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【新文速递】2024年3月29日复合材料SCI期刊最新文章

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今日更新:Composite Structures 2 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 1 篇,Composites Science and Technology 4 篇

Composite Structures

Free vibration analysis of composite beams and laminated reinforced panels by refined dynamic stiffness method and CUF-based component-wise theory

Xiao Liu, Alfonso Pagani, Erasmo Carrera, Xiang Liu

doi:10.1016/j.compstruct.2024.118058

利用改进的动态刚度法和基于 CUF 的分量-全理对复合梁和层压加固板进行自由振动分析

This paper presents a comprehensive analysis of the free vibration behavior of composite beams and laminated reinforced panels. Employing high-order theories with displacement variables only, the investigation combines dynamic stiffness method (DSM) and the Carrera unified formulation (CUF). The 3D displacement field can be expanded in the framework of CUF as any order of generic unknown variables over the cross-section, in the case of beam theories. Specifically, Lagrange expansions (LE) of cross-sectional displacement variables are considered, enabling the refinement modelling of complex cross-sections with different layers (layer-wise) and components (component-wise). The governing differential equations and natural boundary conditions are derived using the principle of virtual displacements. Subsequently, an exact dynamic stiffness matrix is developed by establishing a relationship between the amplitudes of harmonically varying loads and the corresponding responses. The Wittrick–Williams algorithm is employed to solve the transcendental eigenvalue problem resulting from this approach. The Lagrange-based CUF(LE)-DSM outperforms other polynomials (such as Taylor)-based CUF in analyzing composite structures, enabling detailed analysis with various geometries, lamination schemes and boundary conditions. It delivers accurate results in reinforced panel analysis, requiring only 13% of the DOFs compared to 3D FE models, thereby reducing computational costs significantly, as confirmed by comparative studies and validations.

本文对复合梁和层压加固板的自由振动行为进行了全面分析。研究采用了仅包含位移变量的高阶理论,结合了动态刚度法(DSM)和卡雷拉统一公式(CUF)。在 CUF 框架内,三维位移场可作为横截面上的任意阶通用未知变量展开,以梁理论为例。具体地说,横截面位移变量的拉格朗日展开(LE)被考虑在内,从而能够对具有不同层(按层计算)和组件(按组件计算)的复杂横截面进行细化建模。利用虚拟位移原理推导出支配微分方程和自然边界条件。随后,通过建立谐波变化载荷振幅与相应响应之间的关系,开发出精确的动态刚度矩阵。该方法采用 Wittrick-Williams 算法来解决由此产生的超越特征值问题。在分析复合材料结构时,基于拉格朗日的 CUF(LE)-DSM 优于其他基于多项式(如泰勒)的 CUF,可对各种几何形状、层压方案和边界条件进行详细分析。与三维 FE 模型相比,它只需要 13% 的 DOFs,从而大大降低了计算成本。


Short-term behavior of glass fiber-polymer composite bending-active elastica beam under service load application

Tara Habibi, Landolf Rhode-Barbarigos, Thomas Keller

doi:10.1016/j.compstruct.2024.118080

玻璃纤维-聚合物复合材料弯曲活性弹性梁在使用负荷下的短期行为

Bending-active elastica beam is a structural configuration that is based on the elastic deformation of an initially straight beam. This deformation occurs when horizontal displacements are applied to a sliding support, causing the beam to bend into an arched shape. Previous research has focused on the stability of small-scale bending-active structures, thus not considering material strength, which is crucial in real-scale applications and structural design. This paper investigates the short-term structural behavior of bending-active elastica beams using pultruded glass fiber-polymer composite profiles, as used in real-scale structures. A series of short-term bending and service load application experiments were performed considering different bending degrees and loading scenarios. These results were used to validate finite element modeling. They demonstrated that steeper bent beams experience material failure, while shallower ones exhibit snap-through buckling. Material failure initiates on the tensile side of the beams, with cracks initiating at locations of maximum curvature. Higher bending degrees and symmetric loading result in higher maximum loads than lower bending degrees and asymmetric loading. A strain-based failure criterion, which can serve for structural design, is derived.

