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Induction mechanisms of high-density nano twins during solidification process:Reducing stacking fault energy ofγphase by Re and forming highly mismatched B2(Re)/α_(2)interface
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作者 Kexuan Li Hongze Fang +4 位作者 Lingyan Zhou Xiaokang Yang Xianfei Ding Yongchun Zou Ruirun Chen 《Journal of Materials Science & Technology》 2025年第13期269-284,共16页
It is extremely difficult to introduce high-density nano twins during the solidification process of TiAl alloy.In this study,high-density nanotwins are inducted in the as-cast Ti48Al2Cr alloyed by adding Re element.Ph... It is extremely difficult to introduce high-density nano twins during the solidification process of TiAl alloy.In this study,high-density nanotwins are inducted in the as-cast Ti48Al2Cr alloyed by adding Re element.Phase transformation,morphology characteristics of nano twins,compressive and tensile proper-ties,and the related mechanisms have been studied.Results show that B2 phase enriched with Re tends to precipitate along theα_(2)/γinterface within lamellar colony.The stacking fault energy(SFE)ofγphase decreases from 43 mJ/m^(2) to 16 mJ/m^(2) as Re content increases from 0 at.%to 0.6 at.%,decreasing the crit-ical shear stress for twin formation.Compared to the mismatch value ofα_(2)/γinterface(0.004),which of B2/α_(2) and B2/γinterfaces increase to 0.247 and 0.149,respectively.Driven by high interfacial stress,high-density dislocations are generated at the B2/α_(2) interface,providing the dislocation slip channel for the formation of stacking faults(SFs)and nanotwins at the B2/γinterface.Therefore,the mechanism of inducting high-density nanotwins is to reduce the stacking fault energy ofγphase by Re and form highly mismatched B2/α_(2) interface.Compressive strength and the strain increase from 1723 MPa to 2398 MPa and 29%to 39%as Re content increases from 0 at.%to 0.6 at.%,respectively.Tensile strength increases from 356 MPa to 452 MPa without sacrificing plasticity.The improvement in strength and plasticity are attributed to the nano-twinning strengthening and interfacial thermal mismatch strengthening.Forming nanotwins during solidification process serve as the nucleation sites for newly formed twins during de-formation process,increasing the deformation tolerance of TiAl alloy. 展开更多
关键词 TiAl alloy NANOtwins stacking fault energy Phase interface Microstructure evolution Mechanical properties
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Quantifying the strengthening effect of stacking faults in a nonequiatomic CoCrNi alloy 被引量:2
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作者 Z.Y.Ni Z.Y.Li +1 位作者 S.Y.Peng Y.Z.Tian 《Journal of Materials Science & Technology》 2025年第18期321-326,共6页
1.Introduction The strength of metallic materials can be ameliorated by introducing boundaries,precipitates,or defects as obstacles to dislocation movement[1].However,high strength is generally obtained at the sacrifi... 1.Introduction The strength of metallic materials can be ameliorated by introducing boundaries,precipitates,or defects as obstacles to dislocation movement[1].However,high strength is generally obtained at the sacrifice of plastic deformation capability[2].Lately,many strategies have been proposed to improve the comprehensive properties of materials,among which manipulating stacking fault energy(SFE)is effective[3–5]. 展开更多
关键词 nonequiatomic CoCrNi alloy metallic materials plastic deformation capability latelymany dislocation movement howeverhigh stacking faults improve comprehensive properties plastic deformation material strength
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Simultaneously improving intermediate-temperature strength and ductility of Ni-Co-based superalloy by tailoring high-density stacking faults
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作者 Yu-bi GAO Xing-mao WANG +6 位作者 Jia-yu XU Bo LIU Bing ZHEN Yu-tian DING Bin GAN Ting-biao GUO Jun-zhao LIU 《Transactions of Nonferrous Metals Society of China》 2025年第11期3761-3777,共17页
