的各种结晶行为以及加工参数-微结构-机械性能之间的关系。具体来说,在不同的加工温度(350 °C 或 400)下,将压实压力从 2 巴增加到 4 巴会导致不同的缺陷分布行为。然而,加工参数的变化对结晶球粒的形态和大小影响甚微,结晶球粒的大小始终保持在 2-3 μm 左右,因此制造出的层压板的最终结晶度在 30%-35% 之间。研究发现,PEEK 在 LATP 过程中发生的冷结晶过程在决定最终结晶度方面发挥了重要作用。实验测量和模拟表明,加工参数的变化对残余应力水平的影响微乎其微,尤其是层间残余应力。研究发现,加工温度为 400 ℃ 时,纤维/基体界面上会产生一个弥散但连贯的层间相,厚度约为 70 nm。相比之下,在加工温度为 350 ℃ 时,纤维和基体之间出现了明显的不连贯界面。夹层的形成加上较少的缺陷,使得在适当的加工条件下制造的层压板具有相对较高的层间剪切强度(78 兆帕)。因此,建议通过优化加工温度来调节聚合物基体的冷结晶程度,同时确保纤维/基体界面的牢固结合,这样就能定制复合材料的微观结构和设计,以满足特定的强度性能要求。Composite materials combined with stem cells promote kidney repair and regenerationHao Tian, Liulin Wu, Haoxiang Qin, Xiaochen Li, Xingli Zhao, Wenyan Zhao, Fangchao Xue, Shanlan Zhao, Lang Li, Wen Zengdoi:10.1016/j.compositesb.2024.111278复合材料与干细胞相结合促进肾脏修复和再生Kidney disease is a worldwide public health problem, seriously threatening the quality of life of human beings, mainly including acute kidney injury (AKI), chronic kidney disease (CKD), and end-stage renal disease (ESRD), with a high mortality rate. Current effective treatments include dialysis and kidney transplants, but shortages of donor organs, immune rejection, and other problems have not been effectively addressed. In recent years, stem cells have been extensively studied, due to the proliferation and multi-directional differentiation properties, stem cells have shown great potential for applications in the field of tissue regeneration, which may be an effective means for kidney repair and regeneration. At the same time, the rapid development of composite materials show excellent performance in hemostasis, anti-inflammatory, organoids and kidney scaffolds construction, which is expected to further guide stem cells in promoting kidney repair and regeneration. In this review, we discuss the latest research progress in kidney repair and regeneration from the perspectives of stem cell and extracellular vesicle (EVs) regulation, composite material regulation, composite material combined with stem cells used in tissue engineering kidneys and organoids culture. Besides, we further analyze and summarize the mechanisms as well as pathways. In addition, we raise key issues that currently constrain composites as well as stem cell therapy for kidney disease. Finally, we further discuss the possible future development direction in the field of kidney regeneration.肾脏病是世界性的公共卫生问题,严重威胁人类的生活质量,主要包括急性肾损伤(AKI)、慢性肾脏病(CKD)和终末期肾脏病(ESRD),死亡率极高。目前有效的治疗方法包括透析和肾移植,但供体器官短缺、免疫排斥等问题尚未得到有效解决。近年来,干细胞被广泛研究,由于干细胞具有增殖和多向分化特性,在组织再生领域显示出巨大的应用潜力,可能成为肾脏修复和再生的有效手段。同时,复合材料的快速发展在止血、抗炎、器官组织和肾脏支架构建等方面表现出优异的性能,有望进一步引导干细胞促进肾脏修复与再生。在这篇综述中,我们从干细胞和细胞外囊泡(EVs)调控、复合材料调控、复合材料与干细胞结合用于组织工程肾脏和类器官培养等方面探讨了肾脏修复与再生的最新研究进展。此外,我们还进一步分析和总结了其机制和途径。此外,我们还提出了目前制约复合材料以及干细胞治疗肾脏疾病的关键问题。最后,我们进一步讨论了肾脏再生领域未来可能的发展方向。