提出了含三相正交分布等尺寸微裂纹的准脆性材料稳定扩展的细观损伤演化模型。

The stable growth of cracks in a brittle material with three mutually perpendicular families of microcracks under proportional tensile loads was studied.

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文中以裂纹连续扩展的断裂力学方法，研究单向纤维复合材料的细观损伤演化与韧度计算。

The methodology of fracture mechanics based on continuous crack growth was applied to the investigation of the microscopic damage evolution and toughness calculation for fiber composites.

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针对以缺陷密度为参量的细观损伤演化模型的局限性，着重研究了微裂纹尺寸对损伤演化的影响。

The effect of the microcracks size on damage evolution was investigated to overcome the limitations of damage models based only on defect density.

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