Comprehensive Microstructural Characterization of γ' in a Nimonic Alloy Using Ultrasonic Velocity Measurements

G. V. S. Murthy; S. K. Das; B. Ravikumar

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Comprehensive Microstructural Characterization of γ' in a Nimonic Alloy Using Ultrasonic Velocity Measurements

机译：超声速度测量中镍合金中γ'的综合微观结构表征

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Microstructure of a crystalline material is a key factor in its technological applications as it determines a wide variety of properties including mechanical strength, toughness, corrosion resistance, and hardness. In Nimonic alloys, precipitation takes place during processing and on prolonged exposure to service at elevated temperatures. Consequently, knowledge about the precipitation phases and their influence on the various properties is of fundamental interest not only for its intrinsic study but also for its technological significance. The purpose of the present study is to explore the possibility of using ultrasonic velocity measurement in a Nimonic alloy and characterize the precipitation behavior on aging. It is concluded from this study that ultrasonic velocity is more sensitive than the conventional microstructural sensitive parameter like hardness due to its dependence on the chemical compositional variations.

机译：晶体材料的微观结构是其技术应用中的关键因素，因为它决定了各种特性，包括机械强度，韧性，耐腐蚀性和硬度。在含镍合金中，在加工过程中以及在高温下长时间使用会产生沉淀。因此，关于降水阶段及其对各种性质的影响的知识不仅对其内在研究而且对于其技术意义都具有根本的兴趣。本研究的目的是探讨在镍合金中使用超声波速度测量的可能性，并表征时效时的析出行为。从这项研究得出的结论是，由于超声波速度对化学成分变化的依赖性，因此它比常规的显微结构敏感参数（如硬度）更加敏感。

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《Metallography, Microstructure, and Analysis》 |2014年第4期|共8页
作者
G. V. S. Murthy; S. K. Das; B. Ravikumar;
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正文语种 eng
中图分类金属材料;
关键词
Microstructure; Nickel alloys; Precipitation phenomena;

机译：显微组织;镍合金;析出现象;

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专利

1. Comprehensive Microstructural Characterization of γ' in a Nimonic Alloy Using Ultrasonic Velocity Measurements [J] . G. V. S. Murthy, S. K. Das, B. Ravikumar Metallography, Microstructure, and Analysis . 2014,第4期

机译：超声速度测量中镍合金中γ'的综合微观结构表征
2. Comprehensive Microstructural Characterization in Modified 9Cr-1Mo Ferritic Steel by Ultrasonic Measurements [J] . ANISH KUMAR, K. LAHA, T. JAYAKUMAR Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2002,第6期

机译：超声测量对9Cr-1Mo铁素体钢的综合显微组织表征
3. On-line ultrasonic velocity measurements for characterization of microstructural evaluation during thermal aging of beta-quenched zircaloy-2 [J] . A. Nishara Begum, V. Rajendran, T. Jayakumar Materials Characterization . 2007,第6期

机译：在线超声速度测量以表征β淬火Zircaloy-2热老化过程中的微结构评估
4. CHARACTERIZATION OF SOLUTION ANNEALING BEHAVIOUR IN TITANIUM ALLOYS BY ULTRASONIC VELOCITY MEASUREMENTS [C] . Anish Kumar, Baldev Raj, T. Jayakumar, Review of Progress in Quantitative Nondestructive Evaluation . 2003

机译：超声速度测量表征钛合金中的固溶退火行为。
5. Microstructural characterization of ultrasonic impact treated aluminum-magnesium alloy. [D] . Tran, Kim Ngoc Thi. 2012

机译：超声冲击处理的铝镁合金的微观结构表征。
6. Microstructural Characterization and Mechanical Behavior of NiTi Shape Memory Alloys Ultrasonic Joints Using Cu Interlayer [O] . Wei Zhang, Sansan Ao, Joao Pedro Oliveira, 2018

机译：铜中间层的NiTi形状记忆合金超声接头的显微组织表征和力学行为
7. Influence of Microstructure on Ultrasonic Velocity in Nimonic Alloy PE16 [O] . Jayakumar, T. H., Raj, B., Willems, H., 1991

机译：镍合金PE16的组织对超声波速度的影响
8. Imaging Subtle Microstructural Variations in Ceramics with Precision Ultrasonic Velocity and Attenuation Measurements [R] . Generazio, E. R., Roth, D. J., Baaklini, G. Y. 1987

机译：用精密超声波速度和衰减测量方法研究陶瓷微观微结构变化

Comprehensive Microstructural Characterization of γ' in a Nimonic Alloy Using Ultrasonic Velocity Measurements

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