Non-cylindrical Fuselage Structural Optimization of BWB Civil Aircraft

机译：BWB民用飞机非圆柱形机身结构优化

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Blended-Wing-Body (BWB) civil aircraft possesses so light structure, high lift-drag ratio and low fuel burn that it has been an important topic of future civil aircraft. But internal pressure causes large bending stress instead of skin-membrane stress in BWB non-cylindrical fuselage. For 150 seats BWB fuselage, a composite 3-bay fuselage model is analyzed and two improved configurations of braced fuselage derivatives are designed in this paper. By optimization analysis, the optimized non-cylindrical fuselage structures are obtained in low bending stress and deformation condition, and optimized layer thicknesses ratio of composite material are presented. The optimization conclusions are very valuable and applicable for the fuselage structural design of BWB civil aircraft.

机译：混合翼飞机（BWB）民用飞机结构轻巧，升阻比高，燃油消耗低，已成为未来民用飞机的重要课题。但是内部压力会导致较大的弯曲应力，而不是BWB非圆柱形机身的皮肤膜应力。对于150个座位的BWB机身，分析了复合式3托架机身模型，并设计了两种改进的支撑式机身衍生配置。通过优化分析，获得了在低弯曲应力和变形条件下的优化非圆柱机身结构，并提出了复合材料的优化层厚比。优化结论非常有价值，可用于BWB民用飞机的机身结构设计。

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来源
《ICAMCS 2011;International conference on advanced materials and computer science》|2012年|p.1736-1739|共4页
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作者
Zhang Yongjie; Wang Bintuan;
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正文语种
中图分类计算技术、计算机技术;工程材料一般性问题;
关键词
BWB civil aircraft; non-cylindrical fuselage; internal pressure; structure optimization;

机译：BWB民用飞机;非圆柱形机身内部压力结构优化;

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机译：WAGNER：民用运输机机身参数结构研究的新规范
2. Impact test and numerical simulation of typical sub-cargo fuselage section of civil aircraft [J] . Mou Haolei, Xie Jiang, Liu Yi, Aerospace science and technology . 2020,第Deca期

机译：民用飞机典型子货机身段的冲击试验与数值模拟
3. Crashworthiness study on hybrid energy absorbers as vertical struts in civil aircraft fuselage designs [J] . Paz Mendez Javier, Diaz Garcia Jacobo, Romera Rodriguez Luis E., International Journal of Crashworthiness . 2020,第3a4期

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4. Testing and Analysis of a Composite Non-Cylindrical Aircraft Fuselage Structure, Part Ⅱ: Severe Damage [C] . Adam Przekop, Dawn C. Jegley, Andrew E. Lovejoy, AIAA/ASCE/AHS/ASC structures, structural dynamics and materials conference;AIAA SciTech Forum . 2016

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5. Optimization of aircraft interior noise reduction with fuselage sidewall standoff constraining layer damping treatments. [D] . Sio, Wan Nok. 2006

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6. Aircraft Fuselage Corrosion Detection Using Artificial Intelligence [O] . Bruno Brandoli, André R. de Geus, Jefferson R. Souza, 2021

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7. Analysis, Design and Optimization of Non-Cylindrical Fuselage for Blended-Wing-Body (BWB) Vehicle [O] . Mukhopadhyay, V., Kosaka, I., Sobieszczanski-Sobieski, J., 2002

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8. Analysis, Design and Optimization of Non-Cylindrical Fuselage for Blended-Wing-Body (BWB) Vehicle [R] . Mukhopadhyay, V. , Sobieszczanski-Sobieski, J. , Kosaka, I. , 2002

机译：混合翼体（BWB）车辆非圆柱形机身的分析，设计与优化

Non-cylindrical Fuselage Structural Optimization of BWB Civil Aircraft

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