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【新文速递】2023年10月23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 1 篇,Composites Science and Technology 1 篇

Composite Structures

Design and evaluation of TPMS-inspired 3D-printed scaffolds for bone tissue engineering: enabling tailored mechanical and mass transport properties

Li Zhitong, Chen Zhaobo, Chen Xiongbiao, Zhao Runchao

doi:10.1016/j.compstruct.2023.117638

设计和评估用于骨组织工程的受 TPMS 启发的 3D 打印支架:实现量身定制的机械和质量传输特性

Bone scaffolds in tissue engineering are used to provide mechanical support and facilitate bone regeneration. For this, mechanical and mass transport properties are of critical importance, yet compromised, to scaffold performance and remain to be solved. Herein, we propose novel strut-based scaffolds and design strategies that enable independent tailoring of topological, mechanical and mass transport properties. Scaffolds with different design parameters were characterized in terms of mechanical and mass transport properties through simulation analysis, and then they were fabricated by 3D printing for experimental verification. The simulation and experimental results showed that the proposed scaffolds exhibit controllable deformation modes and mass transport characteristics. The elastic modulus (0.58-4.12 GPa) and permeability (0.96×10-7-3.47×10-7 m2) of the designed structures fully meet the range of cancellous bone in existing literature. Moreover, we demonstrated that our designs enable scaffolds to decouple and individually tailor multi-physics properties at a given porosity, thus expanding the performance regulation space and providing guidance for designing scaffolds with desired properties.

组织工程中的骨支架用于提供机械支撑和促进骨再生。为此,机械和质量传输特性对支架性能至关重要,但却受到影响,仍有待解决。在此,我们提出了基于支柱的新型支架和设计策略,可实现拓扑、机械和质量传输特性的独立定制。通过仿真分析,对不同设计参数的支架进行了力学和质量传输性能表征,然后通过三维打印制作支架并进行实验验证。模拟和实验结果表明,所提出的支架具有可控的变形模式和质量传输特性。设计结构的弹性模量(0.58-4.12 GPa)和渗透率(0.96×10-7-3.47×10-7 m2)完全符合现有文献中松质骨的范围。此外,我们还证明了我们的设计能使支架在给定孔隙率下解耦并单独定制多物理特性,从而扩大了性能调节空间,并为设计具有所需特性的支架提供指导。


Composites Part A: Applied Science and Manufacturing

Thermal-field analytical modeling of machined surface layer in high-speed-dry milling UD-CF/PEEK considering thermal anisotropy and nonlinear thermal conductivity

Liu Lei, Qu Da, Wang Jiacheng, Zhang Jin, Cao Huajun, Dong Xin

doi:10.1016/j.compositesa.2023.107864

考虑热各向异性和非线性导热性的 UD-CF/PEEK 高速干铣加工表面层热场分析模型

The high-speed-dry (HSD) machining is now recognized as a strong potential dry-cutting technique to tackle the rapidly growing productivity demand of carbon-fiber-reinforced-polyetheretherketone (CF/PEEK). The thermal-field is an essential breakthrough for eliminating the severe thermal effect of cutting temperature beyond CF/PEEK glass transition temperature Tg. However, the anisotropy and temperature-sensitive thermal conductivity of CF/PEEK lead to great challenges in thermal analytical modeling. Addressing this issue, a novel thermal-field analytical model that incorporates fiber orientation-dominated thermal anisotropy is developed to investigate the thermal field of machined surface layer for unidirectional (UD) CF/PEEK HSD milling, where the nonlinear thermal conductivity of CF/PEEK are imported into this model. With experiment verification, the thermal-field model can forecast the spatio-temporal distribution of workpiece temperature. Then, the thermal mechanisms of fiber orientations and milling parameters are clarified to restrict workpiece temperature within the Tg for limited thermal damage and reveal the feasibility essence of CF/PEEK HSD milling.

高速干式(HSD)加工是目前公认的一种潜力巨大的干式切削技术,可满足碳纤维增强聚醚醚酮(CF/PEEK)快速增长的生产率需求。热场是消除切割温度超过 CF/PEEK 玻璃转变温度 Tg 所产生的严重热效应的一个重要突破。然而,CF/PEEK 的各向异性和对温度敏感的热导率给热分析建模带来了巨大挑战。针对这一问题,我们开发了一种新型热场分析模型,该模型结合了纤维取向主导的热各向异性,用于研究单向 (UD) CF/PEEK HSD 铣削加工表面层的热场,并将 CF/PEEK 的非线性热导率导入该模型。通过实验验证,热场模型可以预测工件温度的时空分布。然后,阐明了纤维取向和铣削参数的热机理,从而将工件温度限制在 Tg 以限制热损伤,并揭示了 CF/PEEK HSD 铣削的可行性本质。


