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【新文速递】2024年9月19日固体力学SCI期刊最新文章

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今日更新:International Journal of Solids and Structures 1 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 1 篇

International Journal of Solids and Structures

Hydride induced embrittlement and fracture of non-hardening metals under hydrogen chemical equilibrium

A.G. Varias

doi:10.1016/j.ijsolstr.2024.113073

氢化学平衡下非硬化金属的氢化物致脆断裂

The stress field in the hydride precipitation zone is examined, under conditions of hydrogen chemical equilibrium and constant temperature, in the case of non-hardening metals, by applying slip-line theory. It is proven that the hydride precipitation zone, in any geometry, is a constant stress area. In this area, the principal stresses are equal to the respective principal stresses, before hydride precipitation, minus the difference of hydrostatic stress before and after hydride precipitation. The general relations are applied to the case of a stationary sharp mode-I plane-strain crack and the deviations from Prandtl-field are derived, in the [-π/4, +π/4] sector ahead of the tip, where hydrides precipitate. In this case, the hydride precipitation sector is characterized by a constant hydride volume fraction. In addition, hydride precipitation is associated with the development of elastic sectors along the crack faces and the reduction of the centered fan sectors; the relation between hydride precipitation zone stress trace and the extent of the centered fan sector is presented. The mode-I plane-strain blunted crack is also considered and the deviations from the logarithmic spiral slip-lines is discussed together with the reduction of hydride volume fraction as the blunted crack-tip is approached. A general fracture criterion, based on the strength of hydride platelets, is derived, which indicates that fracture occurs, when a critical hydride precipitation zone stress trace dominates. The criterion is applied, under the condition of a dominant K-field annulus, surrounding the plastic zone, and the estimated threshold stress intensity factor of delayed hydride cracking correlates favorably with experimental measurements.

应用滑移线理论,研究了非硬化金属在氢化学平衡和恒温条件下的氢化物析出区应力场。证明了在任何几何形状下,氢化物析出区都是一个恒应力区。在这一区域,主应力等于氢化物析出前各自的主应力,减去氢化物析出前后的静水应力差。将一般关系式应用于固定尖锐i型平面应变裂纹的情况,并推导出在尖端前面的[-π/4, +π/4]扇区中氢化物析出的普朗特场偏差。在这种情况下,氢化物沉淀区以恒定的氢化物体积分数为特征。此外,氢化物的析出与沿裂纹面弹性扇区的发育和中心扇区的减小有关;给出了氢化物沉淀区应力迹与中心扇区范围的关系。本文还考虑了i型平面应变钝化裂纹,讨论了与对数螺旋滑移线的偏差以及接近钝化裂纹尖端时氢化物体积分数的减小。基于氢化物薄片的强度,导出了一般断裂准则,表明当临界氢化物析出区应力迹占主导地位时发生断裂。该准则应用于塑性区周围的主导k场环空条件下,估计的延迟氢化物开裂的阈值应力强度因子与实验测量结果具有良好的相关性。


Journal of the Mechanics and Physics of Solids

Evolution of static to dynamic mechanical behavior in topological nonreciprocal active metamaterials

Zehuan Tang, Tingfeng Ma, Hui Chen, Yuanwen Gao

doi:10.1016/j.jmps.2024.105865

拓扑非互易活性超材料静态力学行为向动态力学行为的演化

Based on the Maxwell-Betti theorem, static non-reciprocity has been realized by using nonlinearity, but this non-reciprocity has strict restrictions on input amplitude and structure size (number of units). Here, we propose an active metamaterial with two polarizational components (translation and rotation), which uses active control to add external forces on the units to break reciprocity at the level of the interactions between the units. We show analytically and simulatively that breaking reciprocity at the level of the interactions directly leads to a huge asymmetric response of displacement in a static system, this displacement-specific characteristic not only has no restrictions on size, input amplitude, and suitable geometric asymmetry, but also can be transmitted to rotation by coupling under large deformation. After the evolution from statics to dynamics, asymmetric transmission and unidirectional amplification of vector solitons are both implemented in this system. Our research uncovers the evolution of static non-reciprocity to dynamic non-reciprocity while building a bridge between non-reciprocity physics and soliton science.