弯曲活性弹性梁是一种基于初始直梁弹性变形的结构构造。当水平位移施加到滑动支撑上时,这种变形就会发生,从而导致梁弯曲成拱形。以往的研究主要关注小规模弯曲活动结构的稳定性,因此没有考虑材料强度,而材料强度在实际应用和结构设计中至关重要。本文研究了使用拉挤玻璃纤维-聚合物复合材料型材的弯曲活性弹性梁的短期结构行为。考虑到不同的弯曲度和加载情况,进行了一系列短期弯曲和使用荷载应用实验。这些结果用于验证有限元建模。实验结果表明,较陡的弯曲梁会出现材料失效,而较浅的弯曲梁则会出现快速屈曲。材料破坏始于梁的拉伸侧,裂缝始于最大曲率位置。与较低的弯曲度和不对称加载相比,较高的弯曲度和对称加载会产生较高的最大载荷。由此得出了一种基于应变的失效准则,可用于结构设计。


Composites Part A: Applied Science and Manufacturing

Designable high-performance TPU foam strain sensors towards human-machine interfaces

Yuefeng Gu, Zhang Zhenghao, Feifan Fan, Lisi Wei, Tiancheng Wu, Dakai Wang, Qiuhong Li

doi:10.1016/j.compositesa.2024.108169

 

面向人机界面的可设计高性能热塑性聚氨酯泡沫应变传感器

Flexible, breathable, and stable sensors were important in developing human–computer interaction systems and novel wearable devices. However, major challenges were still faced in two aspects, 1) high-performance strain sensors with a large sensing range, and 2) an interaction mode that is both convenient and efficient. Herein, we developed a thermoplastic polyurethane large-skeleton foam (TPU-LS foam) through a steam-induced method. The strain sensor comprised three layers of breathable foam, with CNTs/rGO TPU-LS foam as the inner layer and pure foam as the protective layer. PDMS/TiO2 was sprayed to create a UV-resistant and self-repairing coating, achieving a 66% melanin inhibition rate and a 91% repair rate. The sensor presented a wide work range over 100%, a high gauge factor of 637.8, and long-term durability. We trained machine learning frameworks to recognize different gestures and designed two types of human–computer interaction patterns, allowing users to operate apps with gestures.

灵活、透气和稳定的传感器对于开发人机交互系统和新型可穿戴设备非常重要。然而,在两个方面仍面临重大挑战:1)传感范围大的高性能应变传感器;2)既方便又高效的交互模式。在此,我们通过蒸汽诱导法开发了一种热塑性聚氨酯大骨架泡沫(TPU-LS 泡沫)。应变传感器由三层透气泡沫组成,内层为 CNTs/rGO TPU-LS 泡沫,保护层为纯泡沫。喷涂的 PDMS/TiO2 涂层具有抗紫外线和自我修复功能,黑色素抑制率达到 66%,修复率达到 91%。传感器的工作范围超过 100%,测量系数高达 637.8,并具有长期耐用性。我们训练了机器学习框架来识别不同的手势,并设计了两种人机交互模式,让用户可以用手势操作应用程序。


Composites Part B: Engineering

A comprehensive review on advancements, innovations and applications of 3D warp interlock fabrics and its composite materials

