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【新文速递】2024年5月10日复合材料SCI期刊最新文章

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

Composite Structures

Numerical simulations and testing of notched composite plates under envelope loadings: Validation with the safe life domain method

Florent Grotto, Christophe Bouvet, Bruno Castanié, Joël Serra

doi:10.1016/j.compstruct.2024.118191

缺口复合材料板在包络载荷下的数值模拟与试验:安全寿命域方法的验证

The certification of aircraft structures specifies various loads, possibly combined, to be considered to demonstrate its strength. In general, structural testing up to static failure is performed using proportional loading. In this study, the effects of loading with combinations of tension-shear-pressure are studied on large notched composite specimens. The VERTEX test rig is used. The Safe Life Domain method is proposed to validate whole domains of loading combination by means of a single envelope test. Envelope validation tests are implemented on tension-shear loadings with and without pressure, based on numerical predictions of the specimen failure and of the bench behaviour. Buckling mode variability and its impact on failure is considered, to show possible path-dependency of failure and thus highlight an ignored complexity of structure failure. Therefore, the numerous proportional tests needed for compliance demonstration can be reduced thanks to a few envelope tests instead.

飞机结构的认证规定了各种载荷,可能是组合的,要考虑证明其强度。一般来说,结构测试直到静态破坏是使用比例加载进行的。本文研究了拉-剪-压组合加载对大型缺口复合材料试件的影响。使用VERTEX测试平台。提出了用单包络试验验证荷载组合全域的安全寿命域方法。包络验证试验是在有压力和无压力的拉伸-剪切载荷下实施的,基于试样破坏和工作台行为的数值预测。考虑屈曲模态变异及其对破坏的影响,以显示破坏可能的路径依赖性,从而突出被忽视的结构破坏的复杂性。因此,合规性演示所需的大量比例测试可以通过几个信封测试来减少。


Design and optimization of Anisotropy–Inspired AlSi10Mg metamaterials with tailored mechanics and mass transport properties in tissue engineering

Zhitong Li, Zhaobo Chen, Xiongbiao Chen, Runchao Zhao

doi:10.1016/j.compstruct.2024.118179

组织工程中具有定制力学和质量输运特性的各向异性激发AlSi10Mg超材料的设计与优化

Metamaterials are widely used for achieving tailored multi–physical properties. However, it is challenging to satisfy multiple property requirements simultaneously. For example, the mechanical and mass transport properties of bionic scaffolds have to be compromised. In this work, 3D–printed metamaterials with adjustable topological features are proposed, and a topological optimization strategy for coordinating multiple properties is developed. Tradeoffs between the mechanics, energy absorption capacity, and mass transport properties are accomplished under given a porosity. Anisotropic metamaterials with permeabilities of 2.34 ∼ 3.44 × 10-7 m2 and elastic moduli of 1.37 ∼ 3.14 GPa were obtained, and the gradient scaffolds were further designed to realize adjustable local characteristics. The optimized design technique described here can serve as an effective way to design more complex multilayered scaffolds with structural characteristics and biomechanical properties similar to those of natural tissue, so as to achieve an unprecedented level of tailoring multi–physics properties in tissue engineering, especially in the design of gradient scaffolds. Our study also represents advances in property decoupling, individual customization and collaborative design of metamaterials, which can be generalized to fluid and heat transport fields.

超材料被广泛用于实现定制的多物理性质。然而,同时满足多个属性需求是一项挑战。例如,仿生支架的机械和质量传输特性必须妥协。本文提出了具有可调节拓扑特征的3d打印超材料,并提出了一种协调多种特性的拓扑优化策略。在给定的孔隙度下,在力学、能量吸收能力和质量传递特性之间进行权衡。获得了渗透率为2.34 ~ 3.44 × 10-7 m2、弹性模量为1.37 ~ 3.14 GPa的各向异性超材料,并进一步设计了梯度支架,以实现可调的局部特性。本文所描述的优化设计技术可以作为设计更复杂的多层支架的有效途径,使其具有与天然组织相似的结构特征和生物力学性能,从而在组织工程中,特别是在梯度支架的设计中,达到前所未有的裁剪多物理特性的水平。我们的研究还代表了超材料性质解耦、个性化定制和协同设计的进展,这些进展可以推广到流体和热输运领域。