Highly adhesive self-reinforce hydrogel for the amelioration of intervertebral disc degeneration: Eliminating reactive oxygen species and regulating extracellular matrixYu-cai Li, Zhen-yuan Wei, Bin Chai, Zhen Pan, Shun-zhe Zhang, Hua Li, Jie-lin Wang, Xiao-jian Yedoi:10.1016/j.compositesb.2024.111280 用于改善椎间盘退行性病变的高粘合性自增强水凝胶:消除活性氧并调节细胞外基质Intervertebral disc degeneration (IVDD) plays a pivotal etiological role in low back pain, which is a global cause of disability. Although the underlying pathological processes and mechanisms of IVDD are complex, oxidative stress and extracellular matrix degradation are recognized as crucial determinants of degeneration. The delicate equilibrium between reactive oxygen species and antioxidants holds profound significance in maintaining normal cellular functions, while the extracellular matrix maintains intervertebral disc stability. This study developed a bioadhesive with mechanical properties similar to those of the nucleus pulposus, an injectable hydrogel. Unlike other antioxidative drug carrier materials, this hydrogel achieved oxidative stress removal through the material and loaded transforming growth factor-beta 3 gradually released to regulate the extracellular matrix. Cellular experiments demonstrated the ability of the hydrogel to scavenge oxygen radicals, stimulate nucleus pulposus cell migration, and regulate collagen secretion. Moreover, radiographic and histological analyses in a needle-induced rat-tail IVDD model confirmed the potential of the hydrogel to restore disc height, maintain disc hydration, preserve disc tissue structure, and promote collagen secretion. These findings have promising implications for the potential efficacy of hydrogels in ameliorating IVDD.椎间盘退变(IVDD)在腰背痛中起着举足轻重的病因作用,而腰背痛是全球致残的原因之一。虽然椎间盘退变的基本病理过程和机制十分复杂,但氧化应激和细胞外基质降解被认为是退变的关键决定因素。活性氧和抗氧化剂之间的微妙平衡在维持细胞正常功能方面具有深远意义,而细胞外基质则维持着椎间盘的稳定性。本研究开发了一种生物粘合剂,其机械特性与髓核相似,是一种可注射的水凝胶。与其他抗氧化载药材料不同的是,这种水凝胶通过材料实现了氧化应激的清除,并负载了转化生长因子-β3,逐渐释放出来调节细胞外基质。细胞实验证明,水凝胶具有清除氧自由基、刺 激髓核细胞迁移和调节胶原蛋白分泌的能力。此外,在针 刺诱导的大鼠尾部 IVDD 模型中进行的放射学和组织学分析证实,水凝胶具有恢复椎间盘高度、保持椎间盘水合作用、保护椎间盘组织结构和促进胶原蛋白分泌的潜力。这些发现对水凝胶改善 IVDD 的潜在疗效具有良好的影响。Biomaterials for diabetic bone repair: Influencing mechanisms, multi-aspect progress and future prospectsBingbing Wang, Yong Huang, Qiang Cai, Zhipo Du, Xiaoming Lidoi:10.1016/j.compositesb.2024.111282 用于糖尿病骨修复的生物材料:影响机制、多方面进展与未来展望Disturbed glucose metabolism in diabetes mellitus (DM) patients affects bone metabolism and its microenvironment, which significantly impaired bone regeneration, making bone defect repair in DM patients a big challenge. Although autologous and allogeneic bone grafts are common therapeutic approaches, they do not achieve the desired therapeutic outcome, especially when targeting the complex pathologic microenvironment at the lesion site in DM patients. Therefore, various biomaterials have been developed to facilitate DM bone repair. With advances in bone tissue engineering, the focus of the study has transitioned from biologically inert to bioactive biomaterials. However, due to the lack of a comprehensive understanding of the pathologic microenvironment of diabetic bone defects, many biomaterials have not achieved satisfactory therapeutic results. Here, the mechanisms by which the pathological microenvironment affects bone regeneration are dissected. Then, recent advances in biomaterial therapeutic strategies based on these pathological microenvironments are comprehensively reviewed from seven aspects. Finally, current limitations that still need to be addressed are discussed, and feasible strategies for improvement and perspectives are presented. This review will certainly spark new ideas to develop more high-performance versatile biomaterials to improve the repair of bone defects under pathological conditions.