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【新文速递】2024年2月2日固体力学SCI期刊最新文章

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今日更新:Mechanics of Materials 1 篇

Mechanics of Materials

Homogenization of elastic grids containing rigid elements

Luca Viviani, Davide Bigoni, Andrea Piccolroaz

doi:10.1016/j.mechmat.2024.104933

包含刚性元素的弹性网格的均质化

The inclusion of rigid elements into elastic composites may lead to superior mechanical properties for the equivalent elastic continuum, such as, for instance, extreme auxeticity. To allow full exploitation of these properties, a tool for the homogenization of two-dimensional elastic grids containing rigid elements is developed and tested on elaborate geometries, such as, for instance, Chinese lattices. The rigid elements are assumed to be either jointed with full continuity of displacement or hinged to the elastic rods. It is shown that the two different constraints induce strongly different mechanical characteristics of the equivalent elastic solid. The presented results open the way to the design of architected materials or metamaterials containing both elastic and rigid parts.

在弹性复合材料中加入刚性元素可能会为等效弹性连续体带来卓越的机械特性,例如极强的辅助性。为了充分利用这些特性,我们开发了一种包含刚性元素的二维弹性网格均质化工具,并在复杂的几何图形(如中式网格)上进行了测试。假定刚性元素要么以完全连续的位移连接,要么与弹性杆铰接。结果表明,这两种不同的约束条件会导致等效弹性实体的机械特性大相径庭。这些结果为设计包含弹性和刚性部分的建筑材料或超材料开辟了道路。



来源:复合材料力学仿真Composites FEM
ACTMechanical复合材料建筑UMGID材料META
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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22日复合材料SCI期刊最新文章