Solution of nonlinear vibration problem of shear deformable multilayer nonhomogeneous orthotropic plates using poincare-lindstedt method

M. Avey, N. Fantuzzi, A.H. Sofiyev

doi:10.1016/j.compstruct.2024.118189

用poincarei -lindstedt方法求解剪切变形多层非均匀正交各向异性板的非线性振动问题

In this study, one of the first attempts is made to solve the nonlinear (NL) vibration problem of shear-deformable multilayer plates consisting of nonhomogeneous orthotropic layers (NHOLs) using the Poincaré-Lindstedt method. First, the shear deformation theory (SDT) for homogeneous plates is extended to multilayer plates composed of NHOLs. In the framework of von-Karman type nonlinear theory, the basic relations of the plates in question are established and then NL equations of motion based on four functions such as rotation angles, Airy stress and deflection functions are derived. Then, NL-partial differential equations (NL-PDEs) are reduced to NL-ordinary differential equations (NL-ODE) and the solution of NL-ODE is performed for the first time by the modified Poincaré −Lindstedt method, yielding new amplitude dependent expressions for NL frequency, and for the ratio of NL frequency to linear (NL/L) frequency for multilayer plates consisting of NHOLs. Finally, detailed parametric studies are carried out to gain insight into the effects of various factors such as shear strains, non-homogeneity, number and array of layers on the NL frequencies under different rectangular plate characteristics.

本文首次尝试用poincar<s:1> - lindstedt方法求解由非均匀正交各向异性层组成的剪切变形多层板的非线性振动问题。首先,将均匀板的剪切变形理论(SDT)推广到由NHOLs组成的多层板。在von-Karman型非线性理论框架下,建立了所讨论板的基本关系,推导了基于旋转角、Airy应力和挠度函数的NL运动方程。然后,将NL-偏微分方程(NL- pdes)简化为NL-常微分方程(NL- ode),并首次采用改进的poincar<s:1>−Lindstedt方法求解NL- ode,得到了NL频率和NL频率与线性频率之比(NL/L)的新的振幅相关表达式。最后,进行了详细的参数化研究,以深入了解剪切应变、非均匀性、层数和层阵等因素对不同矩形板特性下NL频率的影响。


A unified hybrid micromechanical model for predicting the thermal and electrical conductivity of graphene reinforced porous and saturated cement composites

Huanxun Liu, Chuang Feng, Yucheng Fan, Ziyan Hang, Jinzhu Zhang

doi:10.1016/j.compstruct.2024.118202

预测石墨烯增强多孔和饱和水泥复合材料导热性和导电性的统一混合微观力学模型

Graphene fillers have gained widespread attention as functional reinforcements for cement composites due to their excellent physical properties. The prediction of the thermal and electrical properties of graphene reinforced cement composites (GRCCs) is of great importance for developing intelligent and multifunctional civil engineering materials and structures. In this current work, a unified hybrid micromechanical model combining effective medium theory (EMT) and Mori-Tanaka-Benveniste (MTB) is developed to simultaneously predict the thermal and electrical conductivity of the GRCCs with considering pores and saturation, in which mechanisms including phonon transport, electron tunnelling and Maxwell-Wagner-Sillars (MWS) polarization are incorporated. Graphene nanoplatelets (GNPs) reinforced cement composites (GNPRCCs) samples are prepared and tested to validate the developed unified model. The results show that the electrical conductivity of the GNPRCCs is more sensitive to saturation than the thermal conductivity. When the porosity n = 0.2 and the GNP concentration is 1 wt%, the relative thermal and electrical conductivity increases by 5 % and 193 %, respectively, when the saturation index increases from 0.6 to 1. Elongated pores are more favorable for the formation of ionic networks for electrical conductivity in the saturated GNPRCCs, while spherical pores are more beneficial for heat transport. Elongated graphene fillers are preferred for enhancing both the thermal and electrical conductivity of dry and saturated GNPRCCs. The work is envisaged to provide guidelines for developing multifunctional cement composites.