基于Maxwell-Betti定理,利用非线性实现了静态非互易性,但这种非互易性对输入幅度和结构大小(单元数)有严格的限制。在这里,我们提出了一种具有两个极化分量(平移和旋转)的活性超材料,它使用主动控制在单元上添加外力以打破单元之间相互作用水平上的互易性。分析和模拟表明,在相互作用水平上破坏互易性直接导致静态系统中巨大的位移不对称响应,这种位移特定特性不仅对大小、输入幅值和适当的几何不对称没有限制,而且可以在大变形下通过耦合传递给旋转。该系统实现了矢量孤子的非对称传输和单向放大。我们的研究揭示了从静态非互易到动态非互易的演化过程,在非互易物理学和孤子科学之间架起了一座桥梁。


Mechanics of Materials

Homogenization of quasi-periodic conformal architectured materials and applications to chiral lattices

S.E. Alavi, K. Cheikho, C. Laurent, J.F. Ganghoffer

doi:10.1016/j.mechmat.2024.105146

准周期共形结构材料的均匀化及其在手性晶格中的应用

In this study, we propose to extend asymptotic periodic homogenization for non-periodic continuous microstructured media, assuming that the non-periodic geometry (called quasi-periodic) can be designed by a conformal planar transformation of a periodic parent domain architectured media with periodically disposed unit cells. Conformal transformations are shown to play a privileged role in the design of circular macroscopic heterogeneous domains tessellated with non-periodic unit cells, obtained from a periodic parent domain architectured with these unit cells. The conditions for conformal invariance are established, leading to the general form of conformal transformation in their dependencies upon the periodic coordinates. It is shown that any conformal map can be decomposed into the product of an isotropic dilatation function of the first periodic spatial position of decreasing exponential type and a rotation characterized by an angular function linear in the second periodic position. A general theory of quasi-periodic homogenization in the framework of conformal transformations is established for the first time, leading to an expression of the tensor of quasi-periodic moduli which are fully evaluated from the solution of the elasticity boundary value problem posed over the periodic unit cell. The influence of microcurvature distortion of individual unit cells on their effective properties is evaluated. Closed-form solutions are confronted to numerical examples issued from the implementation of circular periodicity in a finite element solver, in order to showing overall a good agreement with the identified homogenized moduli.

在本研究中,我们提出扩展非周期连续微结构介质的渐近周期均匀化,假设非周期几何(称为准周期)可以通过具有周期性配置的单元胞的周期母域结构介质的共形平面变换来设计。共形变换在非周期单元胞镶嵌的圆形宏观异质畴的设计中发挥了特殊的作用,这些非周期单元胞是由这些单元胞构成的周期母域得到的。建立了保形不变性的条件,得到了它们随周期坐标变化的保形变换的一般形式。结果表明,任何共形映射都可以分解为第一个周期空间位置的指数递减型各向同性膨胀函数与第二个周期位置的角函数线性特征的旋转的乘积。首次建立了保形变换框架下拟周期均匀化的一般理论,得到了拟周期模张量的表达式,该表达式完全由周期单元胞弹性边值问题的解求得。分析了单晶胞微曲率畸变对其有效性能的影响。在有限元求解器中对循环周期的实现给出了数值算例,并与所识别的均质模总体上吻合较好。


International Journal of Plasticity

Achieving superior strength-ductility balance by tailoring dislocation density and shearable GP zone of extruded Al-Cu-Li alloy

Xuanxi Xu, Guohua Wu, Xin Tong, Liang Zhang, Cunlong Wang, Fangzhou Qi, Xiaopeng Zeng, Youjie Guo

doi:10.1016/j.ijplas.2024.104135

通过调整挤压铝铜锂合金的位错密度和可剪切GP区,实现了优异的强度-塑性平衡

Pre-stretching is commonly employed to accelerate ageing precipitation kinetics in wrought Al-Cu-Li alloys, but uneven precipitation resulting from dislocation pile-ups often degrades ductility. Herein, the strength and ductility of extruded Al-Cu-Li alloy are significantly improved through a novel thermomechanical treatment, involving pre-ageing and pre-stretching, followed by low-temperature interrupted ageing. A superior balance between high yield strength (∼ 657 MPa) and good ductility (elongation to fracture of ∼ 13.5%) is obtained, with elongation increased by 105% compared to the conventional T8 temper, while maintaining a respectable yield strength. Microstructure analysis reveals that dense Guinier–Preston (GP) zones induced by pre-ageing effectively dissipate energy from dislocation sliding, resulting in a uniform dislocation configuration even at 8% pre-stretching. However, the GP zone density is greatly reduced due to their dissolution following pre-stretching. Upon interrupted ageing, the reprecipitation of GP zones forms a homogeneous mixture of δ′, GP zones, and T1 phases. This combination alleviates local stress concentrations and lengthens the dislocation mean free path during tensile testing by shearing the GP zones at multiple sites, thereby improving ductility. Simultaneously, T1 precipitates strengthen the alloy by pinning dislocations and promoting dislocation cross-slip, improving work hardening capacity. The dissolution of GP zones also redistributes the Cu atoms within the matrix, further enhancing the intrinsic ductility of the Al matrix. These findings offer valuable insights for developing high-performance wrought Al-Cu-Li alloys.