糖尿病(DM)患者的糖代谢紊乱会影响骨代谢及其微环境,从而严重影响骨再生,使DM患者的骨缺损修复面临巨大挑战。虽然自体和异体骨移植是常见的治疗方法,但它们并不能达到预期的治疗效果,尤其是在针对 DM 患者病变部位复杂的病理微环境时。因此,人们开发了各种生物材料来促进 DM 骨修复。随着骨组织工程学的发展,研究重点已从生物惰性材料过渡到生物活性生物材料。然而,由于缺乏对糖尿病骨缺损病理微环境的全面了解,许多生物材料的治疗效果并不理想。本文将剖析病理微环境对骨再生的影响机制。然后,从七个方面全面回顾了基于这些病理微环境的生物材料治疗策略的最新进展。最后,讨论了目前仍需解决的局限性问题,并提出了可行的改进策略和展望。这篇综述必将引发新的思路,从而开发出更多高性能的多功能生物材料,改善病理条件下的骨缺损修复。Bio-inspired design and unusual mechanical properties of 3D horseshoe-shaped soft network metamaterialsJingxuan Zhou, Jiahui Chang, Xiaoning Song, Zheng-Yang Li, Li-Yuan Zhang, Hongbo Li, Jie Zhang, Dongjia Yan, Chuanzeng Zhangdoi:10.1016/j.compositesb.2024.111284三维马蹄形软网络超材料的生物启发设计和非同寻常的机械特性Biological tissues possess high stretchability and nonlinear mechanical response owing to their wavy and crimped microstructure. The metamaterials exhibit unusual physical and mechanical properties, dominated by the configuration of artificial periodic microstructures. However, the development of bio-inspired designs and three-dimensional (3D) soft metamaterials that can achieve a variety of unusual mechanical properties remains challenging. Here, we reported a class of 3D horseshoe-shaped soft network metamaterials with tunable nonlinear mechanical response and tension-torsion coupling effect. Based on the 3D horseshoe-shaped microstructure and octahedron lattice arrangement, the designed 3D soft network metamaterials can exhibit J-shaped stress-strain curve and large angle of torsion with large levels of deformation under tension. The mechanical properties of the 3D soft network metamaterials in different characteristic directions are investigated, where a negative Poisson's ratio appears. Furthermore, the extended design that the 3D horseshoe-shaped microstructures are replaced by the semi-elliptic and quarter-arc-straight joint microstructures can tune a wide range of desired J-shaped stress-strain curves. Thus, the multi-unusual mechanical properties provide potential uses in multi-functional metamaterials and flexible bio-integrated devices.生物组织因其波浪状和卷曲的微结构而具有高伸展性和非线性机械响应。超材料表现出不同寻常的物理和机械特性,这主要是由人工周期性微结构的配置所决定的。然而,开发生物启发设计和三维(3D)软超材料以实现各种不同寻常的机械特性仍具有挑战性。在此,我们报告了一类具有可调非线性机械响应和张扭耦合效应的三维马蹄形软网络超材料。基于三维马蹄形微结构和八面体晶格排列,所设计的三维软网络超材料在张力作用下可表现出 J 型应力应变曲线和大扭转角以及大变形量。研究了三维软网络超材料在不同特征方向上的力学性能,其中出现了负泊松比。此外,将三维马蹄形微结构替换为半椭圆形和四分之一弧形直缝微结构的扩展设计,可以调谐出各种所需的 J 型应力应变曲线。因此,这种多重异常机械特性为多功能超材料和柔性生物集成装置提供了潜在用途。