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【新文速递】2024年6月12日复合材料SCI期刊最新文章

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

Composites Part A: Applied Science and Manufacturing

Strategy for a high thermal conductivity and low thermal resistance under compression of oriented carbon fiber with spherical alumina thermal interface material

Fei Huang, Wen Yue, Wenbo Qin, Dengfeng Shu, Jiachen Sun, Jiansheng Li, Dezhong Meng, Chengbiao Wang

doi:10.1016/j.compositesa.2024.108312

球形氧化铝热界面材料取向碳纤维的高导热低热阻压缩策略

Thermal pads prepared with pitch-based carbon fibre (CF) orientation have garnered widespread attention due to their generally higher through-plane thermal conductivity. However, these thermal pads must undergo compression during the assembly process. When the compression exceeds a certain threshold, the orientation degree of the CFs inside the thermal pad can change, leading to a reduction in thermal conductivity. In this study, spherical alumina and CF were utilized to optimize thermal transfer stability under compression. The results demonstrate that the composites can still maintain efficient and stable heat transfer even when compressed by 25 %, which represents a more than 60 % improvement compared to pure CF-oriented composites. Furthermore, the relative motion between spherical alumina and CF, driven by their significant morphological differences, enhances the degree of CF orientation during the orientation process. With only 11.8 wt% CF loading, the composite achieved an impressive through-plane thermal conductivity of up to 20.4 W·m−1·K−1.

沥青基碳纤维(CF)取向热垫由于其普遍具有较高的通平面导热性而受到广泛关注。然而,这些热垫必须经过压缩在组装过程中。当压缩超过一定阈值时,热垫内部的碳纤维取向程度会发生变化,导致导热系数降低。在本研究中,利用球形氧化铝和CF来优化压缩下的传热稳定性。结果表明,即使压缩25% %,复合材料仍能保持高效稳定的传热,与纯cf取向复合材料相比,提高了60% %以上。此外,球形氧化铝和CF之间的相对运动在其显著的形态差异的驱动下,增强了CF在取向过程中的取向程度。当CF载荷为11.8 wt%时,该复合材料的通面导热系数高达20.4 W·m−1·K−1。


Utilizing the oxidation defects of black phosphorus to reduce and stabilize copper(I) molybdate for achieving flame retardancy and smoke suppression of polycarbonate composites

Jiajun Li, Bin Zou, Xin Wang, Zhenfeng Cheng, Tianmo Yang, Yuan Hu

doi:10.1016/j.compositesa.2024.108313

 

利用黑磷的氧化缺陷还原和稳定钼酸铜,实现聚碳酸酯复合材料的阻燃抑烟

The promising phosphorus-based flame retardants reduce thermal hazards while increasing non-thermal hazards. This work utilizes the oxidative defects of black phosphorus, which can synchronously reduce and stabilize copper(I) molybdate while introducing surface modification with sodium alginate in an environmentally friendly ball milling process to enhance dispersibility. Firstly, the T5% and Tmax of PC/BP@CM@SA (2 wt%) increase 9.5 °C and 8 °C under nitrogen. Secondly, the UL-94 V0 was achieved and the peak heat release rate, total heat release, and total smoke release decreased by 44.0 %, 22.1 %, and 17.0 % respectively. The char layer doubled in height compared to the neat sample, while its graphitization degree decreased from 2.38 to 2.14. In short, this is largely attributable to the catalytic action and physical barrier effect of BP@CM@SA. This study provides a way for the balance between reducing thermal hazards and increasing non-thermal hazards of phosphorus-based flame retardants such as black phosphorus.

有前途的磷系阻燃剂在减少热危害的同时增加了非热危害。本研究利用黑磷的氧化缺陷,可以同步还原和稳定钼酸铜,同时在环境友好的球磨工艺中引入海藻酸钠表面改性,以提高分散性。首先,在氮气作用下,PC/BP@CM@SA(2 wt%)的T5%和Tmax分别提高了9.5 °C和8 °C。其次,达到UL-94 V0,峰值放热率、总放热率和总排烟率分别下降44.0% %、22.1% %和17.0% %。炭层高度比纯样增加了一倍,石墨化度由2.38降至2.14。总之,这在很大程度上是由于BP@CM@SA的催化作用和物理屏障作用。本研究为减少黑磷等磷系阻燃剂的热危害与增加非热危害之间的平衡提供了一条途径。


Modelling of size-dependent plasticity in polymer-based composites based on nano- and macroscale experimental results

