金属顶刊双语导读丨Scripta Mater. Vol.207, 15 Jan. 2022（上）_格尔赛斯

登陆 menu

当前位置：首页 > 实用信息

金属顶刊双语导读丨Scripta Mater. Vol.207, 15 Jan. 2022（上）

2021-12-10 来源：GS_Metals

本期包含金属材料领域论文13篇，涵盖了钛合金、中熵合金、高熵合金、高温合金等，国内科研单位包括上海交通大学、华南理工大学等（通讯作者单位）。

Vol. 207 目录

1. Grain boundary α-phase precipitation and coarsening: Comparing laser powder bed fusion with as-cast Ti-6Al-4V

晶界α相的析出和粗化：激光粉床熔化与铸态Ti-6Al-4V合金的比较

2. A new α + β Ti-alloy with refined microstructures and enhanced mechanical properties in the as-cast state

一种新型在铸态下具有精细的微观结构和优异的机械性能的α+β钛合金

3. Influence of precipitation on tension and compression twinning in Mg-6.5Zn alloy

析出物对Mg-6.5Zn合金拉压孪晶的影响

4. Deformation-induced grain boundary segregation mediated high-strain rate superplasticity in medium entropy alloy

中熵合金中变形诱导晶界偏析引发的高应变率超塑性

5. Advanced mechanical properties obtained via accurately tailoring stacking fault energy in Co-rich and Ni-depleted CoxCr33Ni67-x medium-entropy alloys

通过精确调整富钴贫镍Co_xCr₃₃Ni_67-x中熵合金中的堆垛层错能获得优异的机械性能

6. Pre-straining alters hydrogen-assisted cracking site and local hydrogen diffusivity in a nitrogen-doped duplex steels

通过预应变改变掺氮双相钢中氢致开裂位置和局部氢扩散速率

7. Artificial neural network molecular mechanics of iron grain boundaries

铁晶界的人工神经网络分子动力学

8. Multiple deformation mechanisms induced by pre-twinning in CoCrFeNi high entropy alloy

CoCrFeNi高熵合金预孪晶引起的多重变形机制

9. The effect of deviations from precise [001] tensile direction on creep of Ni-base single crystal superalloys

与精确[001]拉伸方向的偏差对镍基单晶高温合金蠕变的影响

10. Atomic scale observation of FCC twin, FCC→9R and 9R→12R’ transformations in cold-rolled Hafnium

冷轧纯铪中FCC孪晶、FCC→9R和9R→12R'转变的原子尺度观察

11. Direct observation of grain boundary formation in bcc iron through TEM in situ compression test

通过TEM原位压缩试验直接观察bcc铁中晶界的形成

12. Effect of boron segregation on bainite nucleation during isothermal transformation

硼偏析对贝氏体在等温转变过程中形核的影响

13. Superior strength-ductility synergy in a novel tailored nanoparticles- strengthened medium-entropy alloy

新型定制纳米粒子强化中熵合金优异的强度-塑性协同效果

SCRIPTA

Vol. 207, 15 Jan. 2022, 114261

1. Grain boundary α-phase precipitation and coarsening: Comparing laser powder bed fusion with as-cast Ti-6Al-4V

晶界α相的析出和粗化：激光粉床熔化与铸态Ti-6Al-4V合金的比较

Jianwen Liu, Kai Zhang✉, Yi Yang, Hao Wang, Yuman Zhu, Aijun Huang

Kai Zhang: kai.zhang@monash.edu （上海科技大学）

https://doi.org/10.1016/j.scriptamat.2021.114261

摘要

研究了激光粉床熔化（LPBF）成形的Ti-6Al-4V（Ti-64）中的晶界α相（GB-α）析出和粗化行为，并与铸态的Ti-64进行了比较。在退火过程中，LPBF成形的Ti-64中GB-α倾向于在β相晶界的三重边界（TJs）处析出。 GB-α的动力学分析表明，LPBF成形的在不同退火温度（750°C的体扩散和850°C与950°C的界面反应）下的粗化机制不同，而铸态的粗化机制是一致的（在三个温度下的皆是界面反应）。不一致的粗化机制归因于α片晶不同的形核机制所引起的GB-α曲率差异。这些发现有助于使GB-α形貌演变合理化，并有利于进一步控制LPBF成形的钛合金机械性能。