A partial dissolution-regeneration strategy for preparing water-resistant composite film of cellulose I and cellulose II with high light transmittance and adjustable hazeLijiaqi Zhang, Yong Huang, Min Wudoi:10.1016/j.compositesb.2024.111285 制备具有高透光率和可调雾度的纤维素 I 和纤维素 II 防水复合膜的部分溶解-再生策略Due to the excellent properties of nanocellulose film such as biodegradability and renewability, researchers have conducted in-depth research on it in recent years. However, rich hydroxyl groups on the surface of nanocellulose make it hydrophilic, and small gaps between the fibrils have significant capillary effect, which cause the strength of nanocellulose film drastically deteriorates when exposed to water, severely restricting its scope of use. In this study, the nanocellulose prepared by ball milling was used to prepare nanocellulose film, and the surface of the film was partially dissolved by ZnCl2. The dense regenerated cellulose (Cellulose Ⅱ) with Zn2+ on the surface made the film hydrophobic, effectively reduced the water absorption rate of the film, and also maintained the internal structure of the nanocellulose. Through this strategy, the nanocellulose film with high dry strength (151–176 MPa), wet strength (27.6–31.7 MPa), high light transmittance (80–91%), and adjustable haze (50–90%) was obtained. This study provides a facile and environmentally friendly strategy to improve the wet strength of nanocellulose film, which broadens its application prospect in packaging materials and electronic devices.由于纳米纤维素薄膜具有生物降解性和可再生性等优良特性,近年来研究人员对其进行了深入研究。然而,纳米纤维素表面丰富的羟基使其具有亲水性,纤维间的微小空隙具有显著的毛细管效应,这导致纳米纤维素薄膜遇水后强度急剧下降,严重限制了其使用范围。本研究采用球磨法制备纳米纤维素,并用 ZnCl2 部分溶解薄膜表面。表面含有 Zn2+ 的致密再生纤维素(纤维素Ⅱ)使薄膜具有疏水性,有效降低了薄膜的吸水率,同时也保持了纳米纤维素的内部结构。通过这种策略,获得了具有高干强度(151-176 MPa)、湿强度(27.6-31.7 MPa)、高透光率(80-91%)和可调雾度(50-90%)的纳米纤维素薄膜。该研究为提高纳米纤维素薄膜的湿强度提供了一种简便、环保的策略,拓宽了其在包装材料和电子设备中的应用前景。Compatibilization of ultra-high molecular weight polyethylene (UHMWPE) fibers and their composites for superior mechanical performance: A concise reviewDaksh Shelly, Seul-Yi Lee, Soo-Jin Parkdoi:10.1016/j.compositesb.2024.111294超高分子量聚乙烯 (UHMWPE) 纤维及其复合材料的相容,以获得优异的机械性能:简明综述In the industrial sector, ultra-high molecular weight polyethylene (UHMWPE) fibers are often recognized as superlative reinforcement owing to their unmatchable characteristics like impressive toughness, exceptional weight-to-strength ratio, low density, excellent wear, and chemical resistance. The remarkable features of UHMWPE fiber/polymer composites have gained substantial attention, rendering them ideal for advanced engineering materials. Despite this, advancements in developing high-performance UHMWPE fiber polymer composites have been constrained by the fiber's smooth and chemically inert surface, resulting in a weak interface between UHMWPE and the polymer matrix. Numerous techniques have emerged to enhance the surface of UHMWPE fibers, aiming to bolster the fiber-polymer matrix interface. These modifications amplify surface chemical activity and roughness, thus achieving robust mechanical interlocking and chemical bonding. This review paper aims to elucidate how the physical and chemical surface modifications of UHMWPE fibers fortify the interface with polymer matrices. Researchers can leverage the presented techniques to design advanced composites with improved performance and durability. This article provides a concise overview of current developments in various surface modification techniques for UHMWPE fibers and their role as polymer reinforcements. Last, ongoing challenges and potential research directions in UHMWPE reinforced FRPCs are also discussed.