Fracture Parameters of Surface Cracks in Compressor Disks

W. Zhuang, B. J. Wicks
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Abstract

The elastic and elastic-plastic fracture mechanics parameters of surface cracks in compressor disks of aircraft engines are evaluated using both the finite element method and the weight function method. First, a three-dimensional finite element model of a low-pressure compressor disk containing a surface crack at the snap radius is developed. The stress intensity factor distributions along the surface crack front with various crack shapes and sizes in the disk under a typical engine operation condition are calculated. Then, the effect of biaxial stresses on the stress intensity factor of a crack emanating from a tie bolt hole in a representative compressor disk is investigated using the weight function approach. Emphasis is given to determining the effect of the bolt hole plastic zone on the fracture parameters when the compressor disk is highly loaded. Finally, a new theoretical model for the estimation of the fracture parameters of a through-thickness crack in the web region is proposed using a definition of local biaxial stress ratio. The studies show that the developed model can provide better estimation of the plastic zone size and the crack-tip opening displacement than those existing models.
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压缩机盘片表面裂纹的断裂参数
采用有限元法和权函数法对航空发动机压气机盘表面裂纹的弹性和弹塑性断裂力学参数进行了计算。首先,建立了在卡扣半径处含有表面裂纹的低压压气机盘的三维有限元模型。计算了典型发动机工况下,不同裂纹形状和尺寸的圆盘表面裂纹前缘的应力强度因子分布。然后,采用权函数法研究了双轴应力对典型压气机盘系螺栓孔裂纹应力强度因子的影响。重点研究了螺栓孔塑性区对高负荷压气机盘断裂参数的影响。最后,利用局部双轴应力比的定义,提出了一种估算腹板区域贯通裂纹断裂参数的新理论模型。研究表明,所建立的模型能较好地估计塑性区尺寸和裂纹尖端张开位移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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