共查询到20条相似文献,搜索用时 10 毫秒
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Wenlin HE Qishan ZANG+ Zhongguang WANG State Key Laboratory for Fatigue Fracture of Materials 《材料科学技术学报》1993,9(2):107-110
The distributions of plastic strain near grain boundaries induced by fatigue loading were investigatedby the fiducial grid method in pure aluminum specimens, and the resulted grain boundary sliding(GBS) was systematically analysed. The results show that the strain field near a grain boundary isnonuniform. GBS is restricted by the junction of grain boundaries and causes discontinuities of bothdisplacement and strain. A peak value of shear strain was created in short-range area across the grainboundary. GBS plays an important role in cyclic softening and secondary hardening. The control fac-tor of GBS is the relative orientation between two grains and the macro orientation of the grainboundary rather than the ∑ value of the boundary. 相似文献
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Michael Bäurer Heike Störmer Dagmar Gerthsen Michael J. Hoffmann 《Advanced Engineering Materials》2010,12(12):1230-1234
The macroscopic properties of most materials are strongly influenced by grain size. In ceramic materials the microstructure usually results from the sintering process. Understanding the basic mechanisms of grain growth on an atomic length scale in ceramics would be beneficial to tailor the microstructure for improved macroscopic performance of devices. A method is presented using grain growth experiments to select samples for closer examination of grain boundaries with transmission electron microscopy. The growth experiments are used to identify temperatures were changes at grain boundaries occur at high temperature. Subsequently samples of interest are investigated using transmission electron microscopy (TEM) methods. The correlation between TEM results and changes in grain growth behavior can be used to gain closer insight into the processes occurring during grain growth at an atomic length scale. Strontium titanate is used as model system to demonstrate the combination of growth experiments with TEM results. Normal grain growth shows two distinct drops in growth rate in the temperature range between 1 300 and 1 425 °C, independent of the A‐site to B‐site stoichiometry of the perovskite. In previous studies a high preference for grain boundary planes oriented parallel to the 100 direction of one of the adjacent grains was found in the high temperature regime. This study shows that the preference does not exist in the low temperature regime possibly explaining the change in grain growth rate. 相似文献
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We propose a numerical simulation technique to model the process of diffusional creep and stress relaxation that occurs in
Cu-damascene interconnects of integrated circuit devices in processing stage. The mass flow problem is coupled to the stress
analysis through vacancy flux and equilibrium vacancy concentration. The technique is implemented in a software package that
seamlessly integrates the problem-oriented code with commercially available finite element program MSC.Marc. It is utilized
to model the Coble creep phenomenon by introducing the nanoscale grain boundary region having the thickness on the order of
several layers of atoms. As an illustration, the two-dimensional problem of stress relaxation in a single grain subjected
to prescribed displacements and tractions is examined. 相似文献
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Zachary H. Aitken Dongchan Jang Christopher R. Weinberger Julia R. Greer 《Small (Weinheim an der Bergstrasse, Germany)》2014,10(1):100-108
Room‐temperature uniaxial compressions of 900‐nm‐diameter aluminum bi‐crystals, each containing a high‐angle grain boundary with a plane normal inclined at 24° to the loading direction, revealed frictional sliding along the boundary plane to be the dominant deformation mechanism. The top crystallite sheared off as a single unit in the course of compression instead of crystallographic slip and extensive dislocation activity, as would be expected. Compressive stress strain data of deforming nano bicrystals was continuous, in contrast to single crystalline nano structures that show a stochastic stress strain signature, and displayed a peak in stress at the elastic limit of ~176 MPa followed by gradual softening and a plateau centered around ~125 MPa. An energetics‐based physical model, which may explain observed room‐temperature grain boundary sliding, in presented, and observations are discussed within the framework of crystalline nano‐plasticity and defect microstructure evolution. 相似文献