High-density stacking faults(SFs)were introduced into a novel Ni-Co-based superalloy through warm rolling at 300-500°C,and the effects of SFs on its tensile properties at intermediate temperatures(650 and 750... High-density stacking faults(SFs)were introduced into a novel Ni-Co-based superalloy through warm rolling at 300-500°C,and the effects of SFs on its tensile properties at intermediate temperatures(650 and 750°C)were investigated.The results indicated that all warm rolled specimens have high-density SFs and Lomer-Cottrell locks compared with the initial specimens.Meanwhile,the simultaneous improvement of intermediate-temperature strength and ductility of alloys can be achieved by high-density SFs.In particular,the specimen rolled at 300°C exhibited a superior combination of high strength(yield and ultimate tensile strengths of(1311±18)and(1462±25)MPa respectively at 650°C,and(1180±17)and(1293±15)MPa respectively at 750°C)and high fracture elongation((26.7±2.5)%at 650°C and(10.7±1.3)%at 750°C).The high strengths and facture elongations of all warm-rolled specimens were primarily attributed to the interaction of pre-existingγ′phases,high-density SFs and Lomer-Cottrell locks with dislocations,as well as to the formation of high-density deformation nano-twins during tensile loading. 展开更多
关键词 Ni-Co-based superalloy warm rolling stacking fault Lomer-Cottrell lock deformation nano-twins mechanical properties
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Needle-like χ phase precipitation induced by stacking fault in novel Co-based superalloys
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作者 Qiu-zhi GAO Jun-ru WANG +4 位作者 Xu-ming ZHANG Qing-shuang MA Song-lin LI Hui-jun LI Hong-tao ZHU 《Transactions of Nonferrous Metals Society of China》 2025年第10期3402-3413,共12页
To explain the precipitation mechanism ofχphase in Co-based superalloys,the microstructural evolution of Co−Ti−Mo superalloys subjected to aging was investigated by X-ray diffraction(XRD),scanning electron microscope... To explain the precipitation mechanism ofχphase in Co-based superalloys,the microstructural evolution of Co−Ti−Mo superalloys subjected to aging was investigated by X-ray diffraction(XRD),scanning electron microscope(SEM)and transmission electron microscope(TEM).The results show that the needle-likeχphase is mainly composed ofD0_(19)-Co_(3)(Ti,Mo),which is transformed from L1_(2-γ′)phase,and a specific orientation relationship exists between them.χphase is nucleated through the shearing ofγ′phase due to the influence of stacking fault.The crystal orientation relationship between L1_(2) andD0_(19)can be confirmed as{111}L1_(2)//{0001}_(D0_(19)),and<112>_(L1_(2))//<1100>_(D0_(19)).The growth ofD0_(19-χ)phase depends on the diffusions of Ti and Mo,and consumes a large number of elements.This progress leads to the appearance ofγ′precipitation depletion zone(PDZ)aroundD0_(19-χ)phase.The addition of Ni improves the stability of L1_(2-γ′)phase and the mechanical properties of Co-based superalloys. 展开更多
关键词 Co-based superalloy χphase precipitation γ′phase stacking fault crystal orientation relationship
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Stacking fault,dislocation dissociation,and twinning in Pt_(3) Hf compounds:a DFT study 被引量:4
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作者 Shun-Meng Zhang Kai Xiong +3 位作者 Cheng-Chen Jin Zong-Bo Li Jun-Jie He Yong Mao 《Rare Metals》 SCIE EI CAS CSCD 2021年第4期1020-1030,共11页
The Pt3Hf compound plays a decisive role in strengthening Pt-Hf alloy systems.Evaluating the stacking fault,dislocation dissociation,and twinning mechanisms in Pt3Hf is the first step in understanding its plastic beha... The Pt3Hf compound plays a decisive role in strengthening Pt-Hf alloy systems.Evaluating the stacking fault,dislocation dissociation,and twinning mechanisms in Pt3Hf is the first step in understanding its plastic behavior.In this work,the generalized stacking fault energies(GSFE),including the complex stacking fault(CSF),the superlattice intrinsic stacking fault(SISF),and the antiphase boundary(APB) energies,are calculated using firstprinciples calculations.The dislocation dissociation,deformation twinning,and yield behavior of Pt3Hf are discussed based on GSFE after their incorporation into the Peierls-Nabarro model.We found that the unstable stacking fault energy(γus) of(111)APB is lower than that of SISF and(010) APB,implying that the energy barrier and critical stress required for(111)APB generation are lower than those required for(010)APB formation.This result indicates that the a<110> superdislocation will dissociate into two collinear a/2<110> superpartial dislocations.The a/2<110> dislocation could further dissociate into a a/6<112> Shockley dislocation and a a/3<211> superShockley dislocation connected by a SISF,which results in an APB→SISF transformation.The study also discovered that Pt3 Hf exhibits normal yield behavior,although the cross-slip of a a/2<110> dislocation is not forbidden,and the anomalous yield criterion is satisfied.Moreover,it is observed that the energy barrier and critical stress for APB formation increases with increasing pressure and decreases as the temperature is elevated.When the temperature rises above 1400 K,the a/2<110> dislocation slipping may change from the {111} planes to the {100} planes. 展开更多