Nathan Klavzer, Mohamed Abatour, Jérémy Chevalier, Samuel Forest, Thomas Pardoen

doi:10.1016/j.compositesa.2024.108309

 

基于纳米和宏观尺度实验结果的聚合物基复合材料尺寸依赖性塑性建模

A number of experimental evidences indicate that the local response of polymer matrices near fibres is inadequately represented by classical continuum models relying on the bulk polymer behaviour. This results from size-dependency associated to large plastic strain gradients, complex interphase behaviour and/or changes of polymer structure. Classical multiscale models require artificial tuning of the properties to provide realistic macroscale predictions. We demonstrate that an unprecedented modelling approach based on a micromorphic theory is able to capture such size effects in long-fibre composites. The model is identified via nano digital image correlation strain fields and validated by predicting the strengthening found in transverse compression of UD composites, not captured by classical models. Micro-shear bands are properly regularised by the model, thus correctly handling the size-dependent plasticity and softening effects. The improved prediction of the strain localisation pattern in the matrix opens avenues to more accurately model interfacial failure and damage processes.

大量实验证据表明,依赖于聚合物体行为的经典连续统模型不能充分表征纤维附近聚合物基体的局部响应。这是由于与大塑性应变梯度、复杂的界面行为和/或聚合物结构变化相关的尺寸依赖性造成的。经典的多尺度模型需要人为地调整属性,以提供现实的宏观尺度预测。我们证明了一种基于微形态理论的前所未有的建模方法能够在长纤维复合材料中捕获这种尺寸效应。该模型通过纳米数字图像相关应变场进行识别,并通过预测UD复合材料横向压缩的强化来验证,这是经典模型无法捕捉到的。该模型对微剪切带进行了适当的正则化,从而正确处理了尺寸相关的塑性和软化效应。对基体中应变局部化模式的改进预测为更准确地模拟界面破坏和损伤过程开辟了道路。


Optimizing the manufacturing technology of high-strength fiber reinforced composites based on aluminophosphates

A.M. Gaifutdinov, K.A. Andrianova, L.M. Amirova, R.R. Amirov

doi:10.1016/j.compositesa.2024.108310

优化基于磷酸铝的高强纤维增强复合材料的制造工艺

Phosphate copolymers show promise for composite materials, but using polymer binders for structural composites is limited by underdeveloped manufacturing processes, resulting in low strength. This work optimized the technological process for obtaining carbon fiber reinforced plastics (CFRPs) based on aluminophosphate (AP), aluminoborophosphate (ABP), and aluminochromophosphate (ACP) binders. Carbon fiber impregnation regimes were optimized considering inorganic binders’ rheological properties, density, surface tension, and wettability. A rotary rheometer evaluated phosphate binder tack to optimize molding modes. The compaction dependency of woven phosphate binder prepregs on pressure was evaluated, selecting optimal CFRP molding modes. TGA-DSC analysis optimized phosphate binder drying and curing processes. CFRP samples with 55–58% volume AP, ACP, and ABP binders were obtained by vacuum molding, exhibiting high tensile, flexural strength and modulus. High heat resistance was shown by dynamic mechanical analysis, and thermal shock resistance evaluated by residual flexural strength change.

磷酸盐共聚物在复合材料方面表现出良好的前景,但由于制造工艺的不发达,结构复合材料的聚合物粘合剂的使用受到限制,导致其强度低。优化了以磷酸铝(AP)、硼磷酸铝(ABP)和铬磷酸铝(ACP)为粘结剂制备碳纤维增强塑料(CFRPs)的工艺流程。考虑了无机粘结剂的流变性、密度、表面张力和润湿性,对碳纤维浸渍体系进行了优化。一个旋转流变仪评估磷酸盐粘合剂粘合剂,以优化成型模式。评估了编织磷酸盐粘结剂预浸料对压力的压实依赖性,选择了最佳的CFRP成型模式。TGA-DSC分析优化了磷酸盐粘合剂的干燥和固化工艺。采用真空成型的方法制备了AP、ACP和ABP的体积为55-58%的CFRP样品,具有较高的拉伸、弯曲强度和模量。动态力学分析表明其具有较高的耐热性,通过残余弯曲强度变化评价其抗热震性。


Composites Part B: Engineering

Surface-engineered in-situ fibrillated thermoplastic polyurethane as toughening reinforcement for geopolymer-based mortar

Aniss Zaoui, Zeineb Ben Rejeb, Chul B. Park

doi:10.1016/j.compositesb.2024.111623

 