Mulat Alubel Abtew

doi:10.1016/j.compositesb.2024.111395

全面回顾三维经编互锁织物及其复合材料的进步、创新和应用

Thanks to their superior performance including greater cohesion, good mechanical and delamination behaviors, and excellent formability properties, 3D warp interlock woven fabrics (3DWIFs) have emerged as promising fibrous reinforcement structure for composite material. The current paper explores the innovations, advanced developments, and varied applications of 3DWIFs and its composites. Initially, the paper discusses the fabric's versatile potential, revealing its exceptional structural integrity, formability, manufacturing techniques, broad spectrum of applications and other parameters compared to conventional two-dimensional woven fabric reinforcements. Furthermore, the potential benefits and challenges of the 3DWIFs and its composite materials are explained to highlight their prospects in current and future industrial applications. Subsequently, the paper further explores the reinforcement's distinctive structural characteristics emphasizing its classifications and designing techniques. The discussion extends to the extensive and versatile applications of 3DWIFs and its composites across diverse sectors, including defence and security, the automotive and aerospace industry, and the civil and architectural sectors. By synthesizing and critically analyzing the existing research, this paper will serve as a valuable resource, enlightening the 3DWIF's present status and projecting its promising prospects both as dry fabric and composite reinforcing material for diverse industrial applications.

三维经纱交错编织物(3DWIF)具有更高的内聚力、良好的机械和分层行为以及优异的可成形性等优越性能,因此已成为复合材料中极具前景的纤维增强结构。本文探讨了 3DWIF 及其复合材料的创新、先进发展和各种应用。首先,本文讨论了这种织物的多功能潜力,揭示了与传统二维编织物加固材料相比,其卓越的结构完整性、可成形性、制造技术、广泛的应用范围和其他参数。此外,还解释了 3DWIF 及其复合材料的潜在优势和挑战,以突出其在当前和未来工业应用中的前景。随后,论文进一步探讨了加固材料的独特结构特征,强调了其分类和设计技术。讨论延伸到 3DWIFs 及其复合材料在不同领域的广泛和多用途应用,包括国防和安全、汽车和航空航天工业以及民用和建筑领域。通过对现有研究的综合和批判性分析,本文将成为一份宝贵的资料,揭示 3DWIF 的现状,并预测其作为干法织物和复合材料在不同工业应用领域的广阔前景。


Composites Science and Technology

Continuous additive manufacturing of hemp yarn-reinforced biocomposites with improved impregnation method

Geoffrey Ginoux, Xikun Wu, Chaimae Laqraa, Damien Soulat, Joseph Paux, Manuela Ferreira, L.A.B.A.N.I.E.H. Ahmad-Rashed, Samir Allaoui

doi:10.1016/j.compscitech.2024.110561

 

用改进的浸渍方法连续添加制造麻纱增强生物复合材料

This study was motivated by the development of new additively manufactured bio-based materials with high performance. Hemp yarn was used in continuous material extrusion additive manufacturing to produce novel hemp yarn-reinforced biocomposites. The hemp yarn was compared to an original hemp/poly(lactic acid) hybrid yarn prepared by commingling before printing as an improved impregnation method. In X-ray micro-computed tomography, the hybrid yarn-based biocomposite exhibited a higher impregnation rate accompanied by a reduced void content, more aligned fibers, and a more homogeneous distribution of the different constituents, resulting in significantly higher mechanical properties during tensile loading with a more brittle behavior compared to the additively manufactured biocomposite based on pure hemp yarn. In addition, superior mechanical performance was obtained while having lower fiber fraction with the use of hybrid yarns, raising awareness about the importance of improving the impregnation of the plant fibers as well as the fiber volume fraction. This original preparation method can provide bio-based materials with enhanced quality and performance, close to those obtained with conventional manufacturing techniques, while making the most of additive manufacturing for sustainable, lightweight, and high-end applications in health or aerospace.

