STUDY ON EFFECT OF TOOLING ANGLES DURING FLOW FORMING PROCESS
Keywords:
Flow Forming, Leading Angle, Trailing Angle, Von mises stress, Equivalent plastic strain, ABAQUSAbstract
Flow forming is normally used to produce seamless tubes of high precision. Rocket launcher cases, cartridge case, missile casing, rocket nose cones are the typical examples of aerospace and defense sector which are made by flow forming process. Literatures state that the flow forming is influenced by many parameters like leading/attack and trailing/smoothing angles, rotational speed, axial feed, forming depth etc. The understanding of effect of parameters on the process is quite important because it is useful for the designing of tools (rollers and mandrel) for various material and geometrical conditions. Hence, the present analysis is carried out for different leading and trailing angles. The effect of leading and trailing angle is studied for von mises stress and equivalent plastic strain. It has been noted that as the leading angle increases the von mises stress is gradually increases, whereas equivalent plastic strain decreases. It also observed that as the trailing angle increases the von mises stress remains almost constant, while small reduction is found in the maximum equivalent plastic strain.
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References
Srinivasulu M Komaraiah M and Krishna Prasada Rao C S (2012), “Experimental studies on the characteristics of AA6082 flow formed tubes”, Journal of Mechanical Engineering Research, Vol. 4, 192-198.
Molladavoudi H R and Djavanroodi F (2011), “Experimental study of thickness reduction effects on mechanical properties and spinning accuracy of aluminum 7075-O during flow forming”, International Journal of Advanced Manufacturing Technology, 949-957.
Wong C C Lin J and Dean T A (2005), “Effects of roller path and geometry on the flow forming of solid cylindrical components”, Journal of Material Processing Technology, 344–353.
Davidson J M Balasubramanian K and Tagore G R N (2008), “Experimental investigation on flow-forming of AA6061 alloy”, Journal of Material Processing Technology, 321–325.
Bhatt R J and Raval H K (2015), “Process Variables of Tube Flow Forming- A Review”, Proceedings of International Conference on Advances in Materials and Product Design (AMPD), 114-120.
Razani N A Agchai A J and Dariani B M (2014), “Flow-forming optimization based on hardness of flow-formed AISI321 tube using response surface method”, International Journal of Advanced Manufacturing Technology, 1463-1471.
Kishore Nath N (2015), “Optimization of tape winding process parameters to Enhance the performance of solid rocket nozzle divergent liners using Taguchi’s robust design methodology”, Journal of Manufacturing Engineering, Vol. 4 (2), 097-102.
Lade J balunaik B and Swadesh Kumar Singh (2013), “Some aspects of formability of ASS 304 under warm condition”, Journal of Manufacturing Engineering, Vol. 8 (4), 221-224.
Raman Goud R Eswar Prasad K and Swadesh Kumar Singh (2014), “Metallurgical studies of extra deep drawn steel in stretch forming at elevated temperatures”, Journal of Manufacturing Engineering, Vol. 9 (3), 128-135.
Mohebbi M S and Akbarzadeh A (2010), “Experimental study and FEM analysis of redundant strains in flow forming of tubes”, Journal of Materials Processing Technology, 389-395.