表面工程原位纤化热塑性聚氨酯作为地聚合物基砂浆的增韧增强材料

Geopolymer composites often exhibit severe brittle failure when subjected to tensile and flexural loads, mainly owing to their inherently ceramic-like structure. Therefore, this study aims to overcome the previously mentioned weaknesses by introducing 2 wt.% of surface-modified, in-situ fibrillated Co-PP (copolymer of polyethylene (PE) and polypropylene (PP))/thermoplastic polyurethane (TPU) blend to produce fiber-reinforced geopolymer mortars. The fiber-in-fiber Co-PP/TPU was first fabricated using spunbond, then functionalized using a mild, two-step, one-pot chemical surface modification process. A comprehensive and detailed study of the fibers’ chemical structure, morphology, and mechanical properties has been conducted. As well as their impact on the geopolymer mortars’ mechanical performances. Moreover, incorporating the modified fibers dramatically increased the flexural toughness and strength at failure of the composite, reaching up to 1600% and 280% compared to the control sample, respectively. Furthermore, the flexural modulus was improved by 2 folds. Additionally, the split tensile and compressive strength were improved by 84% and 17%, respectively. These findings and the SEM images of the fractured samples indicate the presence of several toughening mechanisms, associated with an improved matrix-fiber interface and an enhanced growth of geopolymer products around the fiber’s surface.

地聚合物复合材料在受到拉伸和弯曲载荷时往往表现出严重的脆性破坏,这主要是由于其固有的陶瓷状结构。因此,本研究旨在通过引入2 wt.%的表面改性原位纤化Co-PP(聚乙烯(PE)和聚丙烯(PP)的共聚物)/热塑性聚氨酯(TPU)共混物来生产纤维增强地聚合物砂浆,从而克服前面提到的缺点。纤维中纤维Co-PP/TPU首先采用纺粘制备,然后采用温和的两步一锅化学表面改性工艺进行功能化。对纤维的化学结构、形态和力学性能进行了全面而详细的研究。以及它们对地聚合物砂浆力学性能的影响。此外,加入改性纤维显著提高了复合材料的抗弯韧性和破坏强度,分别达到对照样品的1600%和280%。弯曲模量提高了2倍。此外,劈裂拉伸和抗压强度分别提高了84%和17%。这些发现和断裂样品的SEM图像表明,存在几种增韧机制,与改善的基质-纤维界面和纤维表面周围地聚合物产物的增强生长有关。


Composites Science and Technology

Multi-scale simulation of stress transfer across ‘polymer bridge’ in graphene oxide/halloysite organic-inorganic hybrid aerogel

Shilei Xia, Hongyan Li, Hongli Liu, Shoucheng Sun, Baolian Zhang, Dongqing Wei, Le Lu

doi:10.1016/j.compscitech.2024.110714

 

氧化石墨烯/高岭土有机-无机杂化气凝胶中“聚合物桥”应力传递的多尺度模拟

In our previous work, organic-inorganic hybrid aerogels were successfully constructed utilizing graphene oxide (GO) sheets and halloysite nanotubes (HNTs), and interesting stress transfer behavior were found. Through preliminary experimental studies, we found that the movement of polymer molecules significantly affected the stress transfer behavior of aerogels. The mechanism might involve macroscopic and microscopic scales, which were difficult to be adequately studied by conventional experimental means. Therefore, this paper investigated the stress transfer behavior of hybrid aerogels utilizing finite element analysis (FEA) combined with molecular dynamics (MD) multi-scale simulation methods. The influence of the connection angles of GO and HNTs on the stress transfer ability was studied utilizing the FEA combined with theoretical formulas. The GO polymer pull-out systems were established by MD. The pull-out processes of polymethylmethacrylate (PMMA) and polysiloxane (PSO) were compared. The effect of oxygen-containing functional group coverage of GO on interface strength was studied. The results indicated that connection angles of 60° and 30° contributed more to the stress transfer between GO and HNTs under tensile and compression stress, respectively. The interfacial enhancement effect of the GO/polymer systems reached saturation when the coverage of oxygen-containing functional groups on the GO surface was 20%. Si-O-Si agglomeration networks were formed by silane-modified GO and PSO, which possessed stronger interfacial strength.