这项研究的动机是开发新的高性能生物基添加制造材料。麻纱被用于连续材料挤压添加制造,以生产新型麻纱增强生物复合材料。作为一种改进的浸渍方法,大 麻纱线与原始的大 麻/聚(乳酸)混合纱线进行了比较。在 X 射线显微计算机断层扫描中,基于混合纱线的生物复合材料表现出更高的浸渍率,同时空隙含量降低,纤维更整齐,不同成分的分布更均匀,因此与基于纯大 麻纱线的添加剂制造的生物复合材料相比,在拉伸加载过程中机械性能显著提高,行为更脆。此外,在使用混合纱线时,虽然纤维分数较低,但却获得了优异的机械性能,这让人们意识到提高植物纤维浸渍度和纤维体积分数的重要性。这种独创的制备方法可以提供质量和性能更高的生物基材料,接近传统制造技术所获得的材料,同时充分利用增材制造技术,实现可持续、轻质和高端的健康或航空航天应用。


Recycled rubber wastes-based polymer composites with flame retardancy and electrical conductivity: Rational design, modeling and optimization

Paulina Wiśniewska, Natalia A. Wójcik, Paulina Kosmela, Jacek Ryl, Robert Bogdanowicz, Henri Vahabi, Alireza Shadman, Krzysztof Formela, Mohammad Reza Saeb

doi:10.1016/j.compscitech.2024.110563

 

具有阻燃性和导电性的回收橡胶废料基聚合物复合材料:合理设计、建模和优化

Polymer recycling techniques experience a maturity period of design and application. Rubbers comprise a high proportion of polymer wastes, highly flammable and impossible to re-melt. Polymer composites based on ground tire rubber (GTR) and ethylene-vinyl acetate copolymer (EVA) containing carbon black (CB) (1–50 phr), with variable EVA/GTR weight composition (10/90, 25/75, 50/50, 75/25 and 90/10), and processing temperature (Low: 100 °C and High: 200 °C) were designed applying Design of Experiments (DOE) approach of Optimal Design. The properties and performance features were experimentally evaluated. The tensile strength (TS) and elongation at break (EB) were optimized using Desirability Function (DF) approach. A wide fluidity window (Labeled POOR, GOOD, and EXCELLENT) and mechanical properties were observed. Overall, higher values of EB were assigned to samples processed at 200 °C. Cubic regression modeling and DF optimization of TS and EB indicated unlikely that one expect a TS ≥ 3 MPa, while EB values more than 500% were likely regardless of CB content for EVA-rich composites. The electrical properties of CB/EVA/GTR samples were examined by impedance spectroscopy technique. An interesting relationship was observed between the DC conductivity and the EVA/GTR ratio and processing temperature. GTR-rich samples showed much higher conductivity than EVA-dominated samples, attributed to the presence of CB in the rubber waste, which, together with the added CB, was able to create conduction paths for the transported electrons. Higher processing temperature of 200 °C improved dispersion of the added CB, i.e. a more even distribution of the conductive phase in the matrix. The uniform and evenly dispersed domains of particles were detected by SEM images for highly CB loaded composites. Surprisingly, 50/50 EVA/GTR composites were resilient against flame, while thermally stable ones in TGA measurements were highly CB loaded ones.

聚合物回收技术在设计和应用方面已进入成熟期。橡胶在聚合物废物中占很大比例,极易燃烧且无法再熔化。应用最优设计的实验设计(DOE)方法,设计了基于轮胎橡胶(GTR)和含炭黑(CB)(1-50 phr)的乙烯-醋酸乙烯共聚物(EVA)的聚合物复合材料,EVA/GTR 的重量组成可变(10/90、25/75、50/50、75/25 和 90/10),加工温度可变(低:100 °C 和高:200 °C)。实验评估了这些材料的特性和性能特征。拉伸强度(TS)和断裂伸长率(EB)采用可取函数法(DF)进行了优化。观察到了较宽的流动性窗口(标记为 "差"、"好 "和 "优")和机械性能。总体而言,在 200 °C 下加工的样品 EB 值较高。TS 和 EB 的立方回归建模和 DF 优化表明,TS ≥ 3 MPa 的可能性不大,而对于富含 EVA 的复合材料,无论 CB 含量如何,EB 值都可能超过 500%。通过阻抗光谱技术检测了 CB/EVA/GTR 样品的电特性。观察到直流电导率与 EVA/GTR 比率和加工温度之间存在有趣的关系。富含 GTR 的样品比以 EVA 为主的样品显示出更高的导电率,这归因于橡胶废料中含有 CB,CB 和添加的 CB 能够为传输的电子创建传导路径。200 °C 的较高加工温度改善了添加的 CB 的分散性,即导电相在基体中的分布更加均匀。通过扫描电子显微镜图像,可以检测到高 CB 负载复合材料的颗粒域均匀且分散一致。令人惊讶的是,50/50 EVA/GTR 复合材料具有抗燃性,而在 TGA 测量中热稳定性较好的是高 CB 含量的复合材料。


