Interaction between particle precipitation and creep behavior in the NI-base Alloy 617B: Microstructural observations and constitutive material model

J. Haan; A. Bezold; C. Broeckmann

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Interaction between particle precipitation and creep behavior in the NI-base Alloy 617B: Microstructural observations and constitutive material model

机译：NI基合金617B中颗粒沉淀与蠕变行为之间的相互作用：微观结构观察和本构材料模型

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The creep behavior of the Ni-base Alloy 617B was analyzed at 725 ℃ with the focus on microstructural changes during temperature and stress exposure. High resolution electron microscopy of crept specimens reveals the precipitation behavior of secondary phases such as Cr-rich M_(23)C_6-carbides and the γ'-phase. Physical models are used to describe the Ostwald coarsening of the γ' particles and the evolution of the yield strength of the alloy. Together with the results from hot tensile tests and hardness measurements, a constitutive model for Alloy 617B has been developed. This model takes account of precipitation strengthening which is consistent with the microstructural observations, internal back stress due to dislocation hardening and material damage, all by evolutionary equations.

机译：在725℃下分析了镍基合金617B的蠕变行为，重点是温度和应力暴露期间的微结构变化。蠕变样品的高分辨率电子显微镜显示了诸如富铬M_（23）C_6-碳化物和γ'相等第二相的析出行为。物理模型用于描述γ'颗粒的Ostwald粗化和合金屈服强度的演变。结合热拉伸试验和硬度测量的结果，开发了617B合金的本构模型。该模型考虑了降水强化，这与微观结构观察，由于位错硬化而引起的内部背应力以及材料破坏（均通过演化方程式）相一致。

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《Materials Science and Engineering》 |2015年第29期|305-313|共9页
作者
J. Haan; A. Bezold; C. Broeckmann;
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作者单位

Institute for Materials Applications in Mechanical Engineering, RWTH Aachen Augustinerbach 4, 52062 Aachen, Germany;

Institute for Materials Applications in Mechanical Engineering, RWTH Aachen Augustinerbach 4, 52062 Aachen, Germany;

Institute for Materials Applications in Mechanical Engineering, RWTH Aachen Augustinerbach 4, 52062 Aachen, Germany;

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正文语种 eng
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关键词
Electron microscopy; Nickel-based superalloys; Hardening; Precipitation;

机译：电子显微镜;镍基高温合金;硬化;沉淀;

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1. Constitutive Model for Anisotropic Creep Behaviors of Single-Crystal Ni-Base Superalloys in the Low-Temperature, High-Stress Regime [J] . Yoon Suk Choi, Triplicane A. Parthasarathy, Christopher Woodward, Metallurgical and Materials Transactions A . 2012,第6期

机译：低温高应力状态下单晶镍基高温合金各向异性蠕变行为的本构模型
2. Constitutive Model for Anisotropic Creep Behaviors of Single-Crystal Ni-Base Superalloys in the Low-Temperature, High-Stress Regime [J] . YOON SUK CHOI, TRIPLICANE A. PARTHASARATHY, CHRISTOPHER WOODWARD Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2012,第6期

机译：低温高应力状态下单晶镍基高温合金各向异性蠕变行为的本构模型
3. Implementation of precipitation and ripening of second-phase particles in the constitutive modelling of creep [J] . B. Reichert, Y. Estrin, H. Schuster Scripta materialia . 1998,第9期

机译：蠕变本构模型中第二相颗粒沉淀和熟化的实现
4. Microstructural Evolution during Creep of Ni-Base Solid Solution Alloys and In-Situ Observation at High Temperature [C] . Y. Kurata, H. Utsumi, K. Kikuchi, Fourth International Conference on Recrystallization and Related Phenomena, Jul 13-16, 1999, Tsukuba City, Japan . 1999

机译：镍基固溶合金蠕变过程中的微观组织演变及高温的原位观察
5. Finite element modeling of particle interactions in creeping flow of yield stress materials. [D] . Liu, Benjamin Ted-Bing. 2002

机译：屈服应力材料蠕变流动中颗粒相互作用的有限元建模。
6. Effect of Solution Treatment on Precipitation Behaviors Age Hardening Response and Creep Properties of Elektron21 Alloy Reinforced by AlN Nanoparticles [O] . Abdollah Saboori, Elisa Padovano, Matteo Pavese, 2017

机译：固溶处理对AlN纳米颗粒增强Elektron21合金的析出行为时效响应和蠕变性能的影响
7. Effect of Solution Treatment on Precipitation Behaviors, Age Hardening Response and Creep Properties of Elektron21 Alloy Reinforced by AlN Nanoparticles [O] . Saboori, Abdollah, Padovano, Elisa, Pavese, Matteo, 2017

机译：固溶处理对AlN纳米颗粒增强Elektron21合金的析出行为，时效响应和蠕变性能的影响
8. Constitutive Model for Anisotropic Creep Behaviors of Single-Crystal Ni-Base Superalloys in the Low-Temperature, High-Stress Regime (Postprint). [R] . Woodward, C., Dimiduk, D. M., Uchic, M. D., 2012

机译：低温高应力状态下单晶Ni基高温合金各向异性蠕变行为的本构模型（后印刷）。

Interaction between particle precipitation and creep behavior in the NI-base Alloy 617B: Microstructural observations and constitutive material model

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