关键词 Platinum alloys stacking fault energy Dislocation dissociation twinNING FIRST-PRINCIPLES
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Fault Identification Method for In-Core Self-Powered Neutron Detectors Combining Graph Convolutional Network and Stacking Ensemble Learning
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作者 LIN Weiqing LU Yanzhen +1 位作者 MIAO Xiren QIU Xinghua 《Journal of Shanghai Jiaotong university(Science)》 2025年第5期1018-1027,共10页
Self-powered neutron detectors(SPNDs)play a critical role in monitoring the safety margins and overall health of reactors,directly affecting safe operation within the reactor.In this work,a novel fault identification ... Self-powered neutron detectors(SPNDs)play a critical role in monitoring the safety margins and overall health of reactors,directly affecting safe operation within the reactor.In this work,a novel fault identification method based on graph convolutional networks(GCN)and Stacking ensemble learning is proposed for SPNDs.The GCN is employed to extract the spatial neighborhood information of SPNDs at different positions,and residuals are obtained by nonlinear fitting of SPND signals.In order to completely extract the time-varying features from residual sequences,the Stacking fusion model,integrated with various algorithms,is developed and enables the identification of five conditions for SPNDs:normal,drift,bias,precision degradation,and complete failure.The results demonstrate that the integration of diverse base-learners in the GCN-Stacking model exhibits advantages over a single model as well as enhances the stability and reliability in fault identification.Additionally,the GCN-Stacking model maintains higher accuracy in identifying faults at different reactor power levels. 展开更多
关键词 self-powered neutron detector(SPND) graph convolutional network(GCN) stacking ensemble learning fault identification
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Basal stacking fault induced twin boundary gliding,twinning disconnection and twin growth in hcp Ti from the first-principles 被引量:3
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作者 Qi QIAN Zheng-qing LIU +3 位作者 Yong JIANG Yi-ren WANG Xing-long AN Min SONG 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2021年第2期382-390,共9页
First-principles calculations were performed to investigate the structures and energetics of {101n} coherent twin boundaries(CTBs) and glide twin boundaries(GTBs) in hexagonal close-packed(hcp) Ti. The formation mecha... First-principles calculations were performed to investigate the structures and energetics of {101n} coherent twin boundaries(CTBs) and glide twin boundaries(GTBs) in hexagonal close-packed(hcp) Ti. The formation mechanism of GTBs and their correlation with twin growth were fundamentally explored. Results suggested that GTBs can form from the gliding of CTBs, through their interaction with basal stacking fault. The gliding eventually restored the CTB structures by forming a pair of single-layer twinning disconnections. The pile-up of twinning disconnections should be responsible for the wide steps at twin boundaries as observed in high-resolution transmission electron microscopy, which can further promote twin growth. Possible effects of various alloying elements on pinning twin boundaries were also evaluated, to guide the strengthening design of Ti alloys. 展开更多
关键词 twin boundary stacking fault twinning disconnection twin growth first principles
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Effects of twin and stacking faults on the deformation behaviors of Al nanowires under tension loading 被引量:2
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作者 安敏荣 宋海洋 苏锦芳 《Chinese Physics B》 SCIE EI CAS CSCD 2012年第10期349-354,共6页
