Delamination Buckling of Composite Conical Shells Under External Pressure

IF 0.8 4区 工程技术 Q3 MULTIDISCIPLINARY SCIENCES
A. Nagendranath, Sanjay Anandrao Khalane, Rajesh Kumar Gupta, Lakshmana Rao C
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Abstract

Airframe construction in conical form is the most desired shape of flight hardware due to their low drag profileand are located at the fore-end region of flight vehicles encountering high drag loads. Owing to their tailoringcapability, materials with orthotropic mechanical properties are preferred choice. Delamination defects formed inthem while manufacturing or when subjected to loads would unfavorably influence the mechanical performanceof the orthotropic airframe. In the current work, FE simulation of delamination which is embedded in orthotropiccone shaped shells under external pressure load is performed as per the method cited in published literature. A layer wise element based on shell theory has been used and the effect of delamination size and its through the thickness position on the mechanical performance of the cone shaped shell is investigated. Circumferential and rectangular shapes of defects have been simulated. The investigation is performed for metal and composite materials with 3 types of stacking sequences generally used in practical designs. Verification of the procedure is carried out by equating with the procedure cited in published studies on shells of thin orthotropic cylinders. The eigen value of the first mode is taken as the critical buckling factor under external pressure. The buckling factor of the delaminated cone is normalized with the buckling factor of the ideal cone. The normalized buckling factor is showed graphically with the normalised defect size. Global, as well as local buckling and also symmetric as well as asymmetric buckling shapes, are observed in the results of the simulation. Shift from global mode to local mode of buckling is also observed in certain cases. Drastic reduction in buckling capability with the local mode is observed when the defect location is close to the surface and more prominent for an outer surface case.
复合材料锥形壳体在外部压力下的分层屈曲
圆锥形的机身结构是飞行硬件中最受欢迎的形状,因为其阻力小,而且位于飞行器的前端区域,会遇到高阻力载荷。由于其可定制性,具有各向同性机械性能的材料成为首选。在制造过程中或承受载荷时形成的分层缺陷会对正交机身的机械性能产生不利影响。在目前的工作中,我们按照已发表文献中引用的方法,对外部压力载荷下嵌入正交锥形壳体的分层进行了有限元模拟。使用了基于壳理论的层状元素,并研究了分层尺寸及其穿过厚度位置对锥形外壳机械性能的影响。模拟了环形和矩形缺陷。研究针对实际设计中常用的 3 种堆叠顺序的金属和复合材料。通过与已发表的正交各向同性薄圆柱壳体研究中引用的程序等效,对该程序进行了验证。第一种模式的特征值被视为外部压力下的临界屈曲系数。将分层锥体的屈曲系数与理想锥体的屈曲系数归一化。归一化屈曲系数与归一化缺陷尺寸以图表形式显示。在模拟结果中可以观察到整体和局部屈曲,以及对称和不对称屈曲形状。在某些情况下,还可以观察到整体屈曲模式向局部屈曲模式的转变。当缺陷位置靠近表面时,局部模式的屈曲能力会急剧下降,在外层表面的情况下更为明显。
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来源期刊
Defence Science Journal
Defence Science Journal 综合性期刊-综合性期刊
CiteScore
1.80
自引率
11.10%
发文量
69
审稿时长
7.5 months
期刊介绍: Defence Science Journal is a peer-reviewed, multidisciplinary research journal in the area of defence science and technology. Journal feature recent progresses made in the field of defence/military support system and new findings/breakthroughs, etc. Major subject fields covered include: aeronautics, armaments, combat vehicles and engineering, biomedical sciences, computer sciences, electronics, material sciences, missiles, naval systems, etc.
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