预拉伸通常用于加速变形铝铜锂合金的时效析出动力学,但位错堆积导致的不均匀析出通常会降低塑性。通过预时效、预拉伸和低温中断时效等新型热处理,挤压铝铜锂合金的强度和塑性得到了显著提高。在高屈服强度(~ 657 MPa)和良好延展性(断裂伸长率~ 13.5%)之间取得了良好的平衡,与传统T8回火相比,伸长率提高了105%,同时保持了可观的屈服强度。微观结构分析表明,预时效引起的密集的ginier - preston (GP)带有效地耗散了位错滑动产生的能量,即使在8%的预拉伸下也能形成均匀的位错结构。然而,由于预拉伸后的溶解,GP带密度大大降低。中断时效后,GP区再析出形成δ′、GP区和T1相的均匀混合物。这种组合缓解了局部应力集中,并通过剪切多个位置的GP区延长了拉伸试验中的位错平均自由路径,从而提高了延性。同时,T1析出物通过钉住位错和促进位错交叉滑移来强化合金,提高加工硬化能力。GP带的溶解也使Cu原子在基体中重新分布,进一步增强了Al基体的固有延展性。这些发现为开发高性能锻造Al-Cu-Li合金提供了有价值的见解。


Thin-Walled Structures

Influence of feed entrance angle on transverse tearing burr formation in the milling of superalloy honeycomb with ice filling constraint

Shaowei Jiang, Haibo Liu, Yueshuai Zuo, Daomian Sun, Jianming Li, Kuo Liu, Yongqing Wang, Steven Y. Liang

doi:10.1016/j.tws.2024.112472

进给角对充冰约束下高温合金蜂窝铣削横向撕裂毛刺形成的影响

In the end milling of superalloy honeycomb cores, the contact form between the cutting tool and honeycomb wall and the force state of the honeycomb wall are variable, there will be difficulties in chip removal. The irregular extension of transverse tearing burrs can deteriorate the machining quality of honeycomb core surfaces, thereby adversely affecting the assembly and service performance of sandwich structures. Based on kinematic analysis, modeling of the removal and deflection process of honeycomb walls was conducted. The feed entrance angle in the case of machining thin walls with high feed speeds was characterized, and the force state of the honeycomb wall and the degree of shear or compression it bears were analyzed. Analytical models of damage scale and single-tooth cutting state were established under different feed entrance angles. The impact of feed entrance angle on the minimum burr length and the minimum constraint failure width was analyzed. The milling experiments of GH4099 superalloy honeycomb wall with ice filling constraint were designed and conducted to clarify the influence of different feed entrance angles on cutting force and transverse tearing burr length. The morphology of burrs and the wear form of the cutting tool were analyzed, and the formation mechanism of transverse tearing burr on the honeycomb sidewalls was revealed. The research results indicate that the feed force Fx is 2.1 to 4.7 times greater than the main force Fy or the back force Fz. When the feed entrance angle is less than 90°, transverse tearing burrs either do not occur, or occur crimped burrs that are gradually removed. Particularly within the range of 0° to 30°, the machining quality is better. The cutting force has a significant shearing effect on the honeycomb wall, making it susceptible to plastic deformation and reaching the fracture strain. The cutting edge can effectively remove material from the honeycomb wall, resulting in normal wear on the minor flank face and tip of the cutting tool. When the feed entrance angle is greater than 90°, it is easy to form large banded burrs, and the burr length is relatively similar to about 1500μm. The cutting force has a significant extrusion effect on the honeycomb wall, resulting in minimal deflection deformation of the honeycomb wall, and making it difficult to fracture. The cutting tool fails to perform effective cutting, leading to increased friction between the cutting tool and honeycomb wall, which continuously induces irregular extension of the burrs. The research findings are of great significance for achieving damage control in metal honeycomb core machining and guiding process and clamping optimization.