石墨烯填料作为水泥复合材料的功能性增强材料,因其优异的物理性能而受到广泛关注。石墨烯增强水泥复合材料(grcc)的热电性能预测对于开发智能化、多功能的土木工程材料和结构具有重要意义。本文结合有效介质理论(EMT)和Mori-Tanaka-Benveniste (MTB)建立了一个统一的混合微观力学模型,在考虑孔隙和饱和度的情况下,同时预测了grcc的导热性和导电性,其中包括声子输运、电子隧穿和Maxwell-Wagner-Sillars (MWS)极化机制。制备了石墨烯纳米薄片(GNPs)增强水泥复合材料(GNPRCCs)样品,并对其进行了测试,以验证所开发的统一模型。结果表明,gnprcc的电导率比导热系数对饱和更敏感。当孔隙度n = 0.2,GNP浓度为1 wt%时,当饱和指数由0.6增加到1时,相对导热系数和导电性分别增加5 %和193 %。在饱和gnprcc中,细长孔更有利于离子网络的形成,而球形孔更有利于热传递。细长的石墨烯填料是提高干燥和饱和gnprcc的导热性和导电性的首选材料。预计这项工作将为开发多功能水泥复合材料提供指导。


Composites Part A: Applied Science and Manufacturing

Mussel-like carbon fiber/MnO2 nanosheet heterostructures for mechanically strong carbon fiber/polyamide composites with excellent electromagnetic interference shielding

Na Sun, Quanqing Cui, Kun Qiao, Ye Zhang, Jiaqi Zhou, Shuhan Yan, Lu Liu, Bo Zhu, Bin Yu

doi:10.1016/j.compositesa.2024.108260

 

类贻贝碳纤维/二氧化锰纳米片异质结构的机械强碳纤维/聚酰胺复合材料具有优异的电磁干扰屏蔽

In order to construct carbon fiber (CF) reinforced polyamide 6 (PA6) composites with both excellent mechanical properties and electromagnetic interference (EMI) shielding properties, in this paper, a multiscale coating of PDA-MnO2 was constructed on the CF surface based on the in-situ growth process of polydopamine (PDA) and δ-phase manganese dioxide (δ-MnO2) nanosheets. Interestingly, the introduction of PDA not only improved the yield and the crystal regularity of MnO2 nanosheets, but also enabled the strength of CF to be maintained. The interlayer shear strength and interfacial shear strength of the modified CF/PA6 composites were increased by 19.45% and 37.45%, respectively, compared with those of the desized CF/PA6 composites. Meanwhile, the introduction of MnO2 nanosheets also improved the EMI shielding performance of the composites to commercial standards. The interfacial enhancement and EMI shielding mechanisms of the composites were elaborated, which enriched the theoretical system of CF composites for multifunctional applications.

为了构建具有优异力学性能和电磁干扰屏蔽性能的碳纤维(CF)增强聚酰胺6 (PA6)复合材料,本文基于聚多巴胺(PDA)和δ相二氧化锰(δ-MnO2)纳米片的原位生长工艺,在CF表面构建了一种多尺度的PDA- mno2涂层。有趣的是,PDA的引入不仅提高了MnO2纳米片的产率和晶体规则性,而且使CF的强度得以保持。改性后的CF/PA6复合材料的层间抗剪强度和界面抗剪强度分别比浆料CF/PA6复合材料提高了19.45%和37.45%。同时,二氧化锰纳米片的引入也将复合材料的电磁干扰屏蔽性能提高到商业标准。阐述了复合材料的界面增强和电磁干扰屏蔽机理,丰富了CF复合材料多功能应用的理论体系。


Composites Part B: Engineering

Development of Ag@Si composite sinter joining with ultra-high resistance to thermal shock test for SiC power device: experiment validation and numerical simulation

Yang Liu, Chuantong Chen, Ye Wang, Zheng Zhang, Ran Liu, Minoru Ueshima, Ichiro Ota, Hiroshi Nishikawa, Masahiko Nishijima, Koji S. Nakayama, Katsuaki Suganuma

doi:10.1016/j.compositesb.2024.111519

 