在工业领域,超高分子量聚乙烯(UHMWPE)纤维因其无与伦比的特性,如令人印象深刻的韧性、优异的重量-强度比、低密度、优异的耐磨性和耐化学性,通常被视为超级增强材料。超高分子量聚乙烯纤维/聚合物复合材料的显著特性已引起广泛关注,使其成为先进工程材料的理想选择。尽管如此,开发高性能超高分子量聚乙烯纤维聚合物复合材料的进展一直受到纤维光滑和化学惰性表面的限制,导致超高分子量聚乙烯与聚合物基体之间的界面薄弱。为了增强纤维与聚合物基体之间的界面,出现了许多增强超高分子量聚乙烯纤维表面的技术。这些改性技术可提高表面化学活性和粗糙度,从而实现牢固的机械互锁和化学键合。本综述论文旨在阐明超高分子量聚乙烯纤维的物理和化学表面改性如何强化与聚合物基质的界面。研究人员可利用所介绍的技术设计出性能更佳、更耐用的先进复合材料。本文简要概述了超高分子量聚乙烯纤维各种表面改性技术的当前发展及其作为聚合物增强材料的作用。最后,还讨论了超高分子量聚乙烯增强 FRPC 所面临的挑战和潜在的研究方向。Composites Science and TechnologyHigh energy dissipation and self-healing auxetic foam by integrating shear thickening gelKang Zhang, Qiang Gao, Jingchao Jiang, Meishan Chan, Xiaoya Zhai, Liuchao Jin, Jiangfan Zhang, Jifan Li, Wei-Hsin Liaodoi:10.1016/j.compscitech.2024.110475 通过整合剪切增稠凝胶实现高能量耗散和自修复辅助泡沫Herein, we report a novel hybrid auxetic foam (HAF) with high energy dissipation and self-healing properties prepared by integrating shear thickening gel (STG) with auxetic polyurethane foam (APF). Due to the synergetic action of shear thickening property of STG and the negative Poisson's ratio of APF, HAF shows better impact protection performance than APF and PU foam. The quasi-static compression test shows the energy dissipation ability of HAF is around 4 times that of APF. The dynamic impact test demonstrates that the force reduction of HAF increases by as high as 64 %, compared to APF. Notably, the force reduction improvement of the HAF is much higher than other hybrid auxetic materials. It is also found that the peak force of HAF is reduced as the amount of STG increases. Additionally, the peak force difference between HAF and APF becomes larger when they are subjected to higher impact energies, due to the rate-dependent effect of STG inside the foam. The Poisson's ratio results for HAF with different STG content under low and high compression strain rates reveal that the dimension of auxetic cell structures and STG content are required to be carefully designed to maximize the synergistic effect of auxetic property and shear thickening property. Besides, HAF demonstrates self-healing ability, allowing it to repair damage sustained during use and can be assembled like Lego blocks to make structures with any irregular shapes. Our work provides ideas for the development of advanced auxetic materials, with the potential to revolutionize a wide range of applications.在此,我们报告了一种新型混合助剂泡沫(HAF),该泡沫由剪切增稠凝胶(STG)和助剂聚氨酯泡沫(APF)混合制备而成,具有高能量耗散和自愈性能。由于 STG 的剪切增稠特性和 APF 的负泊松比的协同作用,HAF 比 APF 和聚氨酯泡沫具有更好的冲击防护性能。准静态压缩试验表明,HAF 的消能能力约为 APF 的 4 倍。动态冲击测试表明,与 APF 相比,HAF 的力减小率提高了 64%。值得注意的是,HAF 的减力效果远高于其他混合辅助材料。研究还发现,随着 STG 用量的增加,HAF 的峰值力也会减小。此外,由于泡沫内部 STG 的速率效应,当 HAF 和 APF 承受更高的冲击能量时,它们之间的峰值力差异会变得更大。不同 STG 含量的 HAF 在低压缩应变率和高压缩应变率条件下的泊松比结果表明,需要精心设计辅助细胞结构的尺寸和 STG 含量,以最大限度地发挥辅助特性和剪切增厚特性的协同效应。此外,HAF 还具有自我修复能力,可以修复使用过程中受到的损伤,并且可以像乐高积木一样组装成任何不规则形状的结构。我们的工作为开发先进的辅助材料提供了思路,有望为广泛的应用领域带来变革。来源:复合材料力学仿真Composites FEM

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