向上滑动阅览英文摘要

Grain boundary α-phase (GB-α) precipitation and coarsening behavior in Ti-6Al-4V (Ti-64) processed by laser powder bed fusion (LPBF) were investigated and compared with those in as-cast Ti-64. GB-α in LPBF processed Ti-64 tended to precipitate at the triple junctions (TJs) of the β-phase grain boundaries during the subsequent annealing process. Kinetic analysis on GB-α showed that the coarsening mechanisms varied in LPBF processed Ti-64 at different annealing temperatures (bulk diffusion at 750 °C and interface reaction at both 850 and 950 °C), while were consistent in as-cast Ti-64 (interface reaction at all the three temperatures). The inconsistent coarsening mechanisms were attributed to the GB-α curvature difference caused by the different α lamellae nucleation mechanisms. These findings could help rationalize the GB-α morphology evolution and benefit the further mechanical property manipulation in LPBF processed titanium alloys.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114260

2. A new α + β Ti-alloy with refined microstructures and enhanced mechanical properties in the as-cast state

一种新型在铸态下具有精细的微观结构和优异的机械性能的α+β钛合金

Tianlong Zhang, Jiaming Zhu, Tao Yang, Junhua Luan, Haojie Kong, Weihong

Liu, Boxuan Cao, Shiwei Wu, Dong Wang, Yunzhi Wang, Chain-Tsuan Liu✉

Chain-Tsuan Liu: chainliu@cityu.edu.hk

https://doi.org/10.1016/j.scriptamat.2021.114260

摘要

此项工作开发了一种新型（α + β）钛合金Ti-6Al-2V-1Cr-1Fe (wt%)，该合金在铸态下具有细的晶粒尺寸与沉淀物及高的强度和优良的延展性。与铸态Ti-6Al-4V合金相比，新合金的晶粒尺寸和α板条厚度大幅细化了50~75%，屈服强度和延展性分别提高了19.7%和51.8%。晶粒尺寸细化是在 CALPHAD计算的帮助下，通过合金化调整合金的过冷能力来实现的。此外，Cr和Fe的合金化显着降低了α板条厚度。这种具有优异性能的低成本钛合金预计非常适用于铸态或打印态的各种结构应用件。

向上滑动阅览英文摘要

A new (α + β) Ti-alloy, Ti-6Al-2V-1Cr-1Fe (wt%), with fine grain sizes, fine precipitates, together with the high strength and excellent ductility in its as-cast state is developed. As compared to the as-cast commercial Ti-6Al-4V alloy, the grain size and α lath thickness of the new alloy are substantially refined by 50∼75%, and the yield strength and ductility are increased by 19.7% and 51.8%, respectively. The grain size refinement is achieved by tuning the supercooling capacity of the alloy through alloying with the aid of CALPHAD calculations. In addition, the alloying of Cr and Fe substantially reduces the α lath thickness. This low-cost Ti alloy with the enhanced properties is anticipated to be highly suitable for various structural applications in its as-cast or as-printed state.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114253

3. Influence of precipitation on tension and compression twinning in Mg-6.5Zn alloy

析出物对Mg-6.5Zn合金拉压孪晶的影响

Jun Wang✉, Mahmoud Reza Ghandehari Ferdowsi, Peter A. Lynch, Sitarama R. Kada, Matthew R. Barnett

J.P. Oliveira: jun.wang2@deakin.edu.au

https://doi.org/10.1016/j.scriptamat.2021.114253

摘要

根据不同的应力状态，镁合金可显示拉伸和/或压缩的孪晶。本文利用Mg-6.5Zn合金的双峰纹理，研究时效硬化如何影响两种不同类型的孪晶。我们发现，拉伸孪晶是由析出物刺激引发的（即在等效塑性应变下可以观察到更高的孪晶体积分数），而压缩孪晶是被析出物抑制的（即在等效塑性应变下观察到较低的孪晶体积分数）。压缩孪晶中较低的孪晶表面能和较大的孪晶位错Burgers矢量造成了这种差异。较大的Burgers矢量使压缩孪晶位错更能抵抗弯曲，表面能效应更为小。在其它条件一致的情况下，具有较低表面能的孪晶可以以较低的孪晶位错总含量传播。因此，需要更高的外加应力才能获得绕过沉淀物所需的Peach-Koehler力。