SiC功率器件用超高抗热冲击Ag@Si复合烧结接头的研制:实验验证与数值模拟

Owing to its cost-effectiveness and low coefficient of thermal expansion (CTE), micron Si is incorporated into sintered Ag matrix to develop an Ag@Si composite sintering strategy. The Si integration helps reduce cost and alleviate CTE-mismatch of Ag-sintered die attachments. An innovative Ag@Si composite sintering structure is achieved by low-temperature and pressure-less sintering process, where a possibly slight diffusion of native SiO2 on the Si surface toward Ag is indicated by TEM observation, enabling the integration of Ag and Si into one continuous network. Owing to the robust well-bonded composite sintering, the Ag@Si joining strategy provides mechanical/microstructural reliability far beyond the pure Ag sinter joining, demonstrating significant prospects in high-temperature interconnection applications. During the harsh thermal cycling (−50∼250°C), the mitigating effect of the Si addition on CTE mismatch is manifested through the substantial suppression of microstructure deterioration in Ag@Si joint that occurs in pure-Ag-sintered joint, while the shear strength retention rate is doubled. Detailed investigation into the mechanism for elevated performance was conducted by material property and Missies stress analysis. The incorporation of Si helps modify the CTE, elastic properties, and stress distribution of Ag@Si-sintered material, synergistically contributing to the satisfactory joining reliability.

由于其成本效益和低热膨胀系数(CTE),微米硅被纳入烧结银基体开发Ag@Si复合烧结策略。Si集成有助于降低成本,缓解银烧结模具附件的cte不匹配。通过低温无压烧结工艺,获得了一种创新的Ag@Si复合烧结结构,透射电镜观察表明,天然SiO2可能在Si表面向Ag扩散,从而使Ag和Si集成为一个连续的网络。由于结合良好的复合材料烧结,Ag@Si连接策略提供了远远超过纯银烧结连接的机械/显微组织可靠性,在高温互连应用中具有重要的前景。在严酷的热循环过程中(- 50 ~ 250°C),添加Si对CTE失配的缓解作用表现为显著抑制了纯银烧结接头Ag@Si接头的微观组织劣化,同时抗剪强度保持率提高了一倍。通过材料性能分析和Missies应力分析,详细探讨了提高性能的机理。Si的加入有助于改变Ag@Si-sintered材料的CTE、弹性性能和应力分布,协同作用有助于获得令人满意的连接可靠性。


来源:复合材料力学仿真Composites FEM
ACTMechanicalMaxwellSystemInspire振动复合材料非线性拓扑优化电子理论化机材料多尺度仿生试验模具
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首次发布时间:2024-11-14
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【新文速递】2024年4月24日固体力学SCI期刊最新文章