Quasi-static crush response of lightweight sandwich composite tubes fabricated via newly designed internal thermal expansion technique

Yunfei Peng, Maojun Li, Xujing Yang, Jinzhi Li, Chenfeng Xiong

doi:10.1016/j.compscitech.2024.110574

 

通过新设计的内部热膨胀技术制造的轻质夹层复合管的准静态挤压响应

Different from conventional unidirectional outward-inward forming methods, this study employs a multidirectional internal expansion shaping approach to fabricate lightweight sandwich composite tubes. Integrating carbon fiber reinforced polymer (CFRP), thermal expansion foam and polymethacrylimide (PMI) foam, the sandwich composite tubes demonstrate adaptability in terms of material properties as validated through several experimental trials. The one-step molding process eliminates the requirements for subsequent structural assembly and bonding, while ensuring adhesion between diverse material components. The sandwich composite tubes exhibit superior impact resistance, showcasing a stable progressive crushing failure. The energy absorption mechanism shifts from single CFRP damage to a multi-material composite energy absorption mode. The specific energy absorption (SEA) value of designed sandwich composite tube is up to 102 J/g. The sandwich composite tubes fabricated in this study hold promising applications in advanced vehicle/aerospace lightweighting and crashworthiness safety.

与传统的单向外向内成型方法不同,本研究采用多向内胀成型方法制造轻质夹层复合管。这种夹层复合材料管融合了碳纤维增强聚合物(CFRP)、热膨胀泡沫和聚甲基丙烯酰亚胺(PMI)泡沫,其材料性能的适应性经过多次实验验证。一步成型工艺省去了后续的结构组装和粘合要求,同时确保了不同材料成分之间的粘合性。夹层复合材料管表现出卓越的抗冲击性能,呈现出稳定的渐进式破碎失效。能量吸收机制从单一的 CFRP 损坏转变为多材料复合材料能量吸收模式。设计的夹层复合管的比能量吸收(SEA)值高达 102 J/g。本研究中制造的夹层复合管在先进汽车/航空航天轻量化和防撞安全方面具有广阔的应用前景。


Robust and wear-durable coating based on halloysite nanotubes/polymer composite for passive daytime radiative cooling

Xinyuan Zhou, Yuqian Xu, Di Zhang, Ming Huang, Mingxian Liu

doi:10.1016/j.compscitech.2024.110566

 

