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学者姓名:毛圣成
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Abstract :
sigma and mu phases are two of the most common topological close-packed (TCP) phases in nickel-based single crystal superalloys, which are detrimental to the comprehensive properties of superalloys. It is universally acknowl-edged that Ru plays an important role in the precipitation of TCP, and its inhibiting effects on the nucleation and precipitation of mu phases have already been confirmed, but its effects on sigma phases remain vague. In this work, the types and area fractions of the TCP phases precipitated from 4 alloys with different compositions have been characterized. It is found that Ru has different effects on the precipitation of different types of TCP. With the help of density functional theory (DFT), the interface structures between sigma and matrix gamma are further studied, and on this basis, the effects of different solutes such as Ru on interface stability and electronic structure are discussed in detail. Ru, Re, W, Cr and Ta are able to enhance the interface stability, boosting the nucleation of sigma phase. Co is different, for it can reduce the interface stability and elevate the nucleation difficulty of sigma. Additionally, the distribution behaviors of solutes between sigma and gamma phases have been calculated, from which it can be found that the energies of solutes like Cr and Ru distributing in sigma are more stable than distributing inside gamma, and these solutes have the tendency to diffuse from gamma to sigma. These results reveal the effects of solutes like Ru on the precipitation of sigma phase in terms of interfacial stability and atomic diffusion, which provide a new understanding of Ru effects.
Keyword :
Density functional theory Density functional theory Site occupancy Site occupancy Intermetallics Intermetallics Microstructure Microstructure Aero-engine components Aero-engine components Interfaces Interfaces
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GB/T 7714 | Jin, Huixin , Zhang, Jianxin , Zhang, Wenyang et al. The effects of solutes like ruthenium on precipitation of Sigma phase and Sigma/gamma interface stability in Ni-based superalloys [J]. | INTERMETALLICS , 2023 , 152 . |
MLA | Jin, Huixin et al. "The effects of solutes like ruthenium on precipitation of Sigma phase and Sigma/gamma interface stability in Ni-based superalloys" . | INTERMETALLICS 152 (2023) . |
APA | Jin, Huixin , Zhang, Jianxin , Zhang, Wenyang , Zhang, Youjian , Mao, Shengcheng , Du, Yiqun et al. The effects of solutes like ruthenium on precipitation of Sigma phase and Sigma/gamma interface stability in Ni-based superalloys . | INTERMETALLICS , 2023 , 152 . |
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Abstract :
Alloys with high yield strength and ductility are attractive for application because of their potential to offer mass reduction, energy savings, and enhanced structural reliability. However, increasing strength usually comes at the expense of ductility, which is commonly known as the strength-ductility trade-off for metal alloys. In this work, we explored a strategy of using a heterogeneous grain size structure and a reduced stacking fault energy in a CoCrFeNiMn FCC high entropy alloy to overcome the limitations of this trade-off. By this approach, the alloy achieved a yield strength of 980 MPa, a tensile strength of 1385 MPa, and tensile elongation to failure of 48% benefiting from cooperative strain hardening via multiple mech-anisms, such as hetero-deformation induced (HDI) hardening, deformation twinning, Frank-Read disloca-tion sources and Lomer-Cottrell dislocation locks instigated by such structures. These micromechanisms of deformation help to harden the alloy via in situ refinement of the mean free paths for dislocations.(c) 2022 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
