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Structural analysis with finite elements (2nded.). Finite element modelling of composite materials and structures. North American Specification for the Design of Cold formed steel Structural members (AISI Standards) KhelanChaudhari, Amogh Joshi, RanjitKunte, Kushal Nair, “Design and Development of Roll Cage for an All-Terrain Vehicle” International Journal on Theorotical and Applied Research in Mechanical Engineering (IJTARME), Vol. ShubhamYembarwar, BhushanKamble, PrashantPande, AmanWankhade, “ Design and Finite element analysis of roll cage of an All-terrain vehicle”, International Journal of Science and Research Volume 2, Issue 3 National Institute for Occupational Safety and Health (NIOSH). Consumer Product Safety Commission (Federal Register). "Standards for All Terrain Vehicles and Ban of Three- Wheeled All-Terrain Vehicles Proposed Rule". Keywords:ĪTV, Roll cage, Analysis, Stress, Deformation, Factor of safety References: From this different analysis of various material grades, ASTM 181 material grade is suitable for ATV roll cage because of better in weight to strength ratio and cost factor. Then, for this optimal model different material grades have been incorporated and analysis have been done. From this four models, Model 4 is an optimal roll cage based on stress, deformation and factor of safety values. For the proposed four various design, analysis were done for front impact, rear impact and side impact. The following objective of the proposed work is appropriate material selection, by changing the various suitable low density material in roll cage, yields weight reduction, which leads to better performance of the ATV. Various designed roll cage is taken for analysis for front impact, rear impact and side impact, to get optimal design based on the analysis for the stress, deformation and factor of safety values. It is very vital to check all failure modes of roll cage. The prime objective of proposed work is, conceptual design and analysis of ATV roll cage is done. To attain all the above said factors optimal design, analysis and material selection is mandatory. The main make of this effort is to design a roll cage based on definite rules of SAE BAJA to accommodate driver securely, ergonomically design, appropriate material selection with well balance high strength to weight ratio, least possible number of roll cage member and also to achieve an adequate factor of safety. Roll cage of the ATV should endure the shock, twist, load, vibration and other stresses during competing. Roll cage functions as a frame for supporting the body and diverse subsystems of the ATV. Roll cage is a significant structure of an All-terrain Vehicle (ATV) for safety, ergonomics and aesthetic appearance. S.Venkatesh, R.Soundararajan, P.Ashoka Varthanan, "Conceptual Design and Analysis of an All-Terrain Vehicle Roll Cage," SSRG International Journal of Mechanical Engineering, vol.