基于哈洛石纳米管/聚合物复合材料的坚固耐磨涂层,用于日间被动辐射制冷

Passive daytime radiative cooling (PDRC) is an efficient strategy to achieve cooling through spectrally selective emission and high solar spectrum reflection. Current preparation strategies for PDRC materials mainly involve doping inorganic micro-nanoparticles into polymers, but their solar reflectance is usually insufficient. Here, we designed a super-white inorganic coating on different substrates based on natural halloysite nanotubes (HNTs) through the doctor blade method. Polyvinyl alcohol (PVA) and water-based acrylic resin (AR) were introduced to increase the adhesion for obtaining robust inorganic coating. HNTs/PVA/AR composite coating shows excellent water resistance, wear resistance, and environmental tolerance, which is mainly due to the strong interfacial interactions between HNTs, PVA, and AR. Compared with the uncoated transparent plastic, the coated plastic exhibits a super-white appearance (whiteness of ∼95%) and maximum solar reflectance of ∼97%. The maximum temperature difference of the HNTs/PVA/AR coated and pristine copper sheet is15 °C under simulated sunlight. The PDRC property is related to the high surface roughness of the coating composed of disordered high-aspect ratio nanotubes and the high whiteness of the raw halloysite materials. The composite coating can tolerate pH from 1–13, temperature change (−60∼250 °C), and different salt environments. The composite coating increases thermal stability, flame retardancy, and giving protective effect of dye against UV degradation. In addition, the HNTs/PVA/AR coated plastic as packaging materials can maintain good freshness of different fruits under strong solar irradiation. The robust HNTs/PVA/AR composite coating with high PDRC properties shows promising application in food packaging, building energy conservation, metal anticorrosive coating, and sunscreen products.

被动日间辐射冷却(PDRC)是一种通过光谱选择性发射和高太阳光谱反射实现冷却的有效策略。目前的 PDRC 材料制备策略主要是在聚合物中掺入无机微纳米粒子,但其太阳反射率通常不足。在此,我们通过刮刀法在不同基底上设计了一种基于天然埃洛石纳米管(HNTs)的超白无机涂层。为了获得坚固的无机涂层,我们引入了聚乙烯醇(PVA)和水性丙烯酸树脂(AR)来增加附着力。HNTs/PVA/AR 复合涂层具有优异的耐水性、耐磨性和环境耐受性,这主要归功于 HNTs、PVA 和 AR 之间的强界面相互作用。与未涂覆的透明塑料相比,涂覆后的塑料外观超白(白度达 95%),最大太阳反射率达 97%。在模拟阳光下,HNTs/PVA/AR 涂层铜板与原始铜板的最大温差为 15 °C。PDRC 特性与无序高谱系比纳米管组成的涂层的高表面粗糙度和埃洛石原料的高白度有关。复合涂层可耐受 1-13 的 pH 值、温度变化(-60∼250 °C)和不同的盐环境。复合涂层提高了热稳定性和阻燃性,并使染料具有抗紫外线降解的保护作用。此外,HNTs/PVA/AR 涂层塑料作为包装材料还能在强烈的太阳光照射下保持不同水果的新鲜度。具有高 PDRC 特性的坚固 HNTs/PVA/AR 复合涂层在食品包装、建筑节能、金属防腐涂料和防晒产品方面具有广阔的应用前景。




来源:复合材料力学仿真Composites FEM
ACTMechanicalAdditiveSystemDeform振动断裂复合材料燃烧通用航空航天汽车建筑理论材料
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【新文速递】2024年4月2日复合材料SCI期刊最新文章

