科技报告详细信息
Buckling Testing and Analysis of Honeycomb Sandwich Panel Arc Segments of a Full-Scale Fairing Barrel Part 4: Six-ply Out-of-Autoclave Facesheets
Myers, David E ; Pineda, Evan J ; Kellas, Sotirios ; Dixon, Genevieve D ; Kosareo, Daniel N
关键词: BUCKLING;    EPOXY MATRIX COMPOSITES;    FINITE ELEMENT METHOD;    HEAVY LIFT LAUNCH VEHICLES;    AUTOCLAVES;    HONEYCOMB STRUCTURES;    NONLINEARITY;    SANDWICH STRUCTURES;    COMPRESSIVE STRENGTH;    COMPRESSION LOADS;    PANELS;   
RP-ID  :  GRC-E-DAA-TN55153,NASA/TM-2019-217822/PART4
学科分类:力学,机械学
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Four honeycomb sandwich panel types, representing 1/16th arc segments of a 10-m diameter barrel section of the Heavy Lift Launch Vehicle (HLLV), were manufactured and tested under the NASA Composites for Exploration program and the NASA Constellation Ares V program. Two configurations were chosen for the panels: 6-ply facesheets with 1.125 in. honeycomb core and 8-ply facesheets with 1.000 in. honeycomb core. Additionally, two separate carbon fiber/epoxy material systems were chosen for the facesheets: in-autoclave IM7/977-3 and out-of-autoclave T40-800b/5320-1. Smaller 3 ft. by 5 ft. panels were cut from the 1/16th barrel sections. These panels were tested under compressive loading at the NASA Langley Research Center (LaRC). Furthermore, linear eigenvalue and geometrically nonlinear finite element analyses were performed to predict the compressive response of each 3 ft. by 5 ft. panel. This manuscript summarizes the experimental and analytical modeling efforts pertaining to the panels composed of 6-ply, T40-800b/5320-1 facesheets (referred to as Panels D). To improve the robustness of the geometrically nonlinear finite element model, measured surface imperfections were included in the geometry of the model. Both the linear and nonlinear models yield good qualitative and quantitative predictions. Additionally, it was correctly predicted that the panel would fail in buckling prior to failing in strength. Furthermore, three-dimensional (3D) effects on the compressive response of the panel were studied.

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