通过微观组织结构分析，揭示了材料在室温下产生蠕变行为的原因，并解释了两种材料蠕变行为的差异。

Substructure analysis of the materials elucidates the reasons for creep of the materials at room temperature and accounts for the difference between the two tested materials in creep behaviour.

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试样的微观断口分析显示了在高温应变疲劳试验中同时存在疲劳、蠕变和氧化损伤。

The results show that fatigue, creep and oxidation damage always develops simultaneously during low cycle fatigue at high temperature.

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通过进行蠕变曲线测定和组织形貌观察，研究了FGH95粉末镍基合金的微观组织结构与蠕变行为。

By means of the measurement of creep curves and microstructure observation, an investigation has been made into the microstructure and creep behaviors of FGH95 powder nickel-base superalloy.

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