在我们之前的工作中,我们成功地利用氧化石墨烯(GO)薄片和高岭土纳米管(HNTs)构建了有机-无机杂化气凝胶,并发现了有趣的应力传递行为。通过初步的实验研究,我们发现聚合物分子的运动对气凝胶的应力传递行为有显著的影响。其机理可能涉及宏观和微观两个尺度,传统的实验手段难以对其进行充分的研究。为此,本文采用有限元分析(FEA)与分子动力学(MD)多尺度模拟相结合的方法研究了混合气凝胶的应力传递行为。采用有限元分析方法结合理论计算公式,研究了氧化石墨烯和纳米碳管连接角度对应力传递能力的影响。通过MD建立了氧化石墨烯聚合物的拉出体系,比较了聚甲基丙烯酸甲酯(PMMA)和聚硅氧烷(PSO)的拉出工艺。研究了氧化石墨烯含氧官能团覆盖率对界面强度的影响。结果表明,在拉伸应力和压缩应力作用下,连接角为60°和30°时,氧化石墨烯与纳米碳管之间的应力传递更有效。当含氧官能团在氧化石墨烯表面的覆盖率为20%时,氧化石墨烯/聚合物体系的界面增强效果达到饱和。硅烷改性氧化石墨烯和PSO可形成Si-O-Si团聚网络,具有更强的界面强度。


来源:复合材料力学仿真Composites FEM
ACTACPMechanicalSystem断裂复合材料化学ADS理论材料分子动力学多尺度
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首次发布时间:2024-11-21
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【新文速递】2024年6月16日固体力学SCI期刊最新文章