今日更新:Composite Structures 1 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Part B: Engineering 1 篇,Composites Science and Technology 1 篇Composite StructuresAnti-bird-strike behavior of M40J carbon fiber reinforced plastic laminatesLiangbin Chen, Xueyu Lin, Risheng Bai, Zhenqiang Zhao, Zaoyang Guodoi:10.1016/j.compstruct.2024.118094M40J 碳纤维增强塑料层压板的防鸟击性能In this paper the anti-bird-strike behavior of M40J 12 K/7901 carbon fiber reinforced plastic (CFRP) laminates is investigated numerically and experimentally. Gelatin artificial birds were used to perform the bird-strike tests on various M40J CFRP laminated square plates with a wide range of impact velocities. Ultrasonic C-scan was utilized to measure the damage of the tested plates. Finite Element (FE) Models were created to simulate the bird-strike tests and the numerical predictions agreed well with the experimental results. The threshold values of bird’s impact velocity V0 when fibers begin to break were studied for 4 types of plates under normal and oblique bird-strikes to evaluate the anti-bird-strike capability of the laminates. The fiber damage after a flock-strike of two small birds was then investigated and the results suggest that the investigation of one large bird strike is more convincing in qualifying the anti-bird-strike resistance than that of a flock-strike of two small birds. Finally, a ply stacking sequence optimization in anti-bird-strike stiffness was obtained by the global optimization method.本文对 M40J 12 K/7901 碳纤维增强塑料(CFRP)层压板的抗鸟击行为进行了数值和实验研究。使用明胶人造鸟对各种 M40J CFRP 层压方板进行鸟击试验,冲击速度范围很宽。利用超声波 C 扫描测量受测板材的损坏情况。建立了有限元(FE)模型来模拟鸟击试验,数值预测结果与实验结果吻合良好。研究了 4 种板材在正向和斜向鸟击下纤维开始断裂时的鸟击速度阈值 V0,以评估层压板的抗鸟击能力。然后研究了两只小鸟成群撞击后的纤维损伤情况,结果表明,对一只大鸟撞击的研究比两只小鸟成群撞击的研究在鉴定抗鸟击能力方面更有说服力。最后,通过全局优化法得出了抗鸟击刚度的层叠顺序优化方案。Composites Part A: Applied Science and ManufacturingThermal runaway criterion for thick polymer compositesRikard Gebartdoi:10.1016/j.compositesa.2024.108187厚聚合物复合材料的热失控标准An analytical solution has been developed for the curing of thick polymer composite laminates that shows how the temperature profile responds to arbitrary changes to the material properties and process parameters and that curing with slow reactions and a low exotherm temperature is impossible if the Damköhler number is above a well-defined limit. The thermal runaway criterion can be recast as a criterion for the maximum allowable thickness of the laminate. The thermal runaway criterion was found to agree well with some results for thick laminates from the literature, but the peak temperature in the laminate was underpredicted for stable conditions. The model has a constant that can be adjusted to improve the peak temperature prediction, but more validation data is needed before the model can be optimized to simultaneously predict the peak temperature and thermal runaway with high accuracy.针对厚聚合物复合材料层压板的固化问题开发了一种分析解决方案,该方案显示了温度曲线如何对材料特性和工艺参数的任意变化做出反应,并显示了如果达姆克勒数高于一个明确定义的极限,则不可能出现反应缓慢和放热温度低的固化现象。热失控标准可重新作为层压板最大允许厚度的标准。研究发现,热失控准则与文献中一些厚层压板的结果十分吻合,但对稳定条件下层压板的峰值温度预测不足。该模型有一个常数,可以通过调整来改善峰值温度预测,但还需要更多的验证数据,才能对模型进行优化,以同时高精度地预测峰值温度和热失控。