The effects of twin spacing and temperature on the deformation behavior of nanotwinned Al under tensile loading are investigated using a molecular dynamic(MD) simulation method.The result shows that the yield streng... The effects of twin spacing and temperature on the deformation behavior of nanotwinned Al under tensile loading are investigated using a molecular dynamic(MD) simulation method.The result shows that the yield strength of nanotwinned Al decreases with the increase of twin spacing,which is related to the repulsive force between twin boundary and the dislocation.The result also shows that there is no strain-hardening at the yield point.On the contrary,the stress is raised by strain hardening in the plastic stage.In addition,we also investigate the effects of stacking fault thickness and temperature on the yield strength of the Al nanowire.The simulation results indicate that the stacking fault may strengthen the Al nanowire when the thickness of the stacking fault is below a critical value. 展开更多
关键词 molecular dynamic simulation deformation twin stacking fault
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High density stacking faults of ■ compression twin in magnesium alloys 被引量:1
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作者 Bo Zhou Manling Sui 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2019年第10期2263-2268,共6页
■ compression twins with high density stacking faults were studied at atomic scale using Cscorrection transmission electron microscopy. On one side of the ■ twin boundary, there were many steps arranged alternately ... ■ compression twins with high density stacking faults were studied at atomic scale using Cscorrection transmission electron microscopy. On one side of the ■ twin boundary, there were many steps arranged alternately with the coherent twin boundaries. Most of the steps were linked with stacking faults inside twins. Burgers vector of twinning dislocations and the mismatch strain at steps were characterized. Due to the compressive mismatch strain at steps, the high density stacking faults inside twins were formed at twin tips during twinning process. The localized strain at the steps would be related to the crack nucleation in magnesium alloys. 展开更多
关键词 MAGNESIUM twin stacking faultS High resolution transmission electron MICROSCOPY
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Stacking fault energy,yield stress anomaly, and twinnability of Ni_3Al:A first principles study 被引量:1
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作者 刘利利 吴小志 +2 位作者 王锐 李卫国 刘庆 《Chinese Physics B》 SCIE EI CAS CSCD 2015年第7期407-414,共8页
Using first principles calculations combined with the quasiharmonic approach, we study the effects of temperature on the elastic constants, generalized stacking fault energies, and generalized planar fault energies of... Using first principles calculations combined with the quasiharmonic approach, we study the effects of temperature on the elastic constants, generalized stacking fault energies, and generalized planar fault energies of Ni3Al. The antiphase boundary energies, complex stacking fault energies, superlattice intrinsic stacking fault energies, and twinning energies decrease slightly with temperature. Temperature dependent anomalous yield stress of Ni3Al is predicted by the energybased criterion based on elastic anisotropy and antiphase boundary energies. It is found that p increases with temperature and this can give a more accurate description of the anomalous yield stress in Ni3Al. Furthermore, the predicted twinnablity of Ni3Al is also decreasing with temperature. 展开更多
关键词 NI3AL stacking fault energy anomalous yield stress twinnability
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Effect of stacking fault energy on mechanical properties of ultrafine-grain Cu and Cu-Al alloy processed by cold-rolling 被引量:6
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作者 伞星源 梁晓光 +2 位作者 程莲萍 沈黎 朱心昆 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第4期819-824,共6页