今日更新:International Journal of Solids and Structures 4 篇,Journal of the Mechanics and Physics of Solids 1 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 2 篇International Journal of Solids and StructuresHomogenization of non-rigid origami metamaterials as Kirchhoff–Love platesSiva P. Vasudevan, Phanisri P. Pratapadoi:10.1016/j.ijsolstr.2024.112929 作为基尔霍夫-洛夫板的非刚性折纸超材料的均质化Origami metamaterials have gained considerable attention for their ability to control mechanical properties through folding. Consequently, there is a need to develop systematic methods for determining their effective elastic properties. This study presents an energy-based homogenization framework for non-rigid origami metamaterials, effectively linking their mechanical treatment with that of traditional materials. To account for the unique mechanics of origami systems, our framework incorporates out-of-plane curvature fields alongside the usual in-plane strain fields used for homogenizing planar lattice structures. This approach leads to a couple-stress continuum, resembling a Kirchhoff–Love plate model, to represent the homogeneous response of these lattices. We use the bar-and-hinge method to assess lattice stiffness, and validate our framework through analytical results and numerical simulations of finite lattices. Initially, we apply the framework to homogenize the well-known Miura-ori pattern. The results demonstrate the framework’s ability to capture the unconventional relationship between stretching and bending Poisson’s ratios in origami metamaterials. Subsequently, we extend the framework to origami lattices lacking centrosymmetry, revealing two distinct neutral surfaces corresponding to bending along two lattice directions, unlike in the Miura-ori pattern. Our framework enables the inverse design of metamaterials that can mimic the unique mechanics of origami tessellations using techniques like topology optimization.折纸超材料因其通过折叠控制机械特性的能力而备受关注。因此,有必要开发确定其有效弹性特性的系统方法。本研究针对非刚性折纸超材料提出了一种基于能量的均质化框架,有效地将其力学处理与传统材料的力学处理联系起来。为了考虑到折纸系统的独特力学特性,我们的框架将平面外曲率场与用于均质化平面晶格结构的常用平面内应变场结合起来。这种方法产生了一种耦合应力连续体,类似于基尔霍夫-洛夫板模型,用于表示这些晶格的均匀响应。我们使用条铰法评估晶格刚度,并通过有限晶格的分析结果和数值模拟验证我们的框架。首先,我们应用该框架对著名的 Miura-ori 图案进行均质化。结果表明,该框架能够捕捉折纸超材料中拉伸和弯曲泊松比之间的非常规关系。随后,我们将该框架扩展到了缺乏中心对称性的折纸晶格,揭示了与 Miura-ori 图案不同的、与沿两个晶格方向的弯曲相对应的两个截然不同的中性面。通过我们的框架,可以利用拓扑优化等技术反向设计超材料,从而模仿折纸方格的独特力学原理。Research on the low-frequency fatigue behavior of NEPE solid composite propellant based on fractional derivative constitutive modelWenqin Zhang, Dapeng Zhang, Yongjun Lei, Zhibin Shendoi:10.1016/j.ijsolstr.2024.112931基于分数导数构成模型的 NEPE 固体复合推进剂低频疲劳行为研究The long-term fatigue loading history from offshore vibration environment will cause microdamage and affect the mechanical properties of NEPE solid propellant grains. The paper investigates the evolution law of microdamage through constant-strain-amplitude fatigue tests, and proposes an improved fractional derivative constitutive model for effectively predicting the low-frequency fatigue behavior of NEPE solid propellant based on the experimental phenomena. The evolution law of microdamage is negative power functional with the loading time and exponential with the maximum loading strain during the fatigue loading process. The stress-softening behavior, the Mullins effect, and the accumulation of residual strain are observed, as characteristics of low-frequency fatigue behavior. The theoretical modeling of the stress-softening behavior and the Mullins effect is proven to be significant for effectively predicting the low-frequency fatigue behavior by the improved fractional derivative constitutive model, while strain-modfication is also necessary for eliminating the influence of residual strain. The fatigue damage in solid propellant grains cannot be neglected when assessing the structural integrity of a solid propellant grain which has experienced long-term transportation or offshore storage.海上振动环境的长期疲劳加载历史会造成微损伤,影响 NEPE 固体推进剂晶粒的力学性能。本文通过恒应变-振幅疲劳试验研究了微损伤的演变规律,并根据试验现象提出了改进的分数导数构成模型,以有效预测 NEPE 固体推进剂的低频疲劳行为。在疲劳加载过程中,微损伤的演变规律与加载时间呈负幂函数关系,与最大加载应变呈指数关系。观察到了应力软化行为、穆林斯效应和残余应变累积,这是低频疲劳行为的特征。事实证明,应力软化行为和 Mullins 效应的理论建模对于利用改进的分数导数构成模型有效预测低频疲劳行为具有重要意义,而应变修正对于消除残余应变的影响也是必要的。在评估经过长期运输或海上储存的固体推进剂晶粒的结构完整性时,不能忽视固体推进剂晶粒的疲劳损伤。