Design and Analysis of Hexagonal and Octagonal Honey Comb Structures with Various Materials and FEM Analysis
PenumakaDhananandh1, Venkata Ramesh Mamilla2, K.Sri Rama Murthy3
1PenumakaDhananandh*, M.Tech student, Department of Mechanical EngineeringSri Vasavi Engineering College, Pedatadepalli, Andhra Pradesh, India.
2Dr.Venkata Ramesh Mamilla, Professor & Head, Department of Mechanical EngineeringSri Vasavi Engineering College, Pedatadepalli, Andhra Pradesh, India.
3K.Sri Rama Murthy,Sr.Assistant Professor, Department of Mechanical Engineering Sri Vasavi Engineering College, Pedatadepalli, Andhra Pradesh, India.
Manuscript received on April 20, 2020. | Revised Manuscript received on April 30, 2020. | Manuscript published on May 10, 2020. | PP: 669-678 | Volume-9 Issue-7, May 2020. | Retrieval Number: E2254039520/2020©BEIESP | DOI: 10.35940/ijitee.E2254.059720
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Abstract: The demands for automotive interior and exterior panels in present and future request is an optimal combination of materials and cost-efficient production processes. Mechanical and acoustical requirements of high strength and a weight target result, today often in the selection of a sandwich design with a cost efficient and recyclable core material. Honey comb sandwich structures are used in Airplane wings, Ships, Cars, Civil Constructions, etc. Now a days this technology is being used all over the automotive fields. These designs are the best way for low material usage and high strength. In this project the designs of hexagonal and octagonal honey comb structures are to be analysed and compared for the best result in structure. The structures are to be developed by using SolidWorks software. Solid works flow simulation is to be used to test the effectiveness and limitations of the structures. Thermal and static analysis are to be analysed by using solid works simulation software with different types of materials like Titanium, Aluminum, and Stainless steel to identify the best material at low cost and high efficient by applying various loads of finite element method analysis.
Keywords: Cost-efficient, high strength, low material, SolidWorks, Thermal and static analysis, finite element method.
Scope of the Article: Automated Software Design and Synthesis