向上滑动阅览英文摘要

Depending on the stress state, magnesium alloys can display tensile and/or compression twinning. The present letter exploits bimodal textures in alloy Mg-6.5Zn to examine how age hardening impacts on the two different twin types. We found that tensile twinning is stimulated by precipitates (i.e. higher twin volume fractions are seen at an equivalent plastic strain) whereas compression twinning is suppressed by precipitates (i.e. lower twin volume fractions are seen at an equivalent plastic strain). The difference is rationalized in terms of a lower twin surface energy and a larger twinning dislocation Burgers vector in compression twins. The larger Burgers vector renders compression twinning dislocations more resistant to bowing. The surface energy effect is more subtle. All else constant, twins with lower surface energies can propagate with a lower total content of twinning dislocations. Thus, a higher applied stress is required to attain the Peach-Koehler force needed to bypass precipitates.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114239

4. Deformation-induced grain boundary segregation mediated high-strain rate superplasticity in medium entropy alloy

中熵合金中变形诱导晶界偏析引发的高应变率超塑性

Peyman Asghari-Red, Nhung Thi-Cam Nguyen, Alireza Zargaran, Praveen Sathiyamoorthi✉, Hyoung Seop Kim✉

Praveen Sathiyamoorthi: spravin88@postech.ac.kr

Hyoung Seop Kim: hskim@postech.ac.kr

https://doi.org/10.1016/j.scriptamat.2021.114239

摘要

超塑性是指晶体材料在均匀温度下发生极高的塑性变形，尤其是应变率等于或高于10^-2 s^-1的高应变率超塑性（HSRS），在工程材料的成型方面引起了极大的兴趣。除了晶界滑移的主要机制外，晶界/界面处液相的形成可以帮助HSRS。随着多主元合金（MPEAs）的出现，通过选择合适的成分来设计低熔点元素的晶界偏析，可以带来由MPEAs部分熔化引起HSRS的可能性。在这里，我们展示了Al_0.3CoCrNi MPEA在0.65同源温度下的液相痕迹。微观结构观察首次揭示了变形诱导的铝偏析发生在晶界/界面处。目前的工作为通过晶界偏析工程促进高强度材料中的HSRS来定制微观结构开辟了一条新途径。

向上滑动阅览英文摘要

Superplasticity refers to extremely high plastic deformation of crystalline materials at homologous temperature. In particular, high-strain rate superplasticity (HSRS) at a strain rate equal to or higher than 10⁻² s⁻¹ draws great technological interest in the shape-forming of engineering materials. Besides primary mechanism as grain boundary sliding, the formation of liquid phase at grain boundaries/interfaces can assist HSRS. With the advent of multi-principle element alloys (MPEAs), designing grain boundary segregation of a low melting temperature element with the appropriate choice of composition can bring the possibility to produce the HSRS accommodated by the partial melting in MPEAs. Here, we show the trace of the liquid phase in Al_0.3CoCrNi MPEA at the homologous temperature of 0.65. Careful microstructural examination reveals for the first time that deformation-induced Al-segregation occurs at grain boundaries/interfaces. The present work expedites a new path to tailoring microstructure for promoting the HSRS in high-strength materials by grain boundary segregation engineering.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114269

5. Advanced mechanical properties obtained via accurately tailoring stacking fault energy in Co-rich and Ni-depleted CoxCr33Ni67-x medium-entropy alloys

通过精确调整富钴贫镍Co_xCr₃₃Ni_67-x中熵合金中的堆垛层错能获得优异的机械性能

Dong Huang, Yanxin Zhuang✉, Chunhui Wang

Yanxin Zhuang: yxzhuang@epm.neu.edu.cn（东北大学）

https://doi.org/10.1016/j.scriptamat.2021.114269

摘要

本文设计了一种新型富钴贫镍的Co_xCr₃₃Ni_67-x中熵合金。控制其中的C含量，使所研究的合金具有相同的短程有序（SRO），使Co、Ni含量的变化直接有效地体现在层错能的降低上。随着Co含量的增加N含量的减少，Co₃₈Cr₃₃Ni₂合金的层错能降低到~12 mJ/m²，变形方式由孪生诱导塑性（TWIP）转变为相变诱导塑性（TRIP）。同时获得了839 MPa的拉伸强度和83%的均匀伸长率。