Crystal plasticity finite element simulations of nanoindentation and simple compression for yielding of Ta crystalsSajjad Izadpanah Najmabad, Olajesu F. Olanrewaju, Siddhartha Pathak, Curt A. Bronkhorst, Marko Knezevicdoi:10.1016/j.ijsolstr.2024.112928针对 Ta 晶体屈服的纳米压痕和简单压缩的晶体塑性有限元模拟Experiments and corresponding crystal plasticity finite element (CPFE) simulations of spherical nanoindentation were performed to determine yield stress under indentation of fifteen Ta single crystals randomly distributed in the orientation space. Agreement between the measured and simulated indentation yield stresses and initial hardening slopes demonstrated accuracy of the model. Moreover, simple compression simulations were performed for the same crystals to study the differences in compressive versus indentation yielding. Ratios of the indentation to compressive yield stress were found to vary with crystal orientation in the range from 2.6 to 3.6. The simulations allowed us to reveal underlying deformation mechanisms accommodating the yielding in indentation and simple compression. It is found that more crystallographic glid mechanisms activate under indentation than simple compression owing to the more complex state of stress and strain in indentation than in compression. Owing to the activation of more glide systems in indentation than in simple compression, the indentation yield stress is less anisotropic than the simple compression yield stress. The modeling framework, simulation setups, results, and insights from the results are presented and discussed in this paper.通过球形纳米压痕实验和相应的晶体塑性有限元(CPFE)模拟,确定了在取向空间中随机分布的 15 个 Ta 单晶体在压痕作用下的屈服应力。测量和模拟的压痕屈服应力与初始硬化斜率之间的一致性证明了模型的准确性。此外,还对相同晶体进行了简单的压缩模拟,以研究压缩屈服与压痕屈服的差异。结果发现,压痕屈服应力与压缩屈服应力的比率随晶体取向而变化,范围在 2.6 到 3.6 之间。通过模拟,我们揭示了压痕屈服和简单压缩屈服的基本变形机制。我们发现,由于压入时的应力和应变状态比压缩时更为复杂,因此与简单压缩相比,压入时会激活更多的晶体滑动机制。由于压入比简单压缩激活了更多的滑动系统,压入屈服应力的各向异性小于简单压缩屈服应力。本文介绍并讨论了建模框架、模拟设置、结果以及从结果中得到的启示。A rate-dependent cohesive zone model for dynamic crack growth in carbon nanotube reinforced polymersReza Yazdanparast, Roham Rafieedoi:10.1016/j.ijsolstr.2024.112932碳纳米管增强聚合物动态裂纹增长的速率依赖性内聚区模型Carbon nanotubes (CNTs) enhance the fracture toughness of polymer-based matrix composites by dissipating the fracture energy through the pull-out deformation damage mechanism. The rate-dependent behavior of the matrix phase and the CNT/matrix interface affects the contribution of CNTs in enhancing the fracture toughness under dynamic loading and rapid crack growth. A continuum-based finite element (FE) model is utilized in this research to analyze the CNT pull-out damage mechanism. The influence of CNTs on the dynamic fracture behavior of polymer-based composites is studied taking into account the crack opening speed and loading rate effects. The matrix phase is treated as a viscoelastic-viscoplastic material and a new rate-dependent cohesive zone model (CZM) is proposed for modeling the behavior of interface between the CNTs and matrix. The rate-dependent traction-separation laws for the cohesive zone elements are established at different pull-out or crack opening speeds. The proposed rate-dependent FE model of pull-out mechanism facilitates the investigation of the effective factors of CNTs, including length, orientation, and waviness, on fracture energy dissipation at different pull-out speeds. Developed model is very suitable for very long CNTs where atomistic-based molecular dynamics and molecular mechanics methods are associated with difficulties and are more costly and time-consuming.碳纳米管(CNT)通过拉出变形破坏机制耗散断裂能量,从而增强聚合物基复合材料的断裂韧性。基体相和 CNT/基体界面的速率依赖行为会影响 CNT 在动态加载和快速裂纹生长条件下对提高断裂韧性的贡献。本研究采用基于连续体的有限元(FE)模型来分析 CNT 拔出破坏机制。在研究 CNT 对聚合物基复合材料动态断裂行为的影响时,考虑了裂纹张开速度和加载速率的影响。基体相被视为粘弹性-粘塑性材料,并提出了一种新的速率依赖性内聚区模型(CZM),用于模拟 CNT 与基体之间的界面行为。在不同的拉出或裂纹打开速度下,建立了内聚区元素的速率相关牵引分离定律。所提出的依赖速率的拉出机制 FE 模型有助于研究 CNT 在不同拉出速度下对断裂能量耗散的有效因素,包括长度、取向和波形。所开发的模型非常适合超长 CNT,因为基于原子的分子动力学和分子力学方法存在困难,而且成本高、耗时长。