Morphology of γ′ Precipitates in a First Stage Low Pressure Turbine Blade of a Ni-Based Superalloy after Service and after Following Aging

N. Miura, Y. Kondo
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引用次数: 5

Abstract

To estimate the temperature distribution, stress distribution, and stress direction in a blade in service, the morphology of γ′ precipitates in Ni-based superalloy serviced in the first stage low pressure turbine (1st LPT) blade of a jet engine was investigated before and after aging. Using a field emission scanning electron microscope, microstructures were observed in forty portions of the blade. Most of the γ′ precipitates remained cuboidal in the serviced blade. Many secondary γ′ precipitates were observed in the γ matrix at the root part. In contrast, there were no secondary γ′ precipitates at the leading edge of the tip part. After simple aging, low-completion rafted γ/γ′ structures appeared on the suction side of the 70 mm part, while in other portions, coarsening of the γ′ precipitates was observed. Therefore, the leading edge of the 1st LPT blade tip was exposed to the highest temperatures in service. However, the stresses were extremely low in all portions of the blade.
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ni基高温合金第一级低压涡轮叶片服役后和时效后γ′析出物的形貌
为了解叶片在使用过程中的温度分布、应力分布和应力方向,研究了某喷气发动机一级低压涡轮叶片ni基高温合金时效前后γ′析出相的形貌。利用场发射扫描电镜观察了叶片40个部位的显微组织。大部分γ′析出物在叶片中仍保持立方态。在根部γ基体中观察到许多次生γ′析出。而在尖端边缘处则没有二次γ′析出。简单时效后,70 mm部位吸力侧出现低完成度的筏形γ/γ′组织,其余部位γ′析出相粗化。因此,第一LPT叶片尖端的前缘在使用中暴露在最高温度下。然而,叶片所有部分的应力都极低。
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