题名: |
Testing and Analysis of a Composite Non-Cylindrical Aircraft Fuselage Structure. |
作者: |
Przekop, A.; Jegley, D. C.; Lovejoy, A. E.; Rouse, M.; Wu, H. T. |
关键词: |
Fuselages, Aircraft structures, Composite structures, Wing loading, Pressurized cabins, Damage, Composite materials, Loads (forces), Airframes, Wings, Bending, Failure, Evaluation |
摘要: |
The Environmentally Responsible Aviation Project aimed to develop aircraft technologies enabling significant fuel burn and community noise reductions. Small incremental changes to the conventional metallic alloy-based 'tube and wing' configuration were not sufficient to achieve the desired metrics. One airframe concept identified by the project as having the potential to dramatically improve aircraft performance was a composite-based hybrid wing body configuration. Such a concept, however, presented inherent challenges stemming from, among other factors, the necessity to transfer wing loads through the entire center fuselage section which accommodates a pressurized cabin confined by flat or nearly flat panels. This paper discusses a finite element analysis and the testing of a large-scale hybrid wing body center section structure developed and constructed to demonstrate that the Pultruded Rod Stitched Efficient Unitized Structure concept can meet these challenging demands of the next generation airframes. Part II of the paper considers the final test to failure of the test article in the presence of an intentionally inflicted severe discrete source damage under the wing up-bending loading condition. Finite element analysis results are compared with measurements acquired during the test and demonstrate that the hybrid wing body test article was able to redistribute and support the required design loads in a severely damaged condition. |
总页数: |
Przekop, A.; Jegley, D. C.; Lovejoy, A. E.; Rouse, M.; Wu, H. T. |
报告类型: |
科技报告 |