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Formation Energy Profiles of Oxygen Vacancies at Grain Boundaries in Perovskite-Type Electroceramics
Daniel Mutter Cong Tao Daniel F. Urban Christian Elsässer 《Advanced Engineering Materials》2023,25(18):2201847
Oxygen vacancy formation energies play a major role in the electric field-assisted abnormal grain growth of technologically relevant polycrystalline perovskite phases. The underlying effect on the atomic scale is assumed to be a redistribution of cationic and anionic point defects between grain boundaries (GBs) and the bulk interior regions of the grains due to different defect formation energies in the structurally different regions, accompanied by the formation of space charge zones. Using atomistic calculations based on classical interatomic potentials, optimized structures of the symmetric tilt GBs Σ5(210)[001] and Σ5(310)[001], and of the asymmetric tilt GB (430)[001]||(100)[001] in the electroceramic perovskite materials SrTiO3, BaTiO3, and BaZrO3, are derived and discussed. Profiles of oxygen vacancy formation energies across those GBs are presented and their dependence on composition and GB type is discussed. 相似文献
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Simulation on Grain Boundary Sliding during Superplastic Deformation Using Molecular Dynamics Method
JitaiNIU LihongHAN ChonghaoWOO 《材料科学技术学报》2003,19(2):177-179
Grain growth and grain boundary sliding are the two main superplastic deformation mechanisms. In the paper, simulation work is focused on the sliding of a∑3 (111) symmetric twist coincidence grain boundary, a ∑13 (110) asymmetric tilt coincidence grain boundary, and a ∑3 (110) symmetric tilt coincidence grain boundary in AI, and the energies of grain boundary for each of equilibrium configurations are computed. An embedded atom method (EAM) potential was used to simulate the atomic interactions in a bicrystal containing more than 2000 atoms. At 0 K, the relationships between total potential energy and time steps for ∑3 (111) symmetric twist coincidence grain boundary and ∑3 (110) symmetric tilt coincidence grain boundary during sliding at 2 m/s represent the periodic characteristic. However, the relationship between total potential energy and time steps for ∑13 (110) asymmetric tilt coincidence grain boundary represents the damp surge characteristic. It is found that grain boundary sliding for ∑3 (110) symmetric tilt coincidence grain boundary is coupled with apparent grain boundary migration. 相似文献
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Andrew P. Lange Amit Samanta Tammy Y. Olson Selim Elhadj 《Small (Weinheim an der Bergstrasse, Germany)》2020,16(29)
Oriented attachment (OA) has become a well‐recognized mechanism for the growth of metal, ceramic, and biomineral crystals. While many computational and experimental studies of OA have shown that particles can attach with some misorientation then rotate to remove adjoining grain boundaries, the underlying atomistic pathways for this “imperfect OA” process remain the subject of debate. In this study, molecular dynamics and in situ transmission electron microscopy (TEM) are used to probe the crystallographic evolution of up to 30 gold nanoparticles during aggregation. It is found that Imperfect OA occurs because 1) grain boundaries become quantized when their size is comparable to the separation between constituent dislocations and 2) kinetic barriers associated with the glide of grain boundary dislocations are small. In support of these findings, TEM experiments show the formation of a single crystal aggregate after annealing nine initially misoriented, agglomerated particles with evidence of dislocation activity and twin formation during particle/grain alignment. These observations motivate future work on assembled nanocrystals with tailored defects and call for a revision of Read–Shockley models for grain boundary energies in nanocrystalline materials. 相似文献
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H. Xin D. E. Oates G. Dresselhaus M. S. Dresselhaus 《Journal of Superconductivity》2001,14(5):637-649