Keyword :
Hetero-deformation induced hardening Hetero-deformation induced hardening Strength and ductility Strength and ductility Heterogeneous structure Heterogeneous structure Strain hardening Strain hardening High -entropy alloy High -entropy alloy
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GB/T 7714 | An, Zibing , Mao, Shengcheng , Liu, Yinong et al. Inherent and multiple strain hardening imparting synergistic ultrahigh strength and ductility in a low stacking faulted heterogeneous high-entropy alloy [J]. | ACTA MATERIALIA , 2023 , 243 . |
MLA | An, Zibing et al. "Inherent and multiple strain hardening imparting synergistic ultrahigh strength and ductility in a low stacking faulted heterogeneous high-entropy alloy" . | ACTA MATERIALIA 243 (2023) . |
APA | An, Zibing , Mao, Shengcheng , Liu, Yinong , Yang, Luyan , Vayyala, Ashok , Wei, Xiao et al. Inherent and multiple strain hardening imparting synergistic ultrahigh strength and ductility in a low stacking faulted heterogeneous high-entropy alloy . | ACTA MATERIALIA , 2023 , 243 . |
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Abstract :
本实用新型提供了一种透射电镜原位气相温差芯片,包括上芯片和下芯片;所述上芯片和下芯片之间的四周封闭形成中空腔体;在所述中空腔体内,所述下芯片的上表面设有呈一字形依次排列的气体出口、第一加热区、第二加热区、第三加热区和气体进口;任一所述加热区内设有观察窗口,所述观察窗口下方设有贯穿所述下芯片的电子束视窗,所述电子束视窗内设有下薄膜窗口,所述上芯片中设有与所述下薄膜窗口相对应的上薄膜窗口。该透射电镜原位气相温差芯片的加热控温精准,成功与高压气场相耦合,多个加热区共同加热实现精准温度梯度的加载,同时能控制温度的快速响应,能够在气热双载荷下对透射电镜样品进行原位反应的高分辨率测量。
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GB/T 7714 | 韩晓东 , 田志永 , 毛圣成 et al. 一种透射电镜原位气相温差芯片 : CN202220334196.8[P]. | 2022-02-18 . |
MLA | 韩晓东 et al. "一种透射电镜原位气相温差芯片" : CN202220334196.8. | 2022-02-18 . |
APA | 韩晓东 , 田志永 , 毛圣成 , 栗晓辰 , 马东锋 , 张剑飞 et al. 一种透射电镜原位气相温差芯片 : CN202220334196.8. | 2022-02-18 . |
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Abstract :
本发明涉及高熵合金领域,具体涉及一种高温下兼具优秀力学性能和抗氧化的高熵合金及制备方法。所述高熵合金的化学式记为(HfNbTiV)100‑xAlx,其中X=0~10。本发明的高熵合金在室温及高温下兼具高拉伸屈服强度、高拉伸塑性和抗氧化的优秀性能。当所述高熵合金中含有Al时,高熵合金在室温及高温下兼具高拉伸屈服强度、高拉伸塑性、抗氧化和低密度的优秀性能。其在航空航天,国防军事等重大领域具有较大的应用潜力。
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GB/T 7714 | 毛圣成 , 安子冰 , 韩晓东 et al. 高温下兼具优秀力学性能和抗氧化的高熵合金及制备方法 : CN202210406782.3[P]. | 2022-04-18 . |
MLA | 毛圣成 et al. "高温下兼具优秀力学性能和抗氧化的高熵合金及制备方法" : CN202210406782.3. | 2022-04-18 . |
APA | 毛圣成 , 安子冰 , 韩晓东 , 张泽 . 高温下兼具优秀力学性能和抗氧化的高熵合金及制备方法 : CN202210406782.3. | 2022-04-18 . |
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Abstract :
γ′相是镍基单晶高温合金中主要强化相,研究γ′相的热稳定性对于优化合金的高温服役性能具有重要指导作用.本文采用扫描电镜和透射电镜,研究了长期时效过程中镍基单晶高温合金中γ′相的粗化行为.研究发现在长期时效过程中γ′相的尺寸逐渐增加,γ′相的尺寸由初始的方块状演变为长条状.结合定量化分析,发现γ′相尺寸的粗化速率逐渐降低、γ′相体积分数先降后增.γ′相尺寸在时效初始阶段遵循Ostwald熟化规律,粗化到一定程度会发生γ′相合并,合并后便不再按Ostwald熟化规律增加.γ′相尺寸体积分数变化规律是由外界温度升高及时间延长所引起的先回溶后脱溶所导致.
Keyword :
镍基单晶高温合金 镍基单晶高温合金 显微结构 显微结构 长期时效 长期时效 γ′相热稳定性 γ′相热稳定性
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GB/T 7714 | 周慧 , 龙海波 , 毛圣成 et al. Ni基单晶高温合金中γ′粗化行为的电子显微学研究 [J]. | 电子显微学报 , 2022 , 41 (5) : 491-498 . |
MLA | 周慧 et al. "Ni基单晶高温合金中γ′粗化行为的电子显微学研究" . | 电子显微学报 41 . 5 (2022) : 491-498 . |
APA | 周慧 , 龙海波 , 毛圣成 , 张泽 , 韩晓东 . Ni基单晶高温合金中γ′粗化行为的电子显微学研究 . | 电子显微学报 , 2022 , 41 (5) , 491-498 . |
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Abstract :
现阶段制备出的镍基单晶高温合金中常常难以避免平行于加载方向的小角晶界存在,开展小角晶界失效机制的研究对于综合评价镍基单晶合金的服役性能具有重要指导作用.本文通过双籽晶法制备出含有小角晶界的双晶高温合金,采用透射电镜中的原位技术,开展小角晶界对镍基单晶高温合金失效机制的研究.研究发现,改变籽晶的排布方式可以制备出晶界近似平行(010)和(11-0)晶面的两类双晶;当沿(010)晶面的晶界进行拉伸时,两侧晶粒分别发生了沿滑移面的解理断裂及横截面的脆性断裂;而沿(11-0)晶面的晶界进行拉伸时,两侧晶粒仅发生沿滑移面的解理断裂.上述现象主要由合金内取向因子的差异所导致.