Cu,Cu-2.2%Al and Cu-4.5%Al with stacking fault energies(SFE) of 78,35 and 7 mJ/m2 respectively were processed by cold-rolling(CR) at liquid nitrogen temperature(77 K) after hot-rolling.X-ray diffraction measurem... Cu,Cu-2.2%Al and Cu-4.5%Al with stacking fault energies(SFE) of 78,35 and 7 mJ/m2 respectively were processed by cold-rolling(CR) at liquid nitrogen temperature(77 K) after hot-rolling.X-ray diffraction measurements indicate that a decrease in SFE leads to a decrease in crystallite size but increase in microstrain,dislocation and twin densities of the CR processed samples.Tensile tests at room temperature indicate that as the stacking fault energy decreases,the strength and ductility increase.The results indicate that decreasing stacking fault energy is an optimum method to improve the ductility without loss of strength. 展开更多
关键词 CU Cu alloys COLD-ROLLING tensile tests stacking fault energy
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First-principles study of stacking fault energies in Ni_3Al intermetallic alloys 被引量:5
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作者 温玉锋 孙坚 黄健 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第3期661-664,共4页
The first-principles method based on the projector augmented wave method within the generalized gradient approximation was employed to calculate the superlattice intrinsic stacking fault(SISF) and complex stacking f... The first-principles method based on the projector augmented wave method within the generalized gradient approximation was employed to calculate the superlattice intrinsic stacking fault(SISF) and complex stacking fault(CSF) energies of the binary Ni3Al alloys with different Al contents and the ternary Ni3Al intermetallic alloys with addition of alloying elements,such as Pd,Pt,Ti,Mo,Ta,W and Re.The results show that the energies of SISF and CSF increase significantly with increase of Al contents in Ni3Al.Addition of Pd and Pt occupying the Ni sublattices does not change the SISF and CSF energies of Ni3Al markedly in comparison with the Ni-23.75Al alloy.While addition of alloying elements,such as Ti,Mo,Ta,W and Re,occupying the Al sublattices dramatically increases the SISF and CSF energies of Ni3Al.The results suggest that the energies of SISF and CSF are dependent both on the Al contents and on the site occupancy of the ternary alloying element in Ni3Al intermetallic alloys. 展开更多
关键词 NI3AL superlattice intrinsic stacking fault complex stacking fault alloying element FIRST-PRINCIPLES
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Stacking算法对凝给水系统故障诊断的适用性研究 被引量:1
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作者 陈砚桥 孙彤 顾任利 《舰船科学技术》 北大核心 2025年第1期138-142,共5页
针对船用凝给水系统设备之间耦合关系较强,对该系统的研究只是选取部分参数而并非像设备一样基本涵盖全部特征参数,且该系统在实际运行过程中可以通过自调节来掩盖某些已发生的故障从而无法准确形成运行参数和故障间的映射关系这一现状... 针对船用凝给水系统设备之间耦合关系较强,对该系统的研究只是选取部分参数而并非像设备一样基本涵盖全部特征参数,且该系统在实际运行过程中可以通过自调节来掩盖某些已发生的故障从而无法准确形成运行参数和故障间的映射关系这一现状,以传统单一机器学习算法为基础,通过拓展建立针对Stacking算法的多分类器性能评价指标,准确寻找运行参数和故障之间的映射关系,解决了多分类器性能评价难题。并利用样本数据设计出比较Stacking算法和单一算法综合性能的试验方法,验证了Stacking模型在凝给水系统故障诊断任务中的适用性和优越性。 展开更多
关键词 凝给水系统 stacking算法 故障诊断
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基于递归分析和Stacking集成学习的轴承故障诊断方法 被引量:1
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作者 黄静静 武文媗 +2 位作者 田宇 王灿 王茂发 《南京信息工程大学学报》 北大核心 2025年第2期235-244,共10页
为了更加有效地挖掘滚动轴承信号中所具有的非线性信息并提高轴承故障诊断的准确率,提出一种基于递归分析和Stacking集成学习的轴承故障诊断方法.通过递归分析理论将轴承信号中的非线性信息映射到二维递归图中,分别从图像识别和递归定... 为了更加有效地挖掘滚动轴承信号中所具有的非线性信息并提高轴承故障诊断的准确率,提出一种基于递归分析和Stacking集成学习的轴承故障诊断方法.通过递归分析理论将轴承信号中的非线性信息映射到二维递归图中,分别从图像识别和递归定量分析的角度出发,对应建立了卷积神经网络和支持向量机两个子模型.使用Stacking方法将两个模型进行集成,可以在一定程度上结合两个模型的不同特点,充分发挥两个不同模型的优势.实验结果表明,该方法可以有效提高轴承振动信号的分类准确率,并在不同负载条件下表现出色且稳定,为轴承故障诊断提供了一种可靠的解决方案. 展开更多
关键词 故障诊断 滚动轴承 递归分析 stacking集成学习
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Recent developments on corrosion behaviors of Mg alloys with stacking fault or long period stacking ordered structures 被引量:14
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作者 Yujin Nie Jianwei Dai +1 位作者 Xuan Li Xiaobo Zhang 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2021年第4期1124-1148,共25页
Corrosion is one of the most drawbacks which restricts the wide applications of Mg alloys.In the last decade,the corrosion behaviors of Mg alloys with stacking fault(SF)and/or long period stacking ordered(LPSO)structu... Corrosion is one of the most drawbacks which restricts the wide applications of Mg alloys.In the last decade,the corrosion behaviors of Mg alloys with stacking fault(SF)and/or long period stacking ordered(LPSO)structures have obtained increasing attention.However,the corrosion mechanism of the SF–or LPSO–containing Mg alloys has not been well illustrated and even reverse results have been reported.In this paper,we have reviewed recent reports on corrosion behaviors of SF–or LPSO–containing Mg alloys to better clarify and understand the significance and mechanism.Moreover,some deficiencies are presented and advises are proposed for the development of corrosion resistant Mg alloys with SF or LPSO structures. 展开更多
