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عدد المساهمات : 18994 التقييم : 35488 تاريخ التسجيل : 01/07/2009 الدولة : مصر العمل : مدير منتدى هندسة الإنتاج والتصميم الميكانيكى
| موضوع: بحث بعنوان Composite Pressure Vessels الخميس 25 مارس 2021, 9:21 pm | |
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أخوانى فى الله أحضرت لكم بحث بعنوان Composite Pressure Vessels Rao Yarrapragada K.s.s1, R.krishna Mohan2, B.vijay Kiran3 1,2,3 Associate Professor, Mechanical Department, B.V.C College of Engineering, Andhra Pradesh, India, subbaroayarrapragada@gmail.com, smilesmile.mohan@نص ممنوع.com, b.vijaykiran@نص ممنوع.com
و المحتوى كما يلي :
Abstract Cylindrical pressure vessels are widely used for commercial, under water vehicles and in aerospace applications. At present the outer shells of the pressure vessels are made up of conventional metals like steels and aluminum alloys. The payload performance/ speed/ operating range depends upon the weight. The lower the weight the better the performance, one way of reducing the weight is by reducing the weight of the shell structure. The use of composite materials improves the performance of the vessel and offers a significant amount of material savings. Moreover, the stacking sequence is very crucial to the strength of the composite material. This Project involves various objective functions such as stiffness, buckling load and Weight at each level of optimization. Usually composite pressure vessels are designed for minimum mass under strength constraints. A graphical analysis is presented to find optimum fiber orientation for given layer thicknesses. In the present work, an analytical model is developed for the Prediction of the minimum buckling load with / without stiffener composite shell of continuous angle ply laminas (±45°,±55°,±65°,±75°,±85°) for investigation. Comparisons are made for two different approaches i.e. the finite element model and the theoretical model. A 3-D finite element analysis is built using ANSYS-12.0 version software into consideration, for static and buckling analysis on the pressure vessel. Index Terms: Composite material, Shells, Fiber orientation, Layer thickness, Stiffeners, Critical Pressure and Buckling CONCLUSION [1].The Lamina stacking sequence is appropriate which is free from extension – bending, coupling which reduces the effective stiffness of the lamina, since the laminates are symmetric. [2].Appropriate number of plies needed in each orientation and thickness of the shell is safe from static and buckling analysis is concerned. The comparison plots obtain desired results for stresses and deformations with lamina orientations for the chosen composite materials. [3]. The chosen fiber volume fraction Vf = 0.65 and Vm = 0.35 is acceptable to the present FRP shell working at 3 Mpa internal (Air) pressure. [4].The fiber orientation ±55° for glass epoxy and ±65°angle for carbon and aramid epoxy is correct which optimum value is. From the finite element analysis report the maximum stress obtained in each lamina (for ±55, ±65 degrees winding angle) is less than the allowable working Strength of the FRP lamina. So shell design is safe. [5].Numerical calculations, Tables and plots obtained for critical pressures supports the comparisons of buckling pressures. [6].The factor of Safety 3 taken is sufficient for the fiber reinforced Composite material to overcome material design and manufacturing defects. The average critical buckling pressure was obtained from finite element analysis report is 4.0684N/mm2 which is more than the maximum working pressure 3N/mm2. Hence the buckling load factor is greater than the unity. Hence the design is safe. [7].Comparison of stiffened and unstiffened composite shell by both theoretically and analytically, that Analyses supports the stiffened cylinder has more buckling resistance than that of the unstiffened one. [8]. Increase in shell thickness is shown to increase the buckling resistance of the composite shell. The objective of the analysis and theoretical report shows that fiber reinforced composite shell can minimize the weight of the structure.
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