向上滑动阅览英文摘要

This paper designs a new Co-rich and Ni-depleted Co_xCr₃₃Ni_67-x medium-entropy alloy. Among them, the content of Cr is controlled, so that the alloys studied have the same short range-order (SRO), and make the changes of Co and Ni content directly and efficiently reflected in the reduction of stacking fault energy. With the increase of Co content and decrease of Ni, the stacking fault energy of Co38Cr33Ni29 alloy is reduced to ∼12 mJ/m², and the deformation mode is changed from twinning induced plasticity (TWIP) to transformation induced plasticity (TRIP). At the same time, the tensile strength of 839 MPa and uniform elongation of 83% are obtained.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114272

6. Pre-straining alters hydrogen-assisted cracking site and local hydrogen diffusivity in a nitrogen-doped duplex steels

通过预应变改变掺氮双相钢中氢致开裂位置和局部氢扩散速率

Milene Yumi Maeda✉, Motomichi Koyama✉, Hayato Nishimura, Osvaldo

Mitsuyuki Cintho, Eiji Akiyama

Milene Yumi Maeda: milenemaeda@gmail.com

Motomichi Koyama: koyama@imr.tohoku.ac.jp

https://doi.org/10.1016/j.scriptamat.2021.114272

摘要

采用拉伸试验研究了氢脆对掺氮双相不锈钢的预变形影响。采用氢气预充和预应变，提高了屈服强度，但降低了延展性。银饰实验表明，扩散氢优先位于未变形钢的铁素体中或晶界，而22%预应变钢的奥氏体中具有扩散氢。变形时，钢的优先塑性变形路径在铁素体中；因此，铁素体中的表观扩散率降低，而奥氏体的表观氢通量相对较高。预应变通过增加位错密度来抑制宏观氢扩散和铁素体和奥氏体中的局部扩散。铁素体的局部扩散抑制程度比奥氏体更显著。与预应变相关的位错和氢行为的变化改变了奥氏体和铁素体中的裂纹位置，并降低了氢脆敏感性。

向上滑动阅览英文摘要

The pre-deformation effects of hydrogen embrittlement on nitrogen-doped duplex stainless steel were investigated using tensile testing. Hydrogen pre-charging and pre-straining were adopted, which increased the yield strength, but decreased the ductility. Silver decoration revealed that diffusible hydrogen was preferentially located in the ferrite or grain boundaries of the undeformed steel, whereas the 22% pre-strained steel had diffusible hydrogen in austenite. When deformed, the preferential plastic deformation path of the steel was in the ferrite; hence, the apparent diffusivity in ferrite decreased, while the austenite had a relatively high apparent hydrogen flux. Pre-straining suppressed macroscopic hydrogen diffusion and local diffusion in ferrite and austenite by increasing the dislocation density. The degree of the suppression of the local diffusion was more significant in ferrite than austenite. The changes in dislocation and hydrogen behaviors associated with pre-straining altered the cracking sites in the austenite and ferrite, and decreased hydrogen embrittlement susceptibility.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114268

7. Artificial neural network molecular mechanics of iron grain boundaries

铁晶界的人工神经网络分子动力学

Yoshiori Shiihara✉, Ryosuke Kanazawa, Daisuke Matsunaka, Ivan Lobzenko,

Tomohito Tsuru, Masanori Kohyama, Hideki Mori

Yoshinori Shiihara: shiihara@toyota-ti.ac.jp

https://doi.org/10.1016/j.scriptamat.2021.114268

摘要

本研究报告了使用基于人工神经网络（ANN）势的分子力学对α-铁中46 个对称倾斜晶界（GB）能量的计算，并将结果与基于密度泛函理论（DFT），嵌入原子法（EAM）和改进EAM法（MEAM）的计算结果进行比较。ANN 势的结果与DFT的非常一致（平均5%差异），而EAM和MEAM与DFT结果显著不同（平均约27%差异）。在 ∑3(11¯2) GB的单轴拉伸计算中，ANN势再现了在DFT中观察到的GB脆性断裂趋势，而EAM和MEAM错误地显示了延展行为。这些结果证明了ANN势在计算铁的晶界方面的有效性，这在现代工业中有很高的需求。