Composites Part B: Engineering

Eco-friendly, high-utilization, and easy-manufacturing bamboo units for engineered bamboo products: Processing and mechanical characterization

Huang Bin, Chen Lin, Wang Xianke, Ma Xinxin, Liu Huanrong, Zhang Xiubiao, Sun Fengbo, Fei Benhua, Fang Changhua

doi:10.1016/j.compositesb.2023.111073

 

用于竹制工程产品的生态友好型、高利用率和易于制造的竹单元:加工和机械特性分析

Bamboo units used for manufacturing engineered bamboo products are typically processed by breaking and planing, resulting in products with high glue content, substantial costs, and adverse environmental impacts. To address these issues, a simple and effective approach for processing standard bamboo units, based on the natural form and structure of bamboo, is proposed and tested in this study. More specifically, bamboo splits were dried at 0.05 MPa pressure and 140 °C for about 2.5 h in a pressurizing device. After drying, the bamboo splits each formed an equal-arc shaped bamboo split (EASB) in which the inner and outer radii were roughly equal. The EASB unit represents a double breakthrough of a high material utilization rate (as high as 80%) and low damage to bamboo. Additionally, the appropriate drying technique improves the dimensional stability and retains the excellent mechanical properties of natural bamboo. This work demonstrates the concept of “natural form inspired design,” and the EASB provides a basis for wider applications of sustainable engineered bamboo products.

用于制造竹制工程产品的竹材通常是通过打碎和刨削加工而成的,这导致产品含胶量高,成本高昂,并对环境造成不利影响。为解决这些问题,本研究根据竹子的自然形态和结构,提出并测试了一种简单有效的标准竹材加工方法。具体而言,竹片在 0.05 兆帕压力和 140 °C 的加压装置中干燥约 2.5 小时。干燥后,竹片各自形成一个内外半径大致相等的等弧形竹片(EASB)。等弧形竹片实现了材料利用率高(高达 80%)和竹材损坏率低的双重突破。此外,适当的干燥技术提高了尺寸稳定性,并保留了天然竹材的优良机械性能。这项工作体现了 "自然形态启发设计 "的理念,而 EASB 则为可持续工程竹制品的更广泛应用奠定了基础。


Composites Science and Technology

Electromechanical behavior and damage index system of 3D carbon fiber angle-interlock woven composites with FEA and data processing tools

Wu Tianwei, Li Gen, Xue Yousong, Li Zhiyong, Gu Bohong, Sun Baozhong

doi:10.1016/j.compscitech.2023.110318

 

利用有限元分析和数据处理工具研究三维碳纤维角交织复合材料的机电行为和损伤指标体系

The relationship between structural damage and electrical resistance change of carbon fiber reinforced composites is important to structural health monitoring. Here, we investigated the electromechanical behavior and damage index system for identification of various damage types in 3D angle-interlock woven composites under tensile loading in the warp direction. The mechanism of electrical resistance change was explored by combining current injected from both ends (Electrical current is in the plane of the laminate and goes through the entire cross section of the specimen) and current injected diagonally (Direction of electrical current between the in-plane direction and the through-thickness direction). A finite element model was established to analyze the electric potential distribution and tensile damage evolution process of composites. We found current injected from both ends can only detect with yarn damage and current injected diagonally can detect with matrix cracks, interface cracking and yarn damage. Based on the electrical resistance data of current injected diagonally, we used principal component analysis and K-means clustering methods to establish a damage index system to reflect the damage accumulation degree of different damage modes. The finite element analyses verified the rationality of the damage index system.

碳纤维增强复合材料的结构损伤与电阻变化之间的关系对于结构健康监测非常重要。在此,我们研究了三维角交错编织复合材料在经向拉伸载荷作用下的机电行为和损伤指标体系,以识别各种损伤类型。我们结合从两端注入的电流(电流在层压板的平面上,穿过试样的整个横截面)和斜向注入的电流(电流方向介于平面方向和厚度方向之间),探讨了电阻变化的机理。我们建立了一个有限元模型来分析复合材料的电动势分布和拉伸损伤演变过程。我们发现从两端注入的电流只能检测到纱线损伤,而从对角线方向注入的电流可以检测到基体裂纹、界面裂纹和纱线损伤。根据斜向注入电流的电阻数据,我们采用主成分分析和 K-means 聚类方法建立了损伤指标体系,以反映不同损伤模式的损伤累积程度。有限元分析验证了损伤指标体系的合理性。


来源:复合材料力学仿真Composites FEM
ACTMechanicalSystemInspireDeform复合材料非线性裂纹材料
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首次发布时间:2024-11-03
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【新文速递】2023年10月24日固体力学SCI期刊最新文章

