疲劳与环境解耦对在役机体点蚀的治理

L. Molent, R. Wanhill
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引用次数: 1

摘要

腐蚀引起的维修是飞机结构成本驱动和可用性降低的重要因素。虽然完善的分析能够评估腐蚀对结构完整性的影响,但对于疲劳形核和裂纹扩展却不是这样。这迫使机队管理人员直接解决检测到的腐蚀问题,以维护飞行安全。尽管保护系统不可避免地会发生腐蚀损坏。特别是,点蚀是一种常见的潜在疲劳源。腐蚀坑是一种不连续点,它的度量可以用来预测对结构部件疲劳寿命的影响。然而,损害容忍度(DT)方法将更加有用和灵活。DT的一个潜在障碍是假设腐蚀引起的疲劳成核转变为腐蚀疲劳,这在服务环境中知之甚少。幸运的是,有几个来源表明,腐蚀疲劳对飞机来说是罕见的,而且腐蚀主要局限于地面情况,因为飞机通常在低温度和低湿度的高度飞行。因此,提出腐蚀与飞行中的动态(疲劳)载荷解耦是合理的。本文提供了支持这一命题的信息,并提供了DT方法如何允许将腐蚀维护推迟到更合适的时间的示例。
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Management of Airframe In-Service Pitting Corrosion by Decoupling Fatigue and Environment
Corrosion-induced maintenance is a significant cost driver and availability degrader for aircraft structures. Although well-established analyses enable assessing the corrosion impact on structural integrity, this is not the case for fatigue nucleation and crack growth. This forces fleet managers to directly address detected corrosion to maintain flight safety. Corrosion damage occurs despite protection systems, which inevitably degrade. In particular, pitting corrosion is a common potential source of fatigue. Corrosion pits are discontinuities whose metrics can be used to predict the impact on the fatigue lives of structural components. However, a damage tolerance (DT) approach would be more useful and flexible. A potential hindrance to DT has been the assumption that corrosion-induced fatigue nucleation transitions to corrosion fatigue, about which little is known for service environments. Fortunately, several sources indicate that corrosion fatigue is rare for aircraft, and corrosion is largely confined to ground situations because aircraft generally fly at altitudes with low temperature and humidity Thus, it is reasonable to propose the decoupling of corrosion from the in-flight dynamic (fatigue) loading. This paper presents information to support this proposition, and provides an example of how a DT approach can allow deferring corrosion maintenance to a more opportune time.
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