Application of bird-strike verified analysis for the design of fast helicopter composite cowling

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
R. Doubrava, M. Oberthor, P. Bělský, B. Cabrnoch
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引用次数: 0

Abstract

PurposeThe purpose of this paper is to describe the approach for the design of cowlings for a new fast helicopter from the perspective of airworthiness requirements regarding high-speed impact resistance.Design/methodology/approachValidated numerical simulation was applied to flat and simple curved test panels. High-speed camera measurement and non-destructive testing (NDT) results were used for verification of the numerical models. The final design was optimized and verified by validated numerical simulation.FindingsThe comparison between numerical simulation based on static material properties with experimental results of high-speed load shows no significant influence of strain rate effect in composite material.Research limitations/implicationsOwing to the sensitivity of the composite material on technology production, the results are limited by the material used and the production technology.Practical implicationsThe application of flat and simple curved test panels for the verification and calibration of numerical models allows the optimized final design of the cowling and reduces the risk of structural non-compliance during verification tests.Originality/valueNumerical models were verified for simulation of the real composite structure based on high-speed camera results and NDT inspection after impact. The proposed numerical model was simplified for application in a complex design and reduced calculation time.
鸟击验证分析在快速直升机复合整流罩设计中的应用
目的从高速抗冲击适航要求的角度,介绍一种新型快速直升机整流罩的设计方法。设计/方法/方法验证的数值模拟应用于平面和简单弯曲的试验板。高速摄像机测量和无损检测(NDT)结果用于验证数值模型。通过验证的数值模拟对最终设计进行了优化和验证。结果基于材料静态特性的数值模拟与高速载荷实验结果的比较表明,复合材料中的应变速率效应没有显著影响。研究局限性/含义由于复合材料对技术生产的敏感性,结果受到所用材料和生产技术的限制。实际意义应用平面和简单弯曲的试验板来验证和校准数值模型,可以优化整流罩的最终设计,并降低验证试验期间结构不符合要求的风险。原创性/价值基于高速摄像机的结果和冲击后的无损检测,验证了用于模拟真实复合材料结构的数值模型。所提出的数值模型被简化以用于复杂的设计,并减少了计算时间。
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来源期刊
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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