在对超合金蜂窝芯进行端铣加工时,刀具与蜂窝壁的接触形式以及蜂窝壁的受力状态都是多变的,因此会出现排屑困难的情况。横向撕裂毛刺的不规则延伸会恶化蜂窝芯表面的加工质量,从而对夹层结构的装配和使用性能产生不利影响。基于运动学分析,对蜂窝壁的清除和变形过程进行了建模。分析了以高进给速度加工薄壁时的进给入口角,并分析了蜂窝壁的受力状态及其承受的剪切或压缩程度。建立了不同进给入口角下损伤规模和单齿切削状态的分析模型。分析了进给入口角对最小毛刺长度和最小约束失效宽度的影响。设计并进行了带有冰填充约束的 GH4099 超合金蜂窝壁铣削实验,以明确不同进给入口角对切削力和横向撕裂毛刺长度的影响。分析了毛刺的形态和切削刀具的磨损形式,揭示了蜂窝侧壁横向撕裂毛刺的形成机理。研究结果表明,进给力 Fx 是主力 Fy 或反向力 Fz 的 2.1 至 4.7 倍。当进料入口角小于 90° 时,横向撕裂毛刺要么不会出现,要么会出现卷曲毛刺并逐渐被去除。特别是在 0° 至 30° 范围内,加工质量更好。切削力对蜂窝壁有明显的剪切作用,使其容易产生塑性变形,达到断裂应变。切削刃能有效去除蜂窝壁上的材料,导致切削刀具的小翼面和刀尖出现正常磨损。当进给入口角大于 90° 时,容易形成较大的带状毛刺,毛刺长度相对较近,约为 1500μm。切削力对蜂窝壁的挤压作用明显,导致蜂窝壁的挠曲变形极小,不易断裂。切削工具无法进行有效切削,导致切削工具与蜂窝壁之间的摩擦力增大,从而不断诱发毛刺的不规则延伸。该研究成果对于实现金属蜂窝芯加工中的损伤控制以及指导工艺和装夹优化具有重要意义。