Journal of the Mechanics and Physics of SolidsMineral Asperities Reinforce Nacre through Interlocking and Friction-like SlidingHao LI, Kun GENG, Bingzhan ZHU, Qiang ZHANG, Yi WEN, Zuoqi ZHANG, Yanan YUAN, Huajian GAOdoi:10.1016/j.jmps.2024.105712矿物微孔通过交错和摩擦滑动加固珍珠质While the surface asperities of mineral platelets are widely believed to play important roles in stiffening, strengthening, and toughening nacre, their effects have not been thoroughly investigated. Here, a computationally efficient bar-spring model is adopted to simulate, as platelets with multiple interfacial asperities slide over each other, the tensile force versus elongation behaviors as well as the effective mechanical properties such as modulus, strength, and work-to-fracture in nacre or nacre-like composites. The model employs an effective cohesive law derived from a micromechanical model based on the kinematic and deformation analysis of a single pair of contacting asperities to characterize the traction-separation relationship during the asperity inter-climbing. Strikingly, we find that the mineral asperities and resulting interfacial roughness can elevate the composites’ strength and toughness by up to 2-3 orders of magnitude through a combination of mechanical interlocking and multimodal friction-like mechanisms. Of particular interest is that the asperity-induced strengthening and toughening mechanisms are insensitive to the asperity shapes such as ellipse, hyperbolic cosine, cosine, and parabola. These findings may provide useful guidelines for developing advanced engineering composites with nacre-inspired interface designs.虽然人们普遍认为矿物小板的表面凸起在珍珠质的硬化、强化和韧化方面发挥着重要作用,但对它们的影响尚未进行深入研究。在此,我们采用了一种计算效率高的条形弹簧模型,来模拟具有多个界面微孔的板块相互滑动时,珍珠质或类似珍珠质复合材料的拉力与伸长行为,以及模量、强度和加工至断裂等有效力学性能。该模型采用了一种有效的内聚法则,该法则源自基于单对接触尖晶石运动学和变形分析的微机械模型,用于描述尖晶石相互攀爬过程中的牵引-分离关系。令人惊讶的是,我们发现矿物尖晶和由此产生的界面粗糙度可以通过机械互锁和多模态摩擦样机制的组合,将复合材料的强度和韧性提高 2-3 个数量级。尤其令人感兴趣的是,表面粗糙度诱导的强化和增韧机制对椭圆形、双曲余弦形、余弦形和抛物线形等表面粗糙度形状并不敏感。这些发现可为开发具有珍珠质灵感界面设计的先进工程复合材料提供有用的指导。Mechanics of MaterialsYield behavior of aluminum foam under multi-axial loadingYue Zhang, Tao Jin, Shiqiang Li, Zhihua Wang, Guoxing Ludoi:10.1016/j.mechmat.2024.105069多轴向加载下泡沫铝的屈服行为In the current work, the initial yield behavior of closed-cell aluminum foams with three different relative densities under complex stress states have been investigated. A total of 16*3 (three different relative densities of closed-cell aluminum foam) experiments were conducted, which included uniaxial compression, uniaxial tension, combined tension-shear, and triaxial compression tests. Experimental results show that the initial yield behavior of closed-cell aluminum foam is isotropic and is associated with the first invariant of stress tensor, the second and third invariants of deviatoric stress tensor. A constitutive model to describe yield behavior of closed-cell aluminum foam was proposed and the relationship between the first invariant of stress tensor and the second invariant of deviatoric stress tensor was analyzed. Furthermore, tension-compression strength asymmetry of foams was introduced in the proposed model.本研究对三种不同相对密度的闭孔铝泡沫在复杂应力状态下的初始屈服行为进行了研究。共进行了 16*3(三种不同相对密度的闭孔铝泡沫)实验,包括单轴压缩、单轴拉伸、拉伸-剪切组合和三轴压缩试验。实验结果表明,闭孔铝泡沫的初始屈服行为是各向同性的,与应力张量的第一不变式、偏差应力张量的第二和第三不变式有关。提出了描述闭孔铝泡沫屈服行为的构成模型,并分析了应力张量第一不变量与偏差应力张量第二不变量之间的关系。此外,模型还引入了泡沫的拉伸-压缩强度不对称。International Journal of PlasticityRediscovering the Mullins effect with deep symbolic regressionRasul Abdusalamov, Jendrik Weise, Mikhail Itskovdoi:10.1016/j.ijplas.2024.104037通过深度符号回归重新发现穆林斯效应The Mullins effect represents a softening phenomenon observed in rubber-like materials and soft biological tissues. It is usually accompanied by many other inelastic effects like for example residual strain and induced anisotropy. In spite of the long term research and many material models proposed in literature, accurate modeling and prediction of this complex phenomenon still remain a challenging task. In this work, we present a novel approach using deep symbolic regression (DSR) to generate material models describing the Mullins effect in the context of nearly incompressible hyperelastic materials. The two step framework first identifies a strain energy function describing the primary loading. Subsequently, a damage function characterizing the softening behavior under cyclic loading is identified. The efficiency of the proposed approach is demonstrated through benchmark tests using the generalized the Mooney–Rivlin and the Ogden-Roxburgh model. The generalizability and robustness of the presented framework are thoroughly studied. In addition, the proposed methodology is extensively validated on a temperature-dependent data set, which demonstrates its versatile and reliable performance.穆林斯效应是在类橡胶材料和软生物组织中观察到的一种软化现象。它通常伴随着许多其他非弹性效应,例如残余应变和诱导各向异性。尽管经过长期研究并在文献中提出了许多材料模型,但对这一复杂现象进行精确建模和预测仍是一项具有挑战性的任务。在这项工作中,我们提出了一种新方法,利用深度符号回归(DSR)生成材料模型,在几乎不可压缩的超弹性材料中描述穆林斯效应。