高温合金在不同载荷下的表面裂纹扩展

None M. Abdulrazzaq, None Mahmoud. A. Hassan
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引用次数: 2

摘要

本文的主要目的是对Ni-Al- 315钢高温合金圆棒表面裂纹进行实验和数值检测,并计算引起合金烧结的裂纹深度。有几个因素导致了表面缺陷,如冶金缺陷和缺口。利用位移法可以在观察到的裂纹增加处估计表面裂纹的方向。考虑了各种裂纹宽高比(a/b,范围从0.0到1.0)和相对裂纹深度(a/D,范围从0.2到0.4)。利用粉末冶金技术成功地对高温合金(Ni、Al和315钢)进行了改性。试样通常由六层组成,从(Al, Ni)开始横跨一侧,以(Ni-Al- 315钢)结束另一侧。采用透射电子显微镜(SEM)仪器分析方法对高温合金表面裂纹进行了检测,并用X-pert分析程序对其微观组织进行了详细分析。
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Surface cracks growth for superalloy in a round bar under different loading
The main objective of this paper is to experimentally and numerically detect the surface cracks in the round bar for Ni-Al- 315 steel superalloy and calculate the crack depth which induces the sintering of these alloys. Several factors have contributed to surface defects, such as metallurgical defects and notches. The surface crack orientation can be estimated at the observed crack increase by using displacement. Various crack aspect ratios, a/b, ranging from 0.0 to 1.0, and relative crack depth, a/D, ranging from 0.2 to 0.4, are considered. The superalloy (Ni, Al and 315 steel) has been successfully modified utilizing the powder metallurgical process. The specimens are typically made up of Six layers, starting with (Al, Ni) across one side and ending with (Ni-Al- 315 steel) on another. Transmission electron microscopy (SEM) Instrument analysis has been used to detect the surface cracks and analyze the microstructure of superalloy used in detail using the X-pert analytical program.
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