Evaluation of new multiaxial damage parameters on low carbon steel

Fracture and Structural Integrity Pub Date : 2017-06-28 DOI:10.3221/IGF-ESIS.41.08
A. S. Cruces, P. Lopez‐Crespo, B. Moreno, A. Lopez-Moreno, S. Suman
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Abstract

Most mechanical components are subjected to the complex fatigue loading conditions, where both amplitude and direction of loading cycles change over the time. The estimation of damage caused by these complex loading scenarios are often done by simplified uniaxial fatigue theories, which ultimately leads to higher factor of safety during the final design considerations. Critical plane-based fatigue theories have been considered more accurate for computing the fatigue damage for multiaxial loading conditions in comparison to energy-based and equivalent stress-based theories. Two recently developed fatigue theories have been evaluated in this work for the available test data. Test data includes significant amount of biaxial load paths.
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低碳钢多轴损伤新参数的评价
大多数机械部件都处于复杂的疲劳载荷条件下,载荷周期的振幅和方向随时间而变化。对于这些复杂载荷情况下的损伤,通常采用简化的单轴疲劳理论进行估计,从而在最终设计考虑时获得更高的安全系数。与基于能量和等效应力的理论相比,基于临界平面的疲劳理论被认为在计算多轴载荷条件下的疲劳损伤时更为准确。根据现有的试验数据,本文对两种最近发展起来的疲劳理论进行了评估。测试数据包括大量的双轴载荷路径。
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Fracture and Structural Integrity
Fracture and Structural Integrity
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