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首页> 外文期刊>Progress in Aerospace Sciences >The potential for structural simulation to augment full scale fatigue testing: A review
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The potential for structural simulation to augment full scale fatigue testing: A review

机译:结构模拟的潜力以增强全规模疲劳检测:综述

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The paper reviews the current state-of-the art of modern computational tools which can be adopted to support Full-Scale Fatigue Tests (FSFTs) of airframes. A suite of validated and verified simulation tools could potentially deliver significant time and cost savings during the design, certification, and operation phases of both civilian and military aircraft. The review is largely derived from research articles published in international journals and conference proceedings over the past 10 years. An emphasis is placed on computer-based multiscale fatigue damage modelling techniques, probabilistic approaches, and experimental methods, which have emerged over the past decade for both metallic and composite structures. Finally, several recommendations are made on the further development of computational simulation tools for the purpose of augmenting physical fatigue testing of airframes.
机译:本文审查了现代技术的最新技术,可以采用以支持机架的全规模疲劳测试(FSFT)。在平民和军用飞机的设计,认证和操作阶段,一套经过验证和经过验证的仿真工具可能会提供大量的时间和成本节约。该审查主要来自过去10年的国际期刊和会议诉讼中发表的研究文章。在过去十年中,重点放在基于计算机的多尺度疲劳损伤建模技术,概率方法和实验方法中,这些方法在过去十年中出现了金属和复合结构。最后,为了增强机架的物理疲劳测试,对计算模拟工具的进一步发展进行了若干建议。

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