Composites Part B: EngineeringSuperior photoluminescence of quantum dot displays via organic-inorganic composite scatterersMinSu Kim, DaYeon Lee, HaYoung Jung, Seung Hee Leedoi:10.1016/j.compositesb.2024.111425 通过有机-无机复合散射体实现量子点显示器的卓越光致发光性能High color purity of quantum dot organic light-emitting diodes (QD-OLEDs) can be achieved by blue OLED light to stimulate pixelized green and red QDs within a color conversion layer, providing high color conversion efficiency in commercialized displays. However, enhancing external quantum efficiency (EQE) and minimizing blue light leakage remain significant challenges. To resolve these issues, we have developed an organic-inorganic composite system comprising quantum dots (QDs), liquid crystal (LC), polymer, and inorganic nanoparticles, like titanium dioxide (TiO2). The best EQE was enhanced by ∼81.9% when TiO2 of 6 wt%. More importantly, the EQE was enhanced by ∼58.6% when TiO2 of 3 wt% while TiO2 nanoparticles were well-dispersed and stable without aggregation for more than 3 days, which is crucial for preventing nozzle blockages during inkjet printing in manufacturing processes. We believe our innovative approach is promising for boosting color conversion efficiency by exciting highly concentrated green and red QDs with blue light while also overcoming inherent fabrication hurdles associated with high concentrations of inorganic scatterers.量子点有机发光二极管(QD-OLED)的高色彩纯度可通过蓝色 OLED 光激发色彩转换层内像素化的绿色和红色量子点来实现,从而在商业化显示器中提供高色彩转换效率。然而,提高外部量子效率(EQE)和最大限度地减少蓝光泄漏仍然是重大挑战。为了解决这些问题,我们开发了一种有机无机复合系统,由量子点(QDs)、液晶(LC)、聚合物和无机纳米粒子(如二氧化钛(TiO2))组成。当二氧化钛含量为 6 wt% 时,最佳 EQE 增强了 ∼81.9%。更重要的是,当 TiO2 含量为 3 wt% 时,EQE 提高了 ∼58.6% ,同时 TiO2 纳米粒子分散良好,且在 3 天以上的时间里都保持稳定,没有聚集现象,这对于在制造过程中防止喷墨打印时喷嘴堵塞至关重要。我们相信,我们的创新方法有望通过蓝光激发高浓度绿光和红光 QDs 来提高色彩转换效率,同时还能克服与高浓度无机散射体相关的固有制造障碍。Composites Science and TechnologyCapacitive BaTiO3-PDMS hand-gesture sensor: Insights into sensing mechanisms and signal classification with machine learningFrances Danielle M. Fernandez, Munseong Kim, Sukeun Yoon, Jihoon Kimdoi:10.1016/j.compscitech.2024.110581 电容式 BaTiO3-PDMS 手势传感器:利用机器学习深入了解传感机制和信号分类Flexible sensors have gained extensive interest because of their versatile applications in healthcare, robotics, and wearable devices. This study introduces a capacitive sensor utilizing barium titanate oxide (BaTiO3)-polydimethylsiloxane (PDMS) for bending sensing and addresses crucial performance parameters including sensitivity, repeatability, response time, and durability. The sensor exhibited a notable capacitance change of 42.85% in conjunction with fast (1 s) responses and recovery times, and minimal hysteresis (<2%). Its reliable performance across varying bending rates and durability through extensive cyclic tests underscore its applicability in real-world scenarios. Importantly, the sensor's capabilities were enhanced by integrating machine learning (ML), achieving an impressive accuracy of 97.11% in recognizing hand-sign language gestures. Furthermore, finite element analysis was employed to validate the correlation between the increase in compression-induced packing density and capacitance enhancement. This holistic integration of advanced materials, computational simulations, and ML not only extends the boundaries of sensor technology but also holds promise for revolutionizing human–machine interactions, aiding speech-impaired individuals, and enriching virtual reality experiences. This study represents a pivotal advancement in the field of flexible sensors and the unlocking of new dimensions of their applications.柔性传感器因其在医疗保健、机器人和可穿戴设备中的广泛应用而受到广泛关注。本研究介绍了一种利用钛酸钡氧化物(BaTiO3)-聚二甲基硅氧烷(PDMS)进行弯曲传感的电容式传感器,并探讨了灵敏度、可重复性、响应时间和耐用性等关键性能参数。该传感器的电容变化率高达 42.85%,响应速度快(1 秒),恢复时间短,滞后极小(<2%)。该传感器在不同弯曲率下的可靠性能以及通过大量循环测试的耐用性,都突出表明了它在实际应用中的适用性。重要的是,该传感器通过集成机器学习(ML)功能,在识别手势语言手势方面达到了令人印象深刻的 97.11% 的准确率。此外,还采用了有限元分析来验证压缩引起的堆积密度增加与电容增强之间的相关性。这种先进材料、计算模拟和 ML 的整体集成不仅扩展了传感器技术的边界,而且有望彻底改变人机交互、帮助语言障碍人士和丰富虚拟现实体验。这项研究代表了柔性传感器领域的关键性进步,并开启了其应用的新维度。来源:复合材料力学仿真Composites FEM

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