向上滑动阅览英文摘要

This study reports grain boundary (GB) energy calculations for 46 symmetric-tilt GBs in α-iron using molecular mechanics based on an artificial neural network (ANN) potential and compares the results with calculations based on the density functional theory (DFT), the embedded atom method (EAM), and the modified EAM (MEAM). The results by the ANN potential are in excellent agreement with those of the DFT (5% on average), while the EAM and MEAM significantly differ from the DFT results (about 27% on average). In a uniaxial tensile calculation of ∑3(11¯2) GB, the ANN potential reproduced the brittle fracture tendency of the GB observed in the DFT while the EAM and MEAM mistakenly showed ductile behaviors. These results demonstrate the effectiveness of the ANN potential in calculating grain boundaries of iron, which is in high demand in modern industry.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114266

8. Multiple deformation mechanisms induced by pre-twinning in CoCrFeNi high entropy alloy

CoCrFeNi高熵合金预孪晶引起的多重变形机制

Zhen Zhang, Zhihao Jiang, Yuehuang Xie, Sammy Lap Ip Chan, Jiamiao Liang✉,Jun Wang✉

Jiamiao Liang: jmliang@sjtu.edu.cn （上海交通大学）

Jun Wang: Junwang@sjtu.edu.cn（上海交通大学）

https://doi.org/10.1016/j.scriptamat.2021.114266

摘要

高熵合金中的多重变形机制一直是克服强度-延展性权衡困境的重要方法，但它们通常发生在一些严酷的条件下，例如低温。在这里，我们通过低温变形和退火在CoCrFeNi高熵合金中引入“预孪晶”，触发了室温拉伸试验中的多种变形机制。通过电子背散射衍射和透射电子显微镜研究了应变为1%、5%和15%时的变形微观结构。结果表明，在应变大于等于5% 时，由于预孪晶促进的高流动应力，除了位错滑移外，还发生微带和形变孪晶，增加了加工硬化能力，导致高强度同时增加了延展性。与没有孪晶的CoCrFeNi高熵合金样品相比，讨论了微带和孪晶的变形过程和潜在机制。

向上滑动阅览英文摘要

Multiple deformation mechanisms in high entropy alloy have been a notable method to overcome strength-ductility trade-off dilemma, but they usually occur in some severe conditions such as cryogenic temperature. Here, we triggered the multiple deformation mechanisms in room temperature tensile test by introducing “pre-twins” in CoCrFeNi high entropy alloy via cryogenic deformation and annealing. The deformation microstructures at strains of 1%, 5% and 15% were investigated by electron back scattering diffraction and transmission electron microscopy. The results demonstrated that at the strain of 5% or more, besides dislocation slip, microbanding and deformation twinning also occured due to the high flow stress facilitated by the pre-twins, which increased the working hardening ability, leading to a simultaneous increase of strength and ductility. The deformation process and the underlying mechanisms of the microbanding and twinning have been discussed in comparison with the CoCrFeNi high entropy alloy sample without twins.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114274

9. The effect of deviations from precise [001] tensile direction on creep of Ni-base single crystal superalloys

与精确[001]拉伸方向的偏差对镍基单晶高温合金蠕变的影响

L. Heep✉, D. Hurger, C. Bonnekoh, P. Wollgramm, A. Dlouhy, G. Eggeler

L. Heep: larissa.heep@rub.de

https://doi.org/10.1016/j.scriptamat.2021.114274

摘要

研究了单晶ERBO-1高温合金（CMSX-4型）的低温（1023 K）高应力（800 MPa）拉伸蠕变行为。比较了三个加载方向：精确的[001]和从[001]分别向[111]和[011]方向的15°偏差。发现蠕变速率ε˙已经在蠕变的早期阶段扩展为ε˙_{[001]→[111]}>ε˙_[001]>ε˙_{[001]→[011]}，其中位错网络形成和平面断层交叉不能合理解释已观察到的速率效应。基于Peach-Köhler计算的分析表明，当来自两个八面体系统的位错（需要反应并形成 γ'相中平面断层带的前导部分）经历类似的驱动时，可以观察到快速蠕变速率。蠕变数据、微观力学计算和TEM结果具有良好的一致性。从技术角度来看，结果表明，虽然可以容忍从[001]到[011]的15°偏差，但必须避免向[111]的偏差。