今日更新:Journal of the Mechanics and Physics of Solids 1 篇,Thin-Walled Structures 1 篇Journal of the Mechanics and Physics of SolidsSingle-test evaluation of directional elastic properties of anisotropic structured materialsBoddapati Jagannadh, Flaschel Moritz, Kumar Siddhant, De Lorenzis Laura, Daraio Chiaradoi:10.1016/j.jmps.2023.105471 各向异性结构材料定向弹性性能的单次测试评估When the elastic properties of structured materials become direction-dependent, the number of their descriptors increases. For example, in two-dimensions, the anisotropic behavior of materials is described by up to 6 independent elastic stiffness parameters, as opposed to only 2 needed for isotropic materials. Such high number of parameters expands the design space of structured materials and leads to unusual phenomena, such as materials that can shear under uniaxial compression. However, an increased number of properties descriptors and the coupling between shear and normal deformations render the experimental evaluation of material properties more challenging. In this paper, we propose a methodology based on the virtual fields method to identify six separate stiffness tensor parameters of two-dimensional anisotropic structured materials using just one tension test, thus eliminating the need for multiple experiments, as it is typical in traditional methods. The approach requires no stress data and uses full-field displacement data and global force data. We show the accuracy of our method using synthetic data generated from finite element simulations as well as experimental data from additively manufactured specimens.当结构材料的弹性特性变得与方向有关时,其描述符的数量就会增加。例如,在二维空间中,各向异性材料的行为可由多达 6 个独立的弹性刚度参数描述,而各向同性材料只需 2 个。如此多的参数扩展了结构材料的设计空间,并导致了一些不寻常的现象,如在单轴压缩下可产生剪切的材料。然而,属性描述符数量的增加以及剪切变形和法向变形之间的耦合使得材料属性的实验评估更具挑战性。在本文中,我们提出了一种基于虚拟场法的方法,只需一次拉伸试验就能确定二维各向异性结构材料的六个独立刚度张量参数,从而省去了传统方法中通常需要进行的多次实验。该方法无需应力数据,使用全场位移数据和全局力数据。我们使用有限元模拟生成的合成数据以及添加制造试样的实验数据,展示了我们方法的准确性。Thin-Walled StructuresMechanical Properties of Heterogeneous Metallic Glasses: Insights from Brick-and-Mortar DesignsChen Yu, Zhang Jia-Cheng, Branicio Paulo S., Sha Zhen-Dongdoi:10.1016/j.tws.2023.111298异质金属玻璃的力学特性:实体设计的启示The brick-and-mortar architectural paradigm is commonly applied in structural design to achieve an exceptional combination of strength and plasticity due to its highly tunable mechanical attributes. This study applies molecular dynamics simulations of tensile loading to investigate the mechanical properties and failure mechanisms of brick-and-mortar metallic glasses (BMMGs). The focus is primarily on the implications of the aspect ratio of the bricks and interlayer thickness on the strength, plasticity, and deformation mechanisms. Results indicate that the failure mode is typified by multiple shear bands localized within the softer mortar regions, creating a staggered network under smaller aspect ratios that significantly enhances plastic deformation. However, a transition to a single dominant SB occurs when the aspect ratio exceeds 4.1. In addition, results indicate that a concurrent improvement in strength and plasticity can be achieved by modulating the distance between brick layers in BMMGs. This enhancement originates from the extensive generation and interaction of shear transformation zones. This study highlights that a desirable balance between strength and plasticity can be obtained in BMMGs with appropriate brick aspect ratios and interlayer thicknesses, providing a potential design strategy for the advancement of novel metallic glasses with superior properties.砖模建筑范例因其高度可调的机械属性而被广泛应用于结构设计中,以实现强度与塑性的完美结合。本研究应用分子动力学模拟拉伸载荷,研究砖模金属玻璃(BMMGs)的力学性能和破坏机制。重点主要放在砖的长宽比和层间厚度对强度、塑性和变形机制的影响上。结果表明,破坏模式的典型特征是在较软的砂浆区域局部出现多条剪切带,在较小的纵横比下形成交错的网络,显著增强了塑性变形。然而,当纵横比超过 4.1 时,就会过渡到单一的主要 SB。此外,研究结果表明,通过调节 BMMG 中砖层之间的距离,可以同时提高强度和塑性。这种改善源于剪切转换区的广泛产生和相互作用。这项研究强调,在具有适当的砖高宽比和层间厚度的 BMMG 中,可以获得强度和塑性之间的理想平衡,这为开发具有优异性能的新型金属玻璃提供了一种潜在的设计策略。来源:复合材料力学仿真Composites FEM

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