来源:复合材料力学仿真Composites FEM
ACTMechanicalMaxwellSystemDeform断裂非线性化学裂纹理论材料控制试验
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首次发布时间:2024-11-27
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【新文速递】2024年11月15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 1 篇,Mechanics of Materials 1 篇,International Journal of Plasticity 1 篇,Thin-Walled Structures 5 篇International Journal of Solids and StructuresStability discussion and application study of pseudo-corner modelsTianyin Zhang, Xianhong Handoi:10.1016/j.ijsolstr.2024.113136伪角模型的稳定性讨论及应用研究Accurate plastic flow modelling under complex working conditions is crucial for metal deformation simulations. Recently, some advanced pseudo-corner models have been developed to describe corner effects and analyze strain localization problems. The present work consists of three parts. The first part discusses the intrinsic stability of the pseudo-corner model class, which forms the premise of application analysis. The second part applies the pseudo-corner models and the associated flow rule (AFR) to buckling onset estimation, plastic post-buckling analysis and shear band analysis. The experimental conditions are strictly reproduced and the optimal model parameters are determined. The results reveal that the pseudo-corner models and AFR are indistinguishable in the buckling onset estimation. AFR overestimates the post-buckling strength of circular tubes under axial compression, and cannot reproduce the shear band development during sheet bending; while the pseudo-corner models have better prediction performance in both scenarios. The results also suggest that the parameter values of pseudo-corner models are apparently inconsistent in the above two types of problems. Then in the third part, two representative influencing factors including strain gradient plasticity and initial imperfections are discussed, and this inconsistency is finally attributed to the shortwave surface defect which however is usually neglected by previous studies.复杂工况下精确的塑性流动建模是金属变形模拟的关键。近年来,人们发展了一些先进的伪转角模型来描述转角效应和分析应变局部化问题。本文的工作由三个部分组成。第一部分讨论了伪角模型类的固有稳定性,这是应用分析的前提。第二部分将拟角点模型和关联流动规则(AFR)应用于屈曲起始估计、塑性后屈曲分析和剪切带分析。严格再现了实验条件,确定了最优模型参数。结果表明,伪转角模型和AFR在屈曲起始估计中是不可区分的。AFR过高估计了轴压作用下圆管的屈曲后强度,不能再现板弯曲过程中剪切带的发展;而伪角点模型在两种情况下都具有更好的预测性能。结果还表明,在上述两类问题中,伪角模型的参数值明显不一致。然后在第三部分,讨论了应变梯度塑性和初始缺陷这两个具有代表性的影响因素,并最终将这种不一致归因于短波表面缺陷,而短波表面缺陷在以往的研究中往往被忽视。Journal of the Mechanics and Physics of SolidsThermodynamic potentials for viscoelastic compositesMartín I. Idiartdoi:10.1016/j.jmps.2024.105936粘弹性复合材料的热力学势Explicit expressions for the free-energy and dissipation densities of viscoelastic composites at fixed temperature are proposed. The composites are comprised of an arbitrary number of distinct constituents exhibiting linear Maxwellian rheologies and distributed randomly at a length scale that is much smaller than that over which applied loads vary significantly. Central to their derivation is the recognition that any viscous deformation field can be additively decomposed into an irrotational field and a solenoidal field in such a way that variational approximations available for elastic potentials become applicative to viscoelastic potentials. The thermodynamic potentials conform to a generalized standard model with a finite number of effective internal variables with explicit physical meaning. Specific approximations of the Hashin–Shtrikman and the Self-Consistent types are worked out in detail. Under particular circumstances, these approximations may turn out exact. Macroscopic stress–strain relations and intraphase statistics of the stress field up to second order are also provided.给出了粘弹性复合材料在固定温度下的自由能和耗散密度的显式表达式。复合材料由任意数量的不同组分组成,表现出线性麦克斯韦流变性,并随机分布在长度尺度上,该尺度远小于施加载荷显著变化的长度尺度。其推导的核心是认识到任何粘性变形场都可以加性地分解为无旋场和螺线线场,从而使可用于弹性势的变分近似适用于粘弹性势。热力学势符合具有有限数量的具有明确物理意义的有效内变量的广义标准模型。详细计算了Hashin-Shtrikman和自洽型的具体近似。在特殊情况下,这些近似值可能是精确的。给出了宏观应力-应变关系和二级应力场的相内统计。Mechanics of MaterialsLocal measurement on oedometric compression tests: Time and temperature ageing effects on a fluorosiliconeClémence Logeais, Cristian Ovalle, Lucien Laiarinandrasanadoi:10.1016/j.mechmat.2024.105193计量压缩试验的局部测量:氟硅树脂的时间和温度老化效应O-ring durability is a key issue for engineering structures that require sealing over a long service life. Rubber-like materials are used for this type of component because of the assumption of incompressibility, i.e. a high bulk modulus K . However, this assumption has been called into question in the literature, particularly for elastomers under high hydrostatic pressures. This work examines the compressibility of rubber-like materials, with a particular focus on fluorosilicone elastomers (FVMQ). A method of confined compression using a transparent crucible is presented, which allows local measurement of the displacement field. This technique provides a better understanding of the analysis of oedometric compression data and a reliable way to determine the K value. Furthermore, this approach allows following the evolution of K over time with accelerated ageing. Three ageing temperatures - 200, 220 and 250 °C - were tested up to 34, 15 and 1 weeks respectively. For the three ageing temperatures, the FVMQ results show a decrease in K values with ageing. In particular, at 250 °C, a turning point was observed after 72 h of ageing. These results highlight the influence of ageing on the compressibility of the FVMQ and the presence of two different ageing mechanisms affecting the K evolution.