今日更新:International Journal of Solids and Structures 1 篇,Journal of the Mechanics and Physics of Solids 2 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇International Journal of Solids and StructuresEffect of a subsurface void on the micromechanics of ductile metal indentation using remeshingDebasree Das, Narayan K. Sundaramdoi:10.1016/j.ijsolstr.2024.112842利用重网格法研究地下空洞对延性金属压痕微观力学的影响Near-surface voids and pores are generated in metal processing operations as diverse as additive manufacturing and powder processing, but their effect on indentation hardness has not been explored outside homogenized frameworks. Here we model the micromechanics of near-surface void deformation up to closure in a wedge-indentation field in ductile metal, and reveal the considerable softening effect of voids on the indentation hardness. Both symmetrically and eccentrically located voids, at various depths below the free surface, are studied. Notably, the extent of apparent reduction in the elastic modulus due to a void is much smaller than its effect on apparent hardness, e.g. 6.5% against 55% for the same void. Critical to the simulations is an adaptive remeshing finite element (FE) framework that allows accurate capture of processes like void closure and void-wall self-contact. The simulations reveal the subsurface plastic strain, strain-rate, and velocity fields with high fidelity, and their radical differences from the radial indentation field in a void-free specimen. These differences include the presence of localized pockets of high and low strain, and the initial accommodation of material displaced by the indenter by a corresponding reduction in void area. Unlike voids under uniform compression, the void-area evolution in indentation shows a characteristic sigmoidal pattern of reduction with indentation depth for all but the smallest voids. Interestingly, the indented surface profile can exhibit a one-sided pile-up feature which is diagnostic of the presence of an eccentrically located sub-surface void. Our remeshing scheme is versatile, as exemplified by its ability to model the extreme deformation associated with two nearly closed-spaced voids under an indenter. Our work shows that void-closure simulations in related applications like forming could benefit from the adoption of a remeshing framework.在增材制造和粉末加工等多种金属加工操作中都会产生近表面空洞和孔隙,但它们对压痕硬度的影响尚未在均质框架之外进行过探索。本文模拟了延性金属楔压痕场中近表面孔洞变形直至闭合的微观力学过程,揭示了孔洞对压痕硬度的显著软化作用。研究了自由表面以下不同深度的对称和偏心位置的空洞。值得注意的是,空穴对弹性模量的明显降低程度远远小于其对表观硬度的影响,例如,相同空穴对表观硬度的影响为6.5%对55%。模拟的关键是自适应网格有限元(FE)框架,该框架允许准确捕获空隙闭合和空隙壁自接触等过程。模拟结果显示了高逼真度的亚表面塑性应变场、应变速率场和速度场,以及它们与无空洞试样径向压痕场的根本差异。这些差异包括高应变和低应变的局部口袋的存在,以及通过相应的空隙面积减少,压头位移的材料的初始容纳。与均匀压缩条件下的孔洞不同,除最小孔洞外,压痕中孔洞面积随压痕深度的增加呈显著的s型变化。有趣的是,凹陷的表面轮廓可以表现出片面的堆积特征,这是对偏心位置的地下空洞存在的诊断。我们的网格重新划分方案是通用的,例如它能够模拟与压头下两个几乎封闭的空隙相关的极端变形。我们的工作表明,在成型等相关应用中的空隙闭合模拟可以从采用重网格框架中受益。Journal of the Mechanics and Physics of SolidsEffective thermodynamic potentials and internal variables: Linear viscoelastic compositesNoel Lahellec, Renaud Masson, Pierre Suquetdoi:10.1016/j.jmps.2024.105649有效热力学势和内部变量:线性粘弹性复合材料New theoretical relations in linear viscoelasticity are derived by combining two different points of view. On the one hand, the general thermodynamic framework makes it possible to define the energy stored and the energy dissipated in linearly viscoelastic composites. On the other hand, the correspondence principle permits to express the macroscopic strain-stress relation as ordinary differential equations for a set of effective internal variables. A finite and small number of internal variables is rigorously sufficient in several cases of interest, including in particular particulate composites. Interpreting the macroscopic response as a rheological generalized Maxwell model allows us to compute the macroscopic free and dissipated energy of the composite. This interpretation is proved to be exact in several cases of interest. Coupled with Hashin–Shtrikman estimates, these thermodynamic functions provide additional information on the statistics of the field within each individual phase of the composite.