Keyword :
镍基单晶高温合金 镍基单晶高温合金 原位研究 原位研究 失效机制 失效机制 小角晶界 小角晶界
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GB/T 7714 | 王文帅 , 李雪峤 , 龙海波 et al. 镍基单晶高温合金中小角晶界失效机制的原位研究 [J]. | 电子显微学报 , 2022 , 41 (6) : 587-593 . |
MLA | 王文帅 et al. "镍基单晶高温合金中小角晶界失效机制的原位研究" . | 电子显微学报 41 . 6 (2022) : 587-593 . |
APA | 王文帅 , 李雪峤 , 龙海波 , 毛圣成 , 张泽 , 韩晓东 . 镍基单晶高温合金中小角晶界失效机制的原位研究 . | 电子显微学报 , 2022 , 41 (6) , 587-593 . |
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Abstract :
高熵合金突破了传统合金设计理念的桎梏,具有高强度、高硬度、高耐磨性及抗腐蚀性,是一种具有巨大发展前景的新型金属材料.然而,金属材料的强度与塑性之间存在倒置矛盾关系,高熵合金仍受困于这一难题.因此,设计开发兼具高强度与高塑性的高熵合金材料已成为目前研究热点与难点.近年来,异构设计理念在传统金属材料强韧化这一问题上得到发展,如何设计异构高熵合金以实现高熵合金强韧化,使合金兼具高强度与高塑性,引起了科研人员的重视.本文从异构显微组织尺度出发,综述了目前存在的异构显微结构设计方法,分析了不同异构组织对其强韧化机制及力学性能的影响,并对未来高强韧高熵合金显微结构设计进行了展望.
Keyword :
异构 异构 力学性能 力学性能 强韧化 强韧化 高熵合金 高熵合金
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GB/T 7714 | 安子冰 , 毛圣成 , 张泽 et al. 高熵合金跨尺度异构强韧化及其力学性能研究进展 [J]. | 金属学报 , 2022 , 58 (11) : 1441-1458 . |
MLA | 安子冰 et al. "高熵合金跨尺度异构强韧化及其力学性能研究进展" . | 金属学报 58 . 11 (2022) : 1441-1458 . |
APA | 安子冰 , 毛圣成 , 张泽 , 韩晓东 . 高熵合金跨尺度异构强韧化及其力学性能研究进展 . | 金属学报 , 2022 , 58 (11) , 1441-1458 . |
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Abstract :
Although cross-slip strongly affects the deformation of polycrystalline materials, the phenomenon is rarely studied in twinned face centered cubic (FCC) metals. Here we performed in-situ TEM nanoindentation on a twinned nickel bi-crystal. Multiple pile-ups were generated, with the first dislocations pinned at a coherent twin boundary (CTB) and multiple following dislocations cross-slipping within the matrix. Stress calculation revealed that the cross-slip events are made possible by the CTB, the first dislocations, and the favorable shear stress created jointly by external stress and dislocation interaction. These cross-slip events reduce tip stress and soften the material until inter-grain plasticity is eventually activated. IMPACT STATEMENT In-situ TEM nanoindentation reveals the characteristics of dislocation pinning, pile-ups and cross-slip along the twinning boundary in a twinned FCC metal for the first time.