关键词 Magnesium alloys Corrosion behavior stacking fault Long period stacking ordered
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Enhancing the strain hardening and ductility of Mg-Y alloy by introducing stacking faults 被引量:12
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作者 Kang Wei Lirong Xiao +6 位作者 Bo Gao Lei Li Yi Liu Zhigang Ding Wei Liu Hao Zhou Yonghao Zhao 《Journal of Magnesium and Alloys》 SCIE EI CAS 2020年第4期1221-1227,共7页
Due to the insufficient slip systems,Mg and its alloys exhibit poor ductility during plastic deformation at room temperature.To solve this problem,alloying is considered as a most effective method to improve the ducti... Due to the insufficient slip systems,Mg and its alloys exhibit poor ductility during plastic deformation at room temperature.To solve this problem,alloying is considered as a most effective method to improve the ductility of Mg alloys,which attracts wide attentions of industries.However,it is still a challenge to understand the ductilization mechanism,because of the complicated alloying elements and their interactions with Mg matrix.In this work,pure Mg and Mg-Y alloys were comparatively studied to investigate the effect of Y addition on microstructure evolution and mechanical properties.A huge increase of uniform elongation,from 5.3%to 20.7%,was achieved via only 3 wt%addition of yttrium.TEM results revealed that the only activated slip system in pure Mg was basalslip,led to its poor ductility at room temperature.In contrast,a large number of stacking faults and non-basal dislocations with<c>component were observed in the deformed Mg-Y alloy,which was proposed as the main reason for significant improvement of strain hardening and ductility.High resolution TEM indicated that most of the stacking faults were II and 12 intrinsic faults,which played a critical role in improving the ductility of Mg-Y alloy.Addition of Y into Mg alloy decreased the stacking fault energy,which induced high density stacking faults in the grain interior. 展开更多
关键词 Magnesium alloys DUCTILITY stacking faults Non-basal slip Transmission electron microscopy
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Predicting the variation of stacking fault energy for binary Cu alloys by first-principles calculations 被引量:8
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作者 T.Cai K.Q.Li +4 位作者 Z.J.Zhang P.Zhang R.Liu J.B.Yang Z.F.Zhang 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2020年第18期61-65,共5页
The variation of stacking fault energy(SFE)in a number of binary Cu alloys is predicted through considering the Suzuki segregation by the full potential linearly augmented plane wave(FPLAPW)method.The calculated resul... The variation of stacking fault energy(SFE)in a number of binary Cu alloys is predicted through considering the Suzuki segregation by the full potential linearly augmented plane wave(FPLAPW)method.The calculated results show that some solute atoms(Mg,Al,Si,Zn,Ga,Ge,Cd,Sn,and Pb),which prefer to form the Suzuki segregation,may decrease the value of SFE;while the others(Ti,Mn,Fe,Ni,Zr,Ag,and Au),which do not cause the Suzuki segregation may not decrease the SFE.Furthermore,it is interesting to find that the former alloying elements are located on the right of Cu group while the latter on the left of Cu group in the periodic table of elements.The intrinsic reasons for the new findings can be traced down to the valences electronic structure of solute and Cu atoms,i.e.,the similarity of valence electronic structure between solute and Cu atoms increases the value of SFE,while the difference decreases the value of SFE. 展开更多
关键词 Cu-alloy Deformation behavior First-principles calculation stacking fault energy
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Modulation of magnetic and electrical properties of bilayer graphene quantum dots using rotational stacking faults 被引量:2
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作者 Hong-Ping Yang Wen-Juan Yuan +1 位作者 Jun Luo Jing Zhu 《Chinese Physics B》 SCIE EI CAS CSCD 2019年第7期504-510,共7页
