A Microstructure-Based Model for Creep of Gamma Prime Strengthened Nickel-Based Superalloys

Oruganti Ramkumar; Shukla Adarsh; Nalawade Sachin; Sarkar Sanket; Sivakumar K. G. V.; Vishwanath T.; Sondhi Sanjay; Wessman Andrew; Wei Daniel; Powell Andrew; Bain Kenneth; Schaeffer Jon; Peck Arthur; Arnett Michael; Shastry Girish; Mastromatteo Francesco

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A Microstructure-Based Model for Creep of Gamma Prime Strengthened Nickel-Based Superalloys

机译：基于显微组织的γ强化镍基高温合金蠕变模型

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This paper outlines a microstructure-based model relating gamma prime microstructure and grain size of Ni-base alloys to their creep behavior. The ability of the model to explain creep of multiple superalloys with a single equation and parameter set is demonstrated. The only parameters that are changed from alloy to alloy are related to the gamma prime characteristics and grain size. This model also allows prediction of creep performance as a function of heat treatment and explains some apparently contradictory data from the literature.

机译：本文概述了基于微观结构的模型，该模型将γ素微观结构和Ni基合金的晶粒尺寸与其蠕变行为联系起来。证明了该模型具有单个方程式和参数集来解释多个高温合金蠕变的能力。随合金变化的唯一参数与伽马素特征和晶粒尺寸有关。该模型还可以预测蠕变性能与热处理之间的函数关系，并可以解释文献中一些明显矛盾的数据。

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来源
《Journal of engineering materials and technology》 |2019年第1期|011001.1-011001.5|共5页
作者
Oruganti Ramkumar; Shukla Adarsh; Nalawade Sachin; Sarkar Sanket; Sivakumar K. G. V.; Vishwanath T.; Sondhi Sanjay; Wessman Andrew; Wei Daniel; Powell Andrew; Bain Kenneth; Schaeffer Jon; Peck Arthur; Arnett Michael; Shastry Girish; Mastromatteo Francesco;
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作者单位

GE Global Res, Bangalore 560066, Karnataka, India;

GE Global Res, Bangalore 560066, Karnataka, India;

GE Global Res, Bangalore 560066, Karnataka, India;

GE Global Res, Bangalore 560066, Karnataka, India;

GE Global Res, Bangalore 560066, Karnataka, India;

GE Global Res, Bangalore 560066, Karnataka, India;

GE Global Res, Bangalore 560066, Karnataka, India;

GE Aviat, Cincinnati, OH 45069 USA;

GE Aviat, Cincinnati, OH 45069 USA;

GE Aviat, Cincinnati, OH 45069 USA;

GE Aviat, Cincinnati, OH 45069 USA;

GE Power, Greenville, SC 29615 USA;

GE Power, Greenville, SC 29615 USA;

GE Power, Greenville, SC 29615 USA;

GE Power, Bangalore 560066, Karnataka, India;

BHGE, I-50127 Florence, Italy;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
superalloy; creep; model; gamma prime; particle spacing; continuum damage mechanics;

机译：高温合金;蠕变;模型;γ素;粒子间距;连续损伤力学;

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1. Improving creep resistance of nickel-based superalloy Inconel 718 by tailoring gamma double prime variants [J] . Zhang Hongjun, Li Chong, Guo Qianying, Scripta materialia . 2019,第期

机译：通过剪裁伽玛双重素变体提高镍基超合金inconel 718的蠕变电阻
2. A coupled, physics-based matrix-grain boundary model for creep of carbide strengthened nickel-based superalloys - Ⅱ. Experimental results and model application [J] . Spader Daniel, Lapera Michael, Ghonem Hamouda Materials Science and Engineering . 2020,第Jana2期

机译：碳化物增强镍基高温合金蠕变的基于物理学的耦合基体-晶界模型-Ⅱ。
3. X-Ray Rocking Curve Measurements of Dislocation Density and Creep Strain Evolution in Gamma Prime-Strengthened Ni-Base Superalloys [J] . Kumar K. G. V. Siva, Oruganti Ramkumar, Chatterjee Partha Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2019,第1期

机译：γ峰值摇弧曲线曲线测量伽马素加强的Ni基超合金中的脱位密度和蠕变应变进化
4. (27-0224)Strength Prediction of Ni-base Disc Superalloy: Modelling of Gamma Prime Strengthening [C] . Liberty WU, Toshio Osada, Ikumu Watanabe, 日本金属学会秋期大会 . 2018

机译：（27-0224）Ni-Base Code超合金的强度预测：伽玛原装加固建模
5. Microstructure and Mechanical Properties in Gamma(face-centered cubic) + Gamma Prime(L12) Precipitation-Strengthened Cobalt-based Superalloys. [D] . Bocchini, Peter J. 2015

机译：Gamma（面心立方）+ Gamma Prime（L12）沉淀强化钴基高温合金的显微组织和力学性能。
6. The Effect of Withdrawal Rate on Crystal Structure Perfection Microstructure and Creep Resistance of Single Crystal Castings Made of CMSX-4 Nickel-Based Superalloy [O] . Kamil Gancarczyk, Maciej Zubko, Aneta Hanc-Kuczkowska, 2019

机译：撤离速率对CMSX-4镍基高温合金单晶铸件的晶体结构完善显微组织和抗蠕变性的影响
7. Stress Exponent of Minimum Creep Rate and Activation Energy of Creep for Oxide Dispersion-strengthened Nickel-based Superalloy MA754 [O] . Nobuhiro Miura, Naoki Harada, Yoshihiro Kondo, 2012

机译：氧化氧化物分散的最小蠕变率和激活能量的应力指数 - 加强镍基超合金MA754
8. Atom probe analysis of the compositions of (gamma)(prime) and (gamma)(double prime) intermetallic phases in nickel-based superalloy 718. [R] . Miller, M. K., Burke, M. G. 1990

机译：在镍基超合金718中的（γ）（初级）和（γ）（双初级）金属间相的组成的原子探针分析。

A Microstructure-Based Model for Creep of Gamma Prime Strengthened Nickel-Based Superalloys

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