对于需要长寿命密封的工程结构来说,o型圈的耐久性是一个关键问题。类橡胶材料被用于这种类型的组件,因为假设不可压缩,即高体积模量K。然而,这一假设在文献中受到质疑,特别是在高静水压力下的弹性体。这项工作考察了橡胶类材料的可压缩性,特别关注氟硅弹性体(FVMQ)。提出了一种利用透明坩埚进行密闭压缩的方法,可以对位移场进行局部测量。该技术提供了一个更好的理解的分析测量压缩数据和一个可靠的方法来确定K值。此外,这种方法允许跟随K随着时间的推移而加速老化的演变。三种老化温度- 200,220和250°C -分别测试了34,15和1周。对于3种老化温度,FVMQ结果表明,K值随老化而减小。特别是,在250°C时,72 h后观察到一个转折点。这些结果强调了老化对FVMQ可压缩性的影响,以及两种不同的老化机制影响K演化的存在。International Journal of PlasticitySignificantly enhanced mechanical properties of NiCoV medium-entropy alloy via precipitation engineeringJunyang He, Weijin Cai, Na Li, Li Wang, Zhangwei Wang, Shuai Dai, Zhifeng Lei, Zhenggang Wu, Min Song, Zhaoping Ludoi:10.1016/j.ijplas.2024.104180 通过沉淀工程使NiCoV中熵合金的力学性能得到显著提高Precipitation engineering is one of the most effective means to enhance the strength of an alloy, which essentially requires precipitates with certain deformability, fine size, and uniform distribution. However, for multicomponent alloy systems, the chemical complexity poses significant difficulties in applying this strengthening method due to the diversity and brittleness of the potential precipitate phases. In this work, we demonstrated the precipitation engineering in a chemically complex prototype alloy NiCoV. Specifically, formation of detrimental σ, μ and Heusler phases was avoided by reducing the V content, and a two-step short-term annealing was designed to trigger homogeneous κ nucleation while inhibiting its rapid coarsening. It is found that both grain and phase boundaries can trap V atoms, which not only pins these interfaces but also hinders the V partitioning needed for κ growth. Consequently, we achieved an ultrafine κ/γ architecture in the NiCoV0.9 alloy, which surprisingly exhibited an ultrahigh yield strength of 1.6 GPa and a total work-hardening amount of 219 MPa. Our analysis indicates that the hetero-deformation induced (HDI) stress is mainly responsible for the high strength, while the coherent nature of phase boundaries and decent deformability of κ alleviate stress concentration, giving rise to the pronounced work-hardening. Our work highlights the importance of suitable phase selection and delicate substructure tailoring in precipitation engineering, with key findings also useful for enhancing overall mechanical properties in other multicomponent alloys.析出工程是提高合金强度的最有效手段之一,其本质是要求析出物具有一定的变形能力、尺寸细小、分布均匀。然而,对于多组分合金体系,由于潜在析出相的多样性和脆性,化学复杂性给应用这种强化方法带来了很大的困难。在这项工作中,我们展示了化学复杂合金NiCoV原型的沉淀工程。具体来说,通过降低V含量可以避免有害的σ、μ和Heusler相的形成,并设计了两步短期退火来触发均匀的κ成核,同时抑制其快速粗化。发现晶界和相界都可以捕获V原子,这不仅固定了这些界面,而且阻碍了κ生长所需的V分配。因此,我们在NiCoV0.9合金中实现了超细κ/γ结构,令人惊讶的是,该合金具有1.6 GPa的超高屈服强度和219 MPa的总加工硬化量。分析表明,高强度的主要原因是异质变形诱导应力(HDI),而相界的共格性和κ的良好变形性缓解了应力集中,导致加工硬化。我们的工作强调了在沉淀工程中适当的相选择和精细的子结构剪裁的重要性,其关键发现也有助于提高其他多组分合金的整体机械性能。Thin-Walled StructuresA Crashworthiness Design Framework based on Temporal-Spatial Feature Extraction and Multi-Target Sequential ModelingHechen Wei, HaiHua Wang, Ziming Wen, Yong Peng, Hu Wang, Fengchun Sundoi:10.1016/j.tws.2024.112694 基于时空特征提取和多目标序列建模的飞机耐撞设计框架Temporal-spatial crashworthiness design remains a challenging issue in engineering applications. Metamodeling techniques have been widely used to improve design efficiency by reducing the need for extensive experiments or simulations. However, these methods often fail to capture the essential information of temporal and spatial during the dynamical procedure. In this study, a novel multi-target modeling and optimization framework is introduced to overcome these limitations. This framework utilizes autocorrelation functions to identify key temporal-spatial segments, ensuring that the most influential factors are captured, and then builds a metamodel using multi-target regression techniques and partial autocorrelation functions, effectively capturing the complex relationships among different time steps. An adaptive sampling strategy is also employed to generate additional training data according to the objective functions, thereby enhancing the accuracy and robustness of the metamodels. These improvements enable a more accurate and interpretable integration of temporal-spatial information compared to popular methods. The effectiveness of the proposed framework is demonstrated through its successful implementation in optimizing crashworthiness across diverse scenarios: a cylindrical tube, a multi-cell energy-absorbing structure, and a B-pillar designed to withstand side impacts. The results show that the proposed method provides reliable predictions for subsequent optimization tasks and has the potential to address complex crashworthiness design challenges by comprehensively considering temporal-spatial information.