向上滑动阅览英文摘要

Low temperature (1023 K) high stress (800 MPa) tensile creep behavior of the superalloy single crystal ERBO-1 (CMSX-4 type) is investigated. Three loading directions are compared: precise [001] and 15 ° deviations from [001] towards [111] and [011]. It is found that creep rates ε˙ scale as ε˙_{[001]→[111]}>ε˙_[001]>ε˙_{[001]→[011]} already in the early stages of creep (ε≤1%), where dislocation network formation and planar fault intersections cannot rationalize the observed rate effects. An analysis based on Peach-Köhler force calculations suggests, that fast creep rates are observed, when dislocations from two octahedral systems, which are required to react and form the leading part of a planar fault ribbon in the γ’-phase, experience similar driving forces. Creep data, micromechanical calculations and TEM results are in good qualitative agreement. From a technological point of view, the results show that while 15 ° deviations from [001] towards [011] can be tolerated, deviations towards [111] must be avoided.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114284

10. Atomic scale observation of FCC twin, FCC→9R and 9R→12R’ transformations in cold-rolled Hafnium

冷轧纯铪中FCC孪晶、FCC→9R和9R→12R'转变的原子尺度观察

Yingdong Zhang, Geping Li✉, Fusen Yuan, Fuzhou Han, Muhammad Ali,WenbinGuo, Jie Ren

Geping Li: gpli@imr.ac.cn （中国科学院金属研究所）

https://doi.org/10.1016/j.scriptamat.2021.114284

摘要

在冷轧纯Hf中同时观察到面心立方（FCC）孪晶、FCC→9R和9R→12R'转变。FCC孪晶的形成是由于肖克利部分位错在不同的基面延伸。对FCC→9R变换，每三个原子层的肖克利部分位错沿（111）面的集体滑动最终导致密堆积结构的堆叠顺序，即ACBACBACBA变为ABACACBCBA。9R→12R'转变与每三个原子层形成全位错有关。

向上滑动阅览英文摘要

The face-centered cubic (FCC) twin, FCC →9R and 9R → 12R’ transformations were observed simultaneously in cold-rolled pure Hf. The formation of FCC twin was due to the Shockley partial dislocations extended in the different basal planes. For FCC →9R transformation, the collective gliding of Shockley partial dislocations along (111) planes with every three atomic layers eventually lead to the stacking sequence of close-packed structure, i.e. ACBACBACBA changed to ABACACBCBA. The 9R → 12R’ transformation was related to the formation of the full dislocations at every three atomic layers.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114275

11. Direct observation of grain boundary formation in bcc iron through TEM in situ compression test

通过TEM原位压缩试验直接观察bcc铁中晶界的形成

Hongxing Li✉, Seiichiro Li, Nobuhiro Tsuji, Takahito Ohmura

Hongxing Li: li.hongxing.4x@kyoto-u.ac.jp

https://doi.org/10.1016/j.scriptamat.2021.114275

摘要

通过透射电子显微镜原位压缩试验直接捕获了体心立方铁中由非均匀塑性变形形成的晶界（GB）。应力不均匀性是由使用聚焦离子束获得的凹形晶粒而引起的，通过激活各种滑移系统导致位错相互作用增强。在早期变形阶段，具有各种应力/应变场的凹面顶点或底部边界周围聚集了壁状缠结位错。随着塑性应变的增加，壁状缠结位错进一步演变为尖锐的晶界，类似于几何上必要的位错阵列。相比之下，同一试样中具有简单光滑形状的相邻晶粒没有形成尖锐的GB。这项研究的结果表明，非均匀应力/应变场对于GB的形成至关重要。

向上滑动阅览英文摘要

The formation of grain boundary (GB) by non-homogeneous plastic deformation was captured directly through transmission electron microscopy in situ compression test for body centered cubic iron. Stress inhomogeneity was purposely induced by a concaved grain shape using a focused ion beam, leading to enhanced interaction of dislocations by the activation of various slip systems. Wall-like tangled dislocations were gathered around the boundary at the apex or the bottom of the concaved surface with various stress/strain fields in an early deformation stage. The wall-like tangled dislocations further evolved into sharp grain boundaries with increasing plastic strain, analogous to the array of geometrically necessary dislocations. In contrast, the adjacent grain with a simple smooth shape in the same specimen formed no sharp GB. The results of this study indicate that the non-homogeneous stress/strain field is critical for the formation of the GB.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114286

