首页> 美国政府科技报告 >Softening mechanisms and microstructural instabilities during high temperature, low cycle fatigue of Ni, Ni3Al and their metal matrix composites. Progress report, June 1, 1990-September 30, 1990.

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Softening mechanisms and microstructural instabilities during high temperature, low cycle fatigue of Ni, Ni3Al and their metal matrix composites. Progress report, June 1, 1990-September 30, 1990.

机译：Ni，Ni3al及其金属基复合材料高温，低周疲劳过程中的软化机制和显微组织不稳定性。进展报告，1990年6月1日至1990年9月30日。

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This report summarizes work done during the period of June 1st, 1990 to September 30, 1990. Progress is discussed in the following areas: modification of reinforcements for aluminide matrix composites, dynamic recrystallization and microstructure developm ...

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作者
D. S. Grummon G. Gottstein;
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年度 1990
页码 1-14
总页数 14
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Aluminium Alloys; Composite Materials; Creep; EDB/360202; EDB/360203; EDB/360603; Fatigue; Intermetallic Compounds; Microstructure; Nickel; Nickel Base Alloys; Progress Report; Recrystallization; Texture;

机译：铝合金;复合材料;蠕变; EDB / 360202; EDB / 360203; EDB / 360603;疲劳;金属间化合物;显微组织;镍;镍基合金;进展报告;再结晶;织构;

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1. Plastic flow instabilities of L1(2) Ni3Al alloys at intermediate temperatures [J] . Honjo H, Kaneno Y, Inoue H, Journal of Materials Science . 2004,第11期

机译：L1（2）Ni3Al合金在中间温度下的塑性流动不稳定性
2. Investigation of Cumulative Fatigue Damage Through Sequential Low Cycle Fatigue and High Cycle Fatigue Cycling at High Temperature for a Type 316LN Stainless Steel: Life-Prediction Techniques and Associated Mechanisms [J] . Sarkar Aritra, Nagesha A., Parameswaran P., Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2017,第3期

机译：316LN不锈钢高温下顺序低循环疲劳和高循环疲劳循环循环抗疲劳损伤的研究：寿命预测技术与相关机制
3. Softening Mechanisms and Microstructural Evolution in a Low Stacking Fault Energy Material Between Warm and Hot Working Temperatures [J] . Arunkumar G., Aashranth B., Samantaray Dipti, Transactions of the Indian Institute of Metals . 2019,第6期

机译：温暖和热工作温度之间的低堆叠故障能量材料中的软化机制和微观结构演化
4. Effect of hybrid reinforcement on crack initiation and early propagation mechanisms in cast metal matrix composites during low cycle fatigue [C] . AKM Asif Iqbal, Yoshio Arai, Wakako Araki 日本学術会議材料工学連合講演会 . 2012

机译：杂交增强对低循环疲劳期间铸造金属基复合材料裂纹启动及早期繁殖机制的影响
5. A new model for predicting low cycle fatigue behavior of discontinuously reinforced metal matrix composites. [D] . Zhang, Qian. 2004

机译：预测不连续增强金属基复合材料低周疲劳行为的新模型。
6. A Simulation of Low and High Cycle Fatigue Failure Effects for Metal Matrix Composites Based on Innovative J2-Flow Elastoplasticity Model [O] . Zhaoling Wang, Heng Xiao 2017

机译：基于创新的J2-Flow弹塑性模型的金属基复合材料低周疲劳疲劳破坏效应仿真
7. Effect of Shape of Alumina Reinforcements on Elevated Temperature Tensile Properties of Ni3Al Matrix Composites. [O] . Ryuichi Yamashita, Kenzo Fukaura, Hisakichi Sunada, 1994

机译：氧化铝增强物形状对Ni3Al基质复合材料升高温度拉伸性能的影响。
8. Softening mechanisms and microstructural instabilities during high temperature, low cycle fatigue of Ni, Ni(3)Al and their metal matrix composites. Progress report, June 1, 1989-May 31, 1990. [R] . Grummon, D. S., Gottstein, G. 1989

机译：Ni，Ni（3）al及其金属基复合材料高温，低周疲劳过程中的软化机制和显微组织不稳定性。进展报告，1989年6月1日至1990年5月31日。

Softening mechanisms and microstructural instabilities during high temperature, low cycle fatigue of Ni, Ni3Al and their metal matrix composites. Progress report, June 1, 1990-September 30, 1990.

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