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Experimental Investigation of Composite Pressure Vessel Performance and Joint Stiffness for Pyramid and Inverted Pyramid Joints

机译：金字塔与倒金字塔节点复合材料压力容器性能及节点刚度的试验研究

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The focus of this study is on the suitability in the application of classical laminate theory analysis tools for filament wound pressure vessels with adhesive laminated joints in particular: pressure vessel wall performance, joint stiffness and failure prediction. Two 18-inch diameter 12-ply filament wound pressure vessels were fabricated. One vessel was fabricated with a 24-ply pyramid laminated adhesive double strap butt joint. The second vessel was fabricated with the same number of plies in an inverted pyramid joint. Results from hydrostatic tests are presented. Experimental results were used as input to the computer programs GENLAM and Laminate, and the output compared to test. By using the axial stress resultant, the classical laminate theory results show a correlation within 1% to the experimental results in predicting the pressure vessel wall pressure performance. The prediction of joint stiffness for the two adhesive joints in the axial direction is within 1% of the experimental results. The calculated hoop direction joint stress resultant is 25% less than the measured resultant for both joint configurations. A correction factor is derived and used in the joint analysis. The correction factor is derived from the hoop stress resultant from the tank wall performance investigation. The vessel with the pyramid joint is determined to have failed in the joint area at a hydrostatic pressure 33% value below predicted failure. The vessel with the inverted pyramid joint failed in the wall acreage at a hydrostatic pressure within 10% of the actual failure pressure.

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作者
Verhage, J. M. ; Bower, M. V.;
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年度 2001
页码 1-59
总页数 59
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Axial stress; Computer programs; Fabrication; Failure analysis; Hydrostatic pressure; Pressure vessels; Pyramids; Wall pressure; Adhesive bonding; Butt joints; Filament winding; Joints(Junctions); Laminates; Predictions; Stiffness; Walls;

机译：轴向应力;计算机程序;制造;失效分析;静水压力;压力容器;金字塔;壁压;粘合剂;对接接头;长丝缠绕;接头（连接点）;层压板;预测;刚度;墙壁;

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Experimental Investigation of Composite Pressure Vessel Performance and Joint Stiffness for Pyramid and Inverted Pyramid Joints

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