今日更新:Composite Structures 4 篇,Composites Part A: Applied Science and Manufacturing 1 篇,Composites Science and Technology 1 篇Composite StructuresNumerical and Experimental Validation of Fiber Metal Laminate Structure for Li-ion Battery Protection Subjected to High-velocity Impact LoadingSigit Puji Santosa, Teresa Nirmaladoi:10.1016/j.compstruct.2024.117924高速冲击载荷下金属纤维层压结构对锂离子电池保护的数值与实验验证A novel structural protection for a Li-ion battery module based on fiber metal laminate (FML) was developed to address Electric Vehicle (EV) ground impact issues on the road. A new high-velocity impact test methodology to verify the battery structural protections and experimental validation was proposed. The FML was chosen due to its high strength-to-weight ratio. Finite element models, which consist of FML and lithium ferro phosphate batteries, were developed and iterated to find the best structural configuration. The numerical simulation results correlated well with the experiments. The FML model simulation allows for observation of the step-by-step perforation process and failure modes of the FML. In the full model experiment, the safety valve of the battery was compressed for 3.28 mm (3.42 mm in simulation). The subsequent experiment showed that the FML exhibited good protection for lithium-ion batteries, which was indicated by no change in the battery voltages during the high-velocity impact test.为了解决电动汽车在道路上的地面碰撞问题,开发了一种基于纤维金属层压板(FML)的新型锂离子电池模块结构保护。提出了一种新的高速冲击试验方法来验证电池的结构保护和实验验证。选择FML是因为它的高强度重量比。建立了由FML和磷酸铁锂电池组成的有限元模型,并进行了迭代,以找到最佳的结构配置。数值模拟结果与实验结果吻合较好。FML模型模拟允许观察逐步穿孔过程和FML的失效模式。在全模型实验中,电池安全阀被压缩3.28 mm(仿真为3.42 mm)。随后的实验表明,FML对锂离子电池具有良好的保护作用,在高速冲击试验中电池电压没有变化。Effect of fibre hybridization and stacking sequence on the low velocity impact response of flax/basalt/aluminum composite-metal jointsMuhammad Umar bin Ashraf, Aamir Mubashar, Manzar Masud, Hassan Ejaz, Syed Hameed Hussain, Muhammad Subhan Dilawardoi:10.1016/j.compstruct.2024.117925纤维杂化和叠层顺序对亚麻/玄武岩/铝复合金属接头低速冲击响应的影响A lot of composite materials with better impact resistance and better strength and stiffness can be manufactured these days. Many researchers have been using different materials to form new composites to understand their impact performance. This paper discusses such an attempt to make new composites by utilizing the concept of hybridization and then proposes which among them has better strength and performance under low-velocity impact (LVI) loading. In this work, circular patches of composites made up of a combination of basalt and flax fibers were used while being bonded with aluminum plate Al 2024-T3 of 3 mm thickness. The three different configurations which include asymmetric, symmetric, and sandwich were prepared using vacuum assisted bagging process and their impact performances were investigated using the Drop Weight Impact test. 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However, TSRs measured experimentally with the cRDCB specimen capture damage response as well as the stiffness contribution of the adjacent laminae, which can introduce significant artificial compliance into numerical models when modelling delamination separately from intralaminar behaviour. A two-stage analysis procedure utilizing a crack tip compensation function is presented to enhance the TSRs measured with the cRDCB specimen to accurately model Mode I delamination. The analysis procedure is demonstrated to improve the accuracy of delamination prediction within the statistical variation of published experimental data. Furthermore, the transferability of TSRs measured with cRDCB specimens is explored using available experimental DCB data. 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Herein, a novel DEA material is developed by introducing a kind of SiO2 nanoparticles with strong interfacial polarizability into polydimethyl(methylvinyl) siloxane (PMVS). The 7.5 SiO2/PMVS DEA exhibits a high actuated strain of 31.3% and blocked stress of 68.4 kPa, 2.4 and 2.9 times of pure PMVS DEA. A dual cone DEA (DCDEA) device was self-designed by using 7.5 SiO2/PMVS films, which possesses a high actuated displacement of 1.3 mm, output force of 0.3 N and energy density of 4.7 J/kg. More importantly, because of the high elasticity and strong interfacial interaction, the 7.5 SiO2/PMVS DCDEA exhibits a long fatigue life of 500,000 times, and thus a full-life energy density of 2.3×106 J/kg, 39 times higher than that of the VHB based DCDEA.介质弹性体作动器(DEA)因其重量轻、柔韧性好、致动应变和能量密度高而被认为是最有前途的软作动器之一。本文将具有强界面极化能力的SiO2纳米颗粒引入聚二甲基(甲基乙烯基)硅氧烷(PMVS)中,制备了一种新型的DEA材料。7.5 SiO2/PMVS DEA的驱动应变高达31.3%,阻滞应力为68.4 kPa,分别是纯PMVS DEA的2.4倍和2.9倍。采用7.5 SiO2/PMVS薄膜自行设计了双锥DEA (DCDEA)装置,其驱动位移为1.3 mm,输出力为0.3 N,能量密度为4.7 J/kg。更重要的是,由于高弹性和强界面相互作用,7.5 SiO2/PMVS DCDEA具有50万次的长疲劳寿命,因此其全寿命能量密度为2.3×106 J/kg,比基于VHB的DCDEA高39倍。Composites Science and TechnologyConstructing a new multiscale “soft-rigid-soft” interfacial structure at the interphase to improve the interfacial performance of carbon fiber reinforced polymer compositesYongke Tan, Junhui Liu, Yujing Li, Qi Wang, Weibo Zhou, Yuhui Ao, Ming Lidoi:10.1016/j.compscitech.2024.110458 在界面构建一种新的多尺度“软-硬-软”界面结构,以提高碳纤维增强聚合物复合材料的界面性能The high strength and toughness of Carbon Fiber-Reinforced Polymers (CFRPs) are the main requirements for their properties in various fields. Herein, the “soft-rigid-soft” structure has been designed by us to achieve the aim of the improvement for the CFRP strength and toughness simultaneously. The soft-rigid-soft structural interface layer of CF was firstly constructed by carbon nanotubes (CNT) and Tannin/Aminopropyl isobutyl POSS (TA/NH2-POSS). The interfacial shear strength (IFSS) of the modified carbon fiber composite was 111.94 MPa, which was 84.08 % higher than that of the untreated fiber (60.81 MPa). Moreover the interlaminar shear strength(ILSS) and impact strength were increased by 50.43 % and 80.37 %. Enhancement of interface performance is mainly ascribed to CNT and TA/NH2-POSS, because they can effectively which is more effective to consume energy and decentralize stress. In this paper, the strength and toughness of CFRPs ware effectively improved by the in-depth and detailed design of the “soft-rigid-soft” multi-scale structure.碳纤维增强聚合物(CFRPs)的高强度和高韧性是其在各个领域性能的主要要求。为此,我们设计了“软-刚-软”结构,以达到同时提高CFRP强度和韧性的目的。首先用碳纳米管(CNT)和单宁/氨基丙基异丁基POSS (TA/NH2-POSS)构建了CF的软-硬-软结构界面层。改性碳纤维复合材料的界面抗剪强度(IFSS)为111.94 MPa,比未改性碳纤维复合材料(60.81 MPa)提高了84.08 %。层间剪切强度(ILSS)和冲击强度分别提高了50.43 %和80.37 %。纳米碳纳米管和TA/NH2-POSS对界面性能的增强主要归功于它们能有效地消耗能量和分散应力。本文通过对“软-刚-软”多尺度结构进行深入细致的设计,有效地提高了cfrp的强度和韧性。来源:复合材料力学仿真Composites FEM

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