We report measurements and modeling of microwave-frequency vortex dynamics in YBCO grain boundaries that are modeled as long Josephson junctions by numerically solving the sine-Gordon equation. YBCO bicrystal grain boundaries with misorientation angles from 2 to 24° have been studied experimentally using microwave resonator measurement techniques. Comparison between the measured and calculated microwave impedance and the harmonic generation of the 24° grain boundaries indicates that the 24° grain boundaries are weakly coupled long Josephson junctions. The corresponding results of lower angle grain boundaries are also presented. A transition from strong-coupled single-crystal-like behavior to weak-coupled Josephson-junction-like behavior has been observed in a 10° grain boundary between 55 and 75 K. The physics of Josephson-vortex dynamics and its impact on the microwave properties of superconducting thin films are discussed. 相似文献
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An investigation of the phenomenon ofhydrogen trapping at grain boundaries in 18 Nimaraging steel has been carried out by the thermalhydrogen evolution technique.Grain boundary on-ly acts as a trapping site of hydrogen at low temper-ature region,and the peak of its hydrogen evolutionfrom it is observed at 405K with 3.00K/rain heat-ing rate and with specimen of 0.55mm thick.Thetrap activation energy of hydrogen escaped fromgrain boundary is estimated as 14.2kJ/mol.Hydrogen trapping at grain boundary is mainly associated with segregated hydrogen by impurities,and its behaviour is primarily the interaction be-tween hydrogen and the hydrostatic stress field ofthe grain boundary. 相似文献
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Maolin Yu Zhili Hu Jingzhuo Zhou Yang Lu Wanlin Guo Zhuhua Zhang 《Small (Weinheim an der Bergstrasse, Germany)》2023,19(7):2205593
The coalescence of randomly distributed grains with different crystallographic orientations can result in pervasive grain boundaries (GBs) in 2D materials during their chemical synthesis. GBs not only are the inherent structural imperfection that causes influential impacts on structures and properties of 2D materials, but also have emerged as a platform for exploring unusual physics and functionalities stemming from dramatic changes in local atomic organization and even chemical makeup. Here, recent advances in studying the formation mechanism, atomic structures, and functional properties of GBs in a range of 2D materials are reviewed. By analyzing the growth mechanism and the competition between far-field strain and local chemical energies of dislocation cores, a complete understanding of the rich GB morphologies as well as their dependence on lattice misorientations and chemical compositions is presented. Mechanical, electronic, and chemical properties tied to GBs in different materials are then discussed, towards raising the concept of using GBs as a robust atomic-scale scaffold for realizing tailored functionalities, such as magnetism, luminescence, and catalysis. Finally, the future opportunities in retrieving GBs for making functional devices and the major challenges in the controlled formation of GB structures for designed applications are commented. 相似文献
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Ni36CrTiAl弹性合金晶界不连续析出相变动力学的研究 总被引:2,自引:0,他引:2
本文对高弹性合金NI_(36)CrTiAl的晶界不连续析出相变进行了动力学研究.动力学分析指出:在特定条件下,不连续析出相变的总体动力学不符合动力学定律(Avrami方程),而是符合与纤维组织发展相对应的线性动力学。 相似文献
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一种考虑晶界能各向异性模拟晶粒长大的Monte Carlo方法 总被引:1,自引:2,他引:1
一般的Monte Carlo模型都没有考虑晶界能的差异。奉研究根据晶界两侧晶粒的取向差及其与重合晶界的关系提出了晶界能分布的连续函数表达式,并且将其应用于Monte Carlo模型模拟晶粒长大过程。引入了该能量函数的Monte Carlo模型模拟的结果显示,随着晶粒长大的进行,具有低能量的重合晶界百分数增大,同时该模型模拟的重合晶界百分数明显地强于未引入该能量函数的Monte Carlo模型模拟的结果。并且采用该模型模拟的微观组织更加接近于实际观察到的平衡组织。 相似文献
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Yuandong DIAO Shenyang Institute of Chemical Technology Shenyang ChinaMingzhou CAO Xiaojing WAN Institute of Metal Research Academia Sinica Shenyang China 《材料科学技术学报》1993,9(5):385-387
In present work,Fe-3%Si alloy specimens with various degrees of cold working and various grainsizes were chosen to determine the effect of cold working and grain sizes on the hydrogendiffusivities by electrochemical permeation method and the mechanism of hydrogen trapping by dis-ocations and grain boundaries is discussed. 相似文献
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本文通过扫描电镜(SEM)观察断口形貌和高分辨电镜(HREM)观察晶界形貌,研究了锆英石陶瓷的晶界特性对其高温力学性能的影响.结果表明:锆英石陶瓷中两晶粒间的晶界上未观察到玻璃相存在,而在三晶界交汇处则发现少量玻璃相,引起锆英石陶瓷在高温下力学性能下降.与此同时,断裂方式也从常温下的穿晶断裂转变成为高温条件下的沿晶断裂. 相似文献