Bilayer graphene quantum dots with rotational stacking faults(RSFs) having different rotational angles were studied.Using the first-principles calculation, we determined that these stacking faults could quantitatively... Bilayer graphene quantum dots with rotational stacking faults(RSFs) having different rotational angles were studied.Using the first-principles calculation, we determined that these stacking faults could quantitatively modulate the magnetism and the distribution of spin and energy levels in the electronic structures of the dots.In addition, by examining the spatial distribution of unpaired spins and Bader charge analysis, we found that the main source of magnetic moment originated from the edge atoms of the quantum dots.Our research results can potentially provide a new path for producing all-carbon nanodevices with different electrical and magnetic properties. 展开更多
关键词 BILAYER graphene quantum DOTS ROTATIONAL stacking faultS FIRST-PRINCIPLES calculation
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Effects of Nd on microstructure and mechanical properties of as-cast Mg-12Gd-2Zn-xNd-0.4Zr alloys with stacking faults 被引量:5
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作者 Lixin Hong Rongxiang Wang Xiaobo Zhang 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2022年第8期1570-1577,共8页
In order to study the effects of Nd addition on microstructure and mechanical properties of Mg-Gd-Zn-Zr alloys,the microstruc-ture and mechanical properties of the as-cast Mg-12Gd-2Zn-xNd-0.4Zr(x=0,0.5wt%,and 1wt%)all... In order to study the effects of Nd addition on microstructure and mechanical properties of Mg-Gd-Zn-Zr alloys,the microstruc-ture and mechanical properties of the as-cast Mg-12Gd-2Zn-xNd-0.4Zr(x=0,0.5wt%,and 1wt%)alloys were investigated by using optical microscope,scanning electron microscope,X-ray diffractometer,nano indentation tester,microhardness tester,and tensile testing machine.The results show that the microstructures mainly consist ofα-Mg matrix,eutectic phase,and stacking faults.The addition of Nd plays a significant role in grain refinement and uniform microstructure.The tensile yield strength and microhardness increase but the compression yield strength decreases with increasing Nd addition,leading to weakening tension-compression yield asymmetry in reverse of the Mg-12Gd-2Zn-xNd-0.4Zr alloys.The highest ultimate tensile strength(194 MPa)and ultimate compression strength(397 MPa)are obtained with 1wt%Nd addition of the alloy. 展开更多
关键词 magnesium alloy NEODYMIUM microstructure stacking fault mechanical properties
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Corrosion behavior of Mg-3Gd-1Zn-0.4Zr alloy with and without stacking faults 被引量:6
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作者 Xiaobo Zhang Jianwei Dai +2 位作者 Ruifeng Zhang Zhixin Ba Nick Birbilis 《Journal of Magnesium and Alloys》 SCIE EI CAS 2019年第2期240-248,共9页
To develop biodegradable magnesium alloy with desirable corrosion properties,a low Gd-containing Mg-3Gd-1Zn-0.4Zr(wt%,GZ31K)alloy was prepared.The as-cast ingot was solution treated and then hot extruded.Microstructur... To develop biodegradable magnesium alloy with desirable corrosion properties,a low Gd-containing Mg-3Gd-1Zn-0.4Zr(wt%,GZ31K)alloy was prepared.The as-cast ingot was solution treated and then hot extruded.Microstructures were characterized by scanning electron microscopy(SEM).Corrosion behavior of the alloy under each condition was studied by hydrogen evolution and quasi in-situ corrosion methods.It has been found that the as-cast alloy is composed ofα-Mg,stacking faults(SFs)at the outer edge of the matrix grains,and eutectic phase along the grain boundaries.After solution treatment,the SFs disappear and precipitates rich in Zn and Zr elements form in the grain interior and boundaries.The microstructure is significantly refined after extrusion.Hydrogen evolution tests show that the as-cast alloy exhibits the best corrosion resistance,and the solution-treated alloy has the worst corrosion resistance.Corrosion rate of the alloy under each condition decreases first and then increases with prolonging immersion time.Corrosion experiments demonstrate thatα-Mg was corroded preferentially,the eutectic phase and precipitates exhibit better corrosion resistance.The as-extruded alloy demonstrates uniform corrosion due to fine and homogeneous microstructure. 展开更多
关键词 Magnesium alloys stacking faults Corrosion resistance Uniform corrosion
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