结合两种不同的观点,导出了线性粘弹性的新理论关系。一方面,一般的热力学框架使得可以定义线性粘弹性复合材料中储存的能量和耗散的能量。另一方面,对应原理允许将宏观应变-应力关系表示为一组有效内变量的常微分方程。有限和少量的内部变量在一些情况下是严格充分的,包括在特定的颗粒复合材料。将宏观响应解释为流变广义麦克斯韦模型使我们能够计算复合材料的宏观自由能和耗散能。这种解释在几个有趣的案例中被证明是准确的。结合Hashin-Shtrikman估计,这些热力学函数提供了复合材料每个单独相内的场统计信息的附加信息。Quantifying the mechanical degradation of solid oxide cells based on 3D reconstructions of the real microstructure using a unified multiphysics coupling numerical frameworkYunpeng Su, Keda Ren, Zehua Pan, Jingyi Wang, Zheng Zhong, Zhenjun Jiaodoi:10.1016/j.jmps.2024.105654 使用统一的多物理场耦合数值框架,基于真实微观结构的三维重建来量化固体氧化物电池的力学退化In this work, a multiphysics coupling numerical framework is developed to quantitatively investigate the initial performances of solid oxide cells (SOCs) based on the thermodynamically consistent integration of the finite element method (FEM) and the phase field method (PFM) to reveal the interaction between species-defect transport, electrochemical reaction kinetics, stress and mechanical damage in SOC electrodes. The modeling framework is validated by comparing the simulation results based on real 3D microstructure reconstructions of specific SOCs with the experimental measurements in electrolysis and fuel cell modes. The phenomena of internal microstructure fracture and delamination observed in the experiment thus can be numerically modeled to quantify the effects of thermal and chemical stresses on the mechanical degradation of heterogeneous electrodes. The framework is also applied in the cross-scale quantification of the possible mechanical damage in SOCs subjected to different mechanical boundary conditions. The framework proposed in this work is flexible, can be superimposed with other fields, and incorporates input from cross-scale simulations. It provides a great potential platform for the optimization of future energy devices considering actual operating conditions and fills the gap in theoretical multiphysics modeling in the field of SOCs.在这项工作中,基于有限元法(FEM)和相场法(PFM)的热力学一致积分,开发了一个多物理场耦合数值框架来定量研究固体氧化物电池(SOC)的初始性能,以揭示SOC电极中物质缺陷传输、电化学反应动力学、应力和机械损伤之间的相互作用。通过将特定soc的真实三维微观结构重建的仿真结果与电解和燃料电池模式下的实验测量结果进行比较,验证了建模框架的有效性。因此,实验中观察到的内部微观结构断裂和分层现象可以通过数值模拟来量化热应力和化学应力对非均质电极机械降解的影响。该框架还应用于不同力学边界条件下soc可能发生的力学损伤的跨尺度量化。本工作提出的框架具有灵活性,可以与其他领域叠加,并包含来自跨尺度模拟的输入。它为考虑实际运行条件的未来能源器件的优化提供了一个极具潜力的平台,填补了soc领域理论多物理场建模的空白。Mechanics of MaterialsIdentifying multiple synergistic factors on the susceptibility to stress relaxation cracking in variously heat-treated weldmentsYi Yang, Dong Han, Wei Zhang, Yanfei Gao, Jorge Penso, Zhili Fengdoi:10.1016/j.mechmat.2024.105013确定了影响不同热处理焊件应力松弛开裂易感性的多种协同因素The 347H austenitic stainless steel has been widely used for pressure vessels and pipeline (PVP) applications due to its excellent creep and corrosion resistance, which fit ideally to the harsh conditions in petrochemical industries, fossil fuel or nuclear power plants, and modern energy storages. However, a failure mode has been commonly observed with cracks emerging at the heat affected zone (HAZ) of weldments during post-weld heat treatment (PWHT) or under intermediate to high temperature service conditions. This phenomenon is termed as Stress Relaxation Cracking (SRC) since the purpose of PWHT is to relieve the welding-induced residual stress fields, or as Stress Age Cracking (SAC) if failure happens during service. A leading literature explanation of this failure suggests that the residual stress relaxation and the precipitation dissolution and/or re-precipitation occur in the same temperature range, which can lead to locally high strains and thus to crack at the grain boundaries. Since in situ spatial measurements of residual stress fields, microstructural evolution, and failure processes are nearly infeasible, this work recourses to a micromechanical finite element framework that models the high temperature failure as the nucleation and growth of grain boundary cavities, whereas various parameters such as