时空耐撞性设计在工程应用中一直是一个具有挑战性的问题。元建模技术已被广泛用于通过减少对大量实验或模拟的需要来提高设计效率。然而,这些方法往往不能捕捉到动态过程中重要的时空信息。在本研究中,引入了一种新的多目标建模和优化框架来克服这些局限性。该框架利用自相关函数识别关键的时空片段,确保捕获最重要的影响因素,然后利用多目标回归技术和部分自相关函数构建元模型,有效捕获不同时间步长之间的复杂关系。采用自适应采样策略,根据目标函数生成额外的训练数据,从而提高元模型的准确性和鲁棒性。与流行的方法相比,这些改进使时空信息的整合更加准确和可解释。所提出的框架的有效性通过其在不同场景下的成功实施来证明:圆柱管、多单元吸能结构和b柱设计以承受侧面冲击。结果表明,该方法为后续优化任务提供了可靠的预测,并具有通过综合考虑时空信息来解决复杂耐撞设计挑战的潜力。Microstructure and mechanical properties of WE43 magnesium alloy fabricated by wire-arc additive manufacturingFukang Chen, Xiaoyu Cai, Bolun Dong, Sanbao Lindoi:10.1016/j.tws.2024.112699 线弧增材制造WE43镁合金的组织与力学性能Wire-arc additive manufacturing (WAAM) is emerging as a revolutionary method for fabricating heat-resistant WE43 magnesium alloy (WE43-Mg) components and multiple other Mg alloys. In this study, we successfully utilized cold metal transfer WAAM technology to fabricate high quality single-pass thin-walled WE43-Mg structures. The results show that the microstructure is mainly composed of equiaxed grains, and Mg14Nd2(Y,Gd) is the main second phase distributed along the grain boundaries. The relative density of the sample reaches 99.96%, and the main defects are oxide inclusions. The room temperature yield strength, ultimate tensile strength and elongation are 147.0 MPa, 221.9 MPa and 7.2%, respectively, with anisotropy rates of 1.9%, 2.2% and 3.7%. High-temperature tensile tests conducted at 250°C showed a slight increase in ultimate tensile strength and a significant increase in elongation from 7.2% to 16.8%, representing a 133% improvement. Under these conditions, the proportion of substructure increased significantly, and the proportion of low-angle grain boundaries rose from 3.2% to 69%. The stress-strain curves exhibited pronounced serrated flow behavior, which can be attributed to the interaction between solute atoms and dislocations.电弧增材制造(WAAM)是一种革命性的方法,用于制造耐热WE43镁合金(WE43-Mg)部件和多种其他镁合金。在这项研究中,我们成功地利用冷金属转移WAAM技术制造了高质量的单道薄壁WE43-Mg结构。结果表明:显微组织以等轴晶为主,沿晶界分布的第二相主要为Mg14Nd2(Y,Gd);样品的相对密度达到99.96%,主要缺陷为氧化物夹杂。室温屈服强度、极限抗拉强度和延伸率分别为147.0 MPa、221.9 MPa和7.2%,各向异性率分别为1.9%、2.2%和3.7%。在250℃下进行的高温拉伸试验表明,极限拉伸强度略有提高,伸长率从7.2%显著提高到16.8%,提高了133%。在此条件下,亚结构的比例显著增加,低角度晶界的比例从3.2%上升到69%。应力应变曲线表现出明显的锯齿状流动特征,这可归因于溶质原子与位错的相互作用。The metastructures actuated by rotational motion with quasi-zero stiffness, negative stiffness, and bistabilityDiankun Pan, Shuangfen Tan, Zhimin Zhang, Wenbing Lidoi:10.1016/j.tws.2024.112700转动驱动的元结构具有准零刚度、负刚度和双稳性In this paper, a mechanical metastructure actuated by rotational motion is proposed, which consists of several cosine beams and two supporting frames, with its mechanical properties tuned by the remaining shape of the beam concerning the size of the inner frame. The finite element method combining the experiments is adopted to explore the effect of geometric parameters and identify the variation of mechanical properties with the size of the inner frame, exhibiting different features including positive stiffness, quasi-zero stiffness, negative stiffness, and bistability. An angle difference describing the geometric relationship between the beam and the inner frame is employed to relate the mechanical properties. For the maximized angle difference, the quasi-zero stiffness is obtained and the bistability is easy to capture when the angle difference is around zero. Next, the quasi-zero stiffness feature and bistability are investigated in parametric analysis concerning the shape of the beam and offset distance, respectively, and the double-layer structures with two-step quasi-zero stiffness feature or multistability are designed to expand the design space of the proposed structure. The metastructure in this work provides a new option for designing multistable structures with rotational deformation freedom and developing torsional vibration isolators.本文提出了一种由旋转运动驱动的力学元结构,该结构由若干余弦梁和两个支撑框架组成,其力学性能由梁的剩余形状与内框架的大小有关。采用有限元法结合实验,探讨几何参数的影响,识别力学性能随内框架尺寸的变化,表现出正刚度、准零刚度、负刚度和双稳性的不同特征。采用描述梁与内框架之间几何关系的角差来描述其力学性能。对于最大的角差,获得准零刚度,当角差在零附近时容易捕获双稳性。其次,在参数化分析中分别研究了梁的形状和偏移距离的准零刚度特征和双稳定性特征,并设计了具有两步准零刚度特征或多重稳定性的双层结构,以扩大结构的设计空间。本文研究的元结构为设计具有旋转变形自由的多稳定结构和研制扭振隔振器提供了新的选择。