该框架分为两步,首先确定描述主要加载的应变能函数。随后,确定描述循环加载下软化行为的损伤函数。通过使用广义穆尼-里夫林模型和奥格登-罗克斯堡模型进行基准测试,证明了所提方法的效率。对所提出框架的通用性和稳健性进行了深入研究。此外,所提出的方法还在与温度相关的数据集上进行了广泛验证,证明了其通用性和可靠性能。Thin-Walled StructuresStrength degradation and damage mechanism of TA1 titanium alloy clinched joints under fatigue loadingLei Lei, Zhiqiang Zhao, Ming Yan, Heting Qiao, Ye Shi, Chunyu Songdoi:10.1016/j.tws.2024.112125 疲劳载荷下 TA1 钛合金咬合接头的强度退化和损伤机理A digital model for the strength degradation of titanium alloy clinched joints was established using strength degradation tests and a fatigue cumulative damage model. This model aims to investigate the strength degradation law and fatigue damage failure mechanism of titanium alloy clinched joints under fatigue loading. Fractured test specimens were scanned to analyse the fatigue damage failure mechanism by examining the evolution of fracture morphology under varying fatigue cyclic loading times. The results demonstrate that the power index degradation model accurately predicts the strength degradation of titanium alloy clinched joints. As the number of fatigue loading cycles increases, cleavage features emerge alongside fatigue cracks, leading to a gradual reduction in joint strength. Ultimately, the strength degradation power index model for titanium alloy clinched joints is verified by the test to have high accuracy in predicting residual strength.利用强度退化试验和疲劳累积损伤模型,建立了钛合金咬合接头强度退化的数字模型。该模型旨在研究疲劳载荷下钛合金咬合接头的强度退化规律和疲劳损伤失效机理。对断裂试样进行扫描,通过研究不同疲劳循环加载时间下断口形态的演变来分析疲劳损伤失效机制。结果表明,幂指数降解模型能准确预测钛合金咬合接头的强度降解。随着疲劳加载循环次数的增加,劈裂特征与疲劳裂纹同时出现,导致接头强度逐渐降低。最终,试验验证了钛合金夹紧接头强度退化功率指数模型在预测残余强度方面具有很高的准确性。A flexible design framework for lattice-based chiral mechanical metamaterials considering dynamic energy absorptionWeiyun Xu, Chang Zhou, Hanyu Zhang, Zhao Liu, Ping Zhudoi:10.1016/j.tws.2024.112108 考虑动态能量吸收的基于晶格的手性机械超材料的灵活设计框架While chiral mechanical metamaterials (CMMs) are reported promising in energy absorption due to the unique chiral effect, the energy-absorbing CMMs lack effective and generalized design methodologies and corresponding structure-property relationship studies. To this end, a design framework for lattice-based CMMs was proposed, and the dynamic compressive behaviors of CMMs were systematically investigated. Firstly, based on a predefined design baseline that considered a support-free metal additive manufacturing process, a screw-theory-based assembly rule was presented, which enabled the scalable twist effects and the characterization of chiral features. Secondly, an aperiodic design process that sequentially defines joints, strut connections, and geometrical features was proposed. This framework via parameterization enables the rapid generation of geometric and finite element models that contain a large number of unit cells. It also enables the integration of joint enhancement design, bio-inspired helical design, and gradient design. Finally, by finite element analysis and experiments of uniaxial medium-strain-rate (50 s−1) compression, the effects of chirality on mechanical properties (compressive strength, yield plateau, energy absorption, etc.) during the nonlinear large-deformation responses were elucidated. Results show that a comprehensive and flexible method is presented by independently defining each rod component or joint of the lattice type metamaterials, which enables the design from chiral to achiral, from rectangular to helical, and from uniform to gradient. The bidirectional gradient CMMs design along the axial and radial directions achieves a 52.0 % specific energy absorption enhancement compared with achiral lattices, demonstrating the energy absorption advantage of CMMs, and laying the foundation for further optimization, inverse design, and engineering applications.据报道,由于独特的手性效应,手性机械超材料(CMMs)在能量吸收方面大有可为,但吸能 CMMs 缺乏有效的通用设计方法和相应的结构-性能关系研究。为此,我们提出了基于晶格的 CMM 设计框架,并对 CMM 的动态压缩行为进行了系统研究。首先,基于无支撑金属增材制造工艺的预定义设计基线,提出了基于螺旋理论的装配规则,从而实现了可扩展的扭曲效应和手性特征的表征。其次,还提出了一种非周期性设计流程,可按顺序定义接头、支柱连接和几何特征。通过参数化框架,可以快速生成包含大量单元格的几何和有限元模型。它还能整合关节增强设计、生物螺旋设计和梯度设计。最后,通过有限元分析和单轴中等应变速率(50 s-1)压缩实验,阐明了手性在非线性大变形响应期间对机械性能(抗压强度、屈服高原、能量吸收等)的影响。结果表明,通过独立定义晶格型超材料的每个杆组件或接头,提出了一种全面而灵活的方法,从而实现了从手性到非手性、从矩形到螺旋、从均匀到梯度的设计。与非手性晶格相比,沿轴向和径向的双向梯度 CMMs 设计实现了 52.0% 的比能量吸收增强,证明了 CMMs 的能量吸收优势,并为进一步优化、反向设计和工程应用奠定了基础。来源:复合材料力学仿真Composites FEM

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