thermomechanical loading history and its evolution, the competition of grain-interior dislocation creep and grain-boundary diffusion in failure lifetime, and microstructural heterogeneities (such as the precipitate free zone near grain boundaries) can be quantitatively incorporated. It can be concluded from these microstructure-explicit simulations that an accurate knowledge of residual stress evolution and a carefully calibrated set of material constitutive parameters are the essential prerequisites for lifetime predictions. The understanding of individual governing factors also leads to a mechanistic interpretation of the observed SRC susceptibility C-curves. These results suggest that the criticality of residual stress evolution, but not the precipitation-induced local strains, be the leading factor for SRC.347H奥氏体不锈钢因其优异的抗蠕变和耐腐蚀性而广泛用于压力容器和管道(PVP)应用,非常适合石化工业,化石燃料或核电站以及现代能源储存的恶劣条件。然而,在焊后热处理(PWHT)或中高温使用条件下,焊接件的热影响区(HAZ)出现裂纹是一种常见的失效模式。这种现象被称为应力松弛开裂(SRC),因为PWHT的目的是消除焊接引起的残余应力场,或者在使用过程中发生失效时称为应力时效开裂(SAC)。对这种破坏的主要文献解释认为,残余应力松弛和析出溶解和/或再析出发生在同一温度范围内,这可能导致局部高应变,从而在晶界处开裂。由于对残余应力场、微观组织演变和破坏过程的原位空间测量几乎是不可实现的,因此本研究采用微力学有限元框架,将高温破坏模拟为晶界空腔的形核和生长,而各种参数,如热力学加载历史及其演变、晶粒内部位错蠕变和晶界扩散在破坏寿命中的竞争,显微组织的非均质性(如晶界附近的无析出带)可以定量地纳入。从这些微观结构模拟可以得出结论,残余应力演化的准确知识和精心校准的材料本构参数集是寿命预测的必要先决条件。对个体控制因素的理解也导致了对观察到的SRC敏感性c曲线的机制解释。这些结果表明,残余应力演化的临界性,而不是降水引起的局部应变,是导致SRC的主要因素。International Journal of PlasticityTuning chemical short-range order for simultaneous strength and toughness enhancement in NiCoCr medium-entropy alloysSiyao Shuang, Yanan Hu, Xiaotao Li, Fuping Yuan, Guozheng Kang, Huajian Gao, Xu Zhangdoi:10.1016/j.ijplas.2024.103980调节NiCoCr中熵合金强度和韧性同时增强的化学短程顺序The pursuit of enhancing strength and toughness remains a critical endeavor in the field of structural materials. This study explores two distinct strategies to overcome the traditional strength-toughness trade-off. Specifically, we manipulate the chemical composition and short-range order (SRO) of the NiCoCr medium-entropy alloy, which has shown remarkable fracture toughness in recent experiments. Utilizing molecular dynamics simulations, we uncover nano-scale deformation mechanisms during crack propagation. Our findings highlight that optimizing the SRO degree leads to improvements in both atomic scale strength and toughness defined as the area underneath stress-strain curves from MD simulations. In contrast, a trade-off between strength and toughness persists when only manipulating the Ni content in the NiCoCr alloy. Based on the simulation results, we establish a strong correlation between toughness, strength, surface energies, and unstable stacking fault energies. These factors are influenced by the chemical composition and SROs in NiCoCr, with SROs acting as strong obstacles to dislocations, thereby contributing to additional strength. The exceptional toughness of NiCoCr with SRO arises from a synergy of intrinsic and extrinsic mechanisms, including dislocation glide, nanobridging during nanovoid coalescence and zigzag crack path. It is found that, in the presence of SRO, intrinsic toughening mechanisms usually associated with crack tip blunting and dissipation can also facilitate the onset of extrinsic toughening mechanisms of nanobridging and zig-zag crack path associated with nanovoid formation and coalescence. This study emphasizes the importance of tailoring SRO in designing materials with enhanced strength and toughness.提高材料的强度和韧性仍然是结构材料领域的一个重要课题。本研究探讨了两种不同的策略来克服传统的强度-韧性权衡。具体来说,我们在最近的实验中对NiCoCr中熵合金的化学成分和短程有序度(SRO)进行了控制,该合金在最近的实验中表现出了显著的断裂韧性。利用分子动力学模拟,我们揭示了裂纹扩展过程中的纳米级变形机制。我们的研究结果强调,优化SRO程度导致原子尺度强度和韧性的提高,原子尺度强度和韧性定义为MD模拟的应力-应变曲线下的区域。相反,当仅控制NiCoCr合金中的Ni含量时,强度和韧性之间的权衡仍然存在。基于模拟结果,我们建立了韧性、强度、表面能和不稳定层错能之间的强相关性。这些因素受到NiCoCr中的化学成分和sro的影响,sro作为位错的强大障碍,从而有助于增加强度。具有SRO的NiCoCr具有优异的韧性,这是由位错滑动、纳米空洞合并过程中的纳米桥接和锯齿裂纹路径等内在和外在机制共同作用的结果。研究发现,在SRO存在的情况下,通常与裂纹尖端钝化和耗散有关的内在增韧机制也可以促进与纳米孔洞形成和聚并有关的纳米桥接和锯齿形裂纹路径的外在增韧机制的发生。本研究强调了裁剪SRO在设计增强强度和韧性的材料中的重要性。来源:复合材料力学仿真Composites FEM

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