Impact Resistance Performance of 3D Woven TZ800H Plates with Different Textile ArchitectureQingbo Guo, Yachen Xie, Mengqi Yuan, Hong Zhang, Tao Wang, Guangyan Huangdoi:10.1016/j.tws.2024.112701不同纺织结构的三维编织TZ800H板的抗冲击性能Two typical methods commonly used to improve the mechanical properties and impact resistance properties of 3D woven composites are studied, namely weave pattern and layered architectures. The mechanical property and impact resistance performance were studied by utilizing the quasi-static compressive test, split Hopkinson pressure bar (SHPB) test and ballistic impact test. The compressive responses in warp and weft directions with different strain rates 0.001, 500 and 1300 s-1 were presented and analysed, providing strain rate influence on the material strength of different 3D woven composites. The impact resistance performance including damage mode, ballistic limit and specific energy absorption of three structures were discussed through impact tests. The results reveal that as the strain rate increases, the compressive strength and Young's modulus in both directions of 3D woven composites exhibit a significant increase. The compressive strength and modulus in the warp direction of the composites can be enhanced by using shallow interlocking of the warp tow or layered architectures. However, the two methods degrade the failure strain and weaken the strain rate strengthening effect of compressive strength in the weft direction, resulting in a significant decrease in the average strain energy density. For the ballistic impact case, the crimp of warp tows would decrease its load-bearing capacity, while resisting matrix crack growth under the ballistic impact. The significant reduction in the average strain energy density in the weft direction leads to a decrease in ballistic limit and specific energy absorption capacity under ballistic impact.研究了提高三维编织复合材料力学性能和抗冲击性能的两种典型方法,即编织模式和分层结构。通过准静态压缩试验、劈裂霍普金森压杆(SHPB)试验和弹道冲击试验,研究了复合材料的力学性能和抗冲击性能。分析了不同应变率(0.001、500和1300 s-1)下经纬方向的压缩响应,给出了应变率对不同三维机织复合材料强度的影响。通过冲击试验,讨论了三种结构的抗冲击性能,包括损伤模式、弹道极限和比能吸收。结果表明:随着应变速率的增大,三维编织复合材料的抗压强度和双向杨氏模量均有显著提高;采用经纱束的浅互锁或分层结构可以提高复合材料经纱方向的抗压强度和模量。但两种方法在纬向均降低了破坏应变,减弱了抗压强度的应变率强化效果,导致平均应变能密度显著降低。在弹道冲击情况下,翘曲束的卷曲会降低其承载能力,但会抵抗弹道冲击下基体裂纹的扩展。纬向平均应变能密度的显著降低导致了弹道极限和弹道冲击下的比能吸收能力的降低。Nonlinear deflection and thermal post-buckling analysis of sector annular poroelastic composite nanodisks using mathematical simulation and machine learning algorithmZhijun Xu, Yang Han, Mohammed El-Meligy, Khalil El Hindi, Hamed Safarpourdoi:10.1016/j.tws.2024.112702基于数学模拟和机器学习算法的扇形环形孔弹性复合材料纳米盘非线性挠曲和热后屈曲分析Poroelastic nanodisks offer mechanical engineers enhanced control over material properties, enabling precise tuning of mechanical responses for advanced applications in sensors, actuators, and nano-mechanical systems. This study presents a comprehensive analysis of thermally-affected multi-directional functionally graded sector annular nanodisks, focusing on their thermal-post buckling and nonlinear deflection behaviors. Utilizing a refined quasi-3D logarithmic theory (RQLT), the study incorporates the effects of Von-Karman nonlinearity to accurately capture the large deflection responses of these advanced nanostructures under thermal loading. The material properties of the nanodisks are graded in multiple directions, enhancing their ability to withstand thermal stresses and maintain structural integrity. To solve the complex governing equations derived from the RQLT, a nonlinear discrete-singular convolution (DSC) solution procedure is employed. This novel numerical technique allows for precise computation of the nonlinear deformation and stability characteristics of the nanodisks, providing insights into their behavior under various thermal conditions. The nonlinear DSC method's ability to handle singularities and discontinuities makes it particularly suitable for this type of advanced analysis. After obtaining the mathematics simulation data, a machine learning algorithm is used to test, train, and validate the results for future analysis of the mentioned problem with low computational cost. The results demonstrate the critical influence of thermal gradients and material gradation on the post-buckling and nonlinear deflection responses of sector annular nanodisks. The interplay between thermal effects and material properties highlights the necessity for incorporating multi-directional functionally graded materials in the design of high-performance nanostructures. This study's findings are pivotal for the development of next-generation nanodisks used in thermal environments, offering a robust analytical and computational framework for their assessment and optimization.多孔弹性纳米盘为机械工程师提供了对材料性能的更好控制,能够精确调整传感器、致动器和纳米机械系统中先进应用的机械响应。本研究对热影响的多向功能梯度扇形环形纳米片进行了综合分析,重点研究了其热后屈曲和非线性挠曲行为。利用一种精细的准三维对数理论(RQLT),该研究结合了Von-Karman非线性效应,以准确捕捉这些先进纳米结构在热载荷下的大挠度响应。纳米片的材料性能在多个方向上进行了分级,增强了它们承受热应力和保持结构完整性的能力。为了求解由RQLT导出的复杂控制方程,采用了非线性离散-奇异卷积(DSC)求解过程。这种新颖的数值技术可以精确计算纳米片的非线性变形和稳定性特征,从而深入了解它们在各种热条件下的行为。非线性DSC方法处理奇点和不连续的能力使其特别适合于这种类型的高级分析。在获得数学模拟数据后,使用机器学习算法对结果进行测试、训练和验证,从而以较低的计算成本对上述问题进行后续分析。结果表明,热梯度和材料梯度对扇形环形纳米片的后屈曲和非线性挠曲响应有重要影响。热效应与材料性能之间的相互作用凸显了在高性能纳米结构设计中引入多向功能梯度材料的必要性。这项研究的发现对于在热环境中使用的下一代纳米盘的开发至关重要,为它们的评估和优化提供了一个强大的分析和计算框架。来源:复合材料力学仿真Composites FEM

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