Keyword :
cross-slip cross-slip in-situ TEM nanoindentation in-situ TEM nanoindentation Coherent twin boundary Coherent twin boundary dislocation pinning dislocation pinning pile-up pile-up
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GB/T 7714 | Li, Zhipeng , Zhang, Jianfei , Zhai, Yadi et al. Dynamic mechanisms of strengthening and softening of coherent twin boundary via dislocation pile-up and cross-slip [J]. | MATERIALS RESEARCH LETTERS , 2022 , 10 (8) : 539-546 . |
MLA | Li, Zhipeng et al. "Dynamic mechanisms of strengthening and softening of coherent twin boundary via dislocation pile-up and cross-slip" . | MATERIALS RESEARCH LETTERS 10 . 8 (2022) : 539-546 . |
APA | Li, Zhipeng , Zhang, Jianfei , Zhai, Yadi , Zhang, Jiabao , Wang, Xiaodong , Zhang, Ze et al. Dynamic mechanisms of strengthening and softening of coherent twin boundary via dislocation pile-up and cross-slip . | MATERIALS RESEARCH LETTERS , 2022 , 10 (8) , 539-546 . |
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Abstract :
High-entropy alloys overcome the limitations posed by traditional alloys due to features such as high strength, toughness, high wear resistance, and corrosion resistance. These alloys are novel metallic materials with excellent application potential; however, typically an inverse relationship is observed between the strength and ductility of a metal, which includes high-entropy alloys. Therefore, the design and development of high entropy alloys with high strength and high ductility have become a limitation in current research. Recently, heterostructure design has achieved great success in strengthening and toughening traditional metallic materials. Heterostructured and high-entropy alloys has garnered much attention and research interest to realize the strength and toughness of high-entropy alloys with high strength and high ductility. This study reviews the existing design models for heterostructures from the heterostructure scale perspective. Furthermore, the effects of different heterostructures on the strengthening and toughening mechanism and mechanical properties were analyzed, and future microstructural designs with high strength and toughness were anticipated.
Keyword :
high-entropy alloy high-entropy alloy heterostructure heterostructure mechanical property mechanical property strengthening and toughening strengthening and toughening
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GB/T 7714 | An Zibing , Mao Shengcheng , Zhang Ze et al. Strengthening-Toughening Mechanism and Mechanical Properties of Span-Scale Heterostructure High-Entropy Alloy [J]. | ACTA METALLURGICA SINICA , 2022 , 58 (11) : 1441-1458 . |
MLA | An Zibing et al. "Strengthening-Toughening Mechanism and Mechanical Properties of Span-Scale Heterostructure High-Entropy Alloy" . | ACTA METALLURGICA SINICA 58 . 11 (2022) : 1441-1458 . |
APA | An Zibing , Mao Shengcheng , Zhang Ze , Han Xiaodong . Strengthening-Toughening Mechanism and Mechanical Properties of Span-Scale Heterostructure High-Entropy Alloy . | ACTA METALLURGICA SINICA , 2022 , 58 (11) , 1441-1458 . |
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Abstract :
This study explored a multi-mechanism approach to improving the mechanical properties of a CoCrFeMnNi high-entropy alloy through non-equiatomic alloy design and processing. The alloy design ensures a single-phase face-centered cubic structure while lowering the stacking fault energy to encourage the formation of deformation twins and stacking faults by altering the equiatomic composition of the alloy. The processing strategy applied helped create a hierarchical grain size gradient microstructure with a high nanotwins population. This was achieved by means of rotationally accelerated shot peening (RASP). The non-equiatomic CoCrFeMnNi high-entropy alloy achieved a yield strength of 750 MPa, a tensile strength of 1050 MPa, and tensile uniform elongation of 27.5%. The toughness of the alloy was 2.53 x 10(10) kJ/m(3), which is about 2 times that of the same alloy without the RASP treatment. The strength increase is attributed to the effects of grain boundary strengthening, dislocation strengthening, twin strengthening, and hetero-deformation strengthening associated with the heterogeneous microstructure of the alloy. The concurrent occurrence of the multiple deformation mechanisms, i.e., dislocation deformation, twining deformation and microband deformation, contributes to achieving a suitable strain hardening of the alloy that helps to prevent early necking and to assure steady plastic deformation for high toughness. (C) 2021 Published by Elsevier Ltd on behalf of Chinese Society for Metals.
Keyword :
Deformation mechanism Deformation mechanism Mechanical property Mechanical property Gradient and hierarchical structure Gradient and hierarchical structure High entropy alloy High entropy alloy
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GB/T 7714 | An, Zibing , Mao, Shengcheng , Liu, Yinong et al. Hierarchical grain size and nanotwin gradient microstructure for improved mechanical properties of a non-equiatomic CoCrFeMnNi high-entropy alloy [J]. | JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY , 2021 , 92 : 195-207 . |
MLA | An, Zibing et al. "Hierarchical grain size and nanotwin gradient microstructure for improved mechanical properties of a non-equiatomic CoCrFeMnNi high-entropy alloy" . | JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY 92 (2021) : 195-207 . |
APA | An, Zibing , Mao, Shengcheng , Liu, Yinong , Zhou, Hao , Zhai, Yadi , Tian, Zhiyong et al. Hierarchical grain size and nanotwin gradient microstructure for improved mechanical properties of a non-equiatomic CoCrFeMnNi high-entropy alloy . | JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY , 2021 , 92 , 195-207 . |
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