12. Effect of boron segregation on bainite nucleation during isothermal transformation

硼偏析对贝氏体在等温转变过程中形核的影响

P. Douhuet, G. Da Rosa, P. Maugis✉, J. Drillet, K. Hoummada✉

P. Maugis: philippe.maugis@univ-amu.fr

https://doi.org/10.1016/j.scriptamat.2021.114286

摘要

本文独立研究了硼偏析和奥氏体晶粒尺寸对高强钢中贝氏体等温转变的影响。膨胀仪、显微组织观察和原子探针断层扫描分析表明，贝氏体转变速率随着奥氏体晶界处硼过量程度的增加而降低。我们还发现硼偏析会导致意想不到的晶粒尺寸效应：大奥氏体晶粒比小奥氏体晶粒转变得更快。奥氏体三叉晶界处缓慢成核和贝氏体核快速生长的动力学模型成功地描述了该实验结果。这些结果证实贝氏体形核被晶界处的硼偏析抑制。基于此，可以优化奥氏体晶粒尺寸，以充分利用先进高强钢中硼的添加。

向上滑动阅览英文摘要

The effects of boron segregation and austenite grain size on the bainitic isothermal transformation of a high-strength steel were studied independently. Dilatometry, microstructural observations and previous atom probe tomography analyses showed that bainitic transformation rate decreases with increasing boron excess at austenite grain boundaries. We also found that boron segregation causes an unexpected grain size effect: large austenite grains transform faster than small ones. A kinetic model assuming slow nucleation at austenite triple junctions and rapid growth of bainitic nuclei successfully described our experimental data. These results confirm that bainite nucleation is inhibited by segregated boron at grain boundaries. On this basis, austenitic grain size could be optimized to make the most of boron addition in advanced high-strength steels.

SCRIPTA

Vol. 207, 15 Jan. 2022, 114278

13. Superior strength-ductility synergy in a novel tailored nanoparticles- strengthened medium-entropy alloy

新型定制纳米粒子强化中熵合金优异的强度-塑性协同效果

Hanlin Peng, Lan Baker, Ling Hu✉, Liejun Li✉

Ling Hu: huling381@163.com （华南理工大学）

Liejun Li: liliejun@scut.edu.cn （华南理工大学）

https://doi.org/10.1016/j.scriptamat.2021.114278

摘要

采用CALPHAD设计了一种新型L1₂相强化的Fcc型(CoCrNi)₉₄Al₃Ti₃中熵合金。使用热轧、冷轧和热处理生产出细晶（0.61 μm）和高体积分数（0.37）的共格L1₂纳米粒子（直径23.2 nm）。这种定制的微观结构表现出优异的强度-延展性协同作用（屈服应力~1203 MPa，极限拉伸强度~1577 MPa，伸长率~24%）和高加工硬化率（3700 MPa，应变为5%）。晶界强化和沉淀强化对屈服强度的贡献约为61%。拉伸试验后，LAGB的比例急剧增加，而Σ3ⁿ重合位点晶格边界的比例减少：反极图表明{101}<111>织构的形成。与内部晶粒相比，这种超细晶粒尺寸抑制了变形孪晶，而施加的应力导致晶界处更高的位错密度。

向上滑动阅览英文摘要

A novel f.c.c. (CoCrNi)₉₄Al₃Ti₃ medium-entropy alloy strengthened with an L1₂ phase was designed using CALPHAD. Hot rolling, cold rolling, and heat treatment were used to produce a fine grain size (0.61 μm) and a high volume fraction (0.37) of coherent 23.2 nm diameter L1₂ nanoparticles. This tailored microstructure exhibited an excellent strength-ductility synergy (yield stress ∼1203 MPa, ultimate tensile strength ∼1577 MPa, elongation ∼24%) and a high working hardening rate (3700 MPa at strain of 5%). The contributions from grain boundary strengthening and precipitation strengthening to the yield strength were estimated to be ∼61%. After the tensile tests, the fraction of LAGBs sharply increased and that of Σ3ⁿ coincidence site lattice boundaries decreased: inverse pole figures indicate the formation of a {101}<111> texture. Such an ultrafine grain size suppressed deformation twinning, while applied stress led to a higher density of geometrically-necessary dislocations at the grain boundaries compared to the grain interiors.