International Journal of Agricultural Engineering

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Structural Analysis of Inclined Type Subsoiler Using CAD Software


Affiliations
1 Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Junagadh Agricultural University, Junagadh (Gujarat), India
2 Department of Farm Power Engineering, College of Agricultural, Junagadh Agricultural University, Junagadh (Gujarat), India
3 Department of Farm Power Engineering, College of Agriculture, Junagadh Agricultural University, Junagadh (Gujarat), India
     

   Subscribe/Renew Journal


Proper design of agriculture implements is necessary in order to increase their working life time and reduce the farming costs. In this study Creo and ANSYS software were used to carry out finite element analysis of inclined type subsoiler. 3D model of inclined type subsoiler was made using Creo software and static structural analysis of subsoiler was carried out using ANSYS software. The dimensions of inclined type subsoiler was selected as per local manufacturing database of subsoiler whereas loading condition defined by maximum draft force which was exerted on inclined type subsoiler in field. Results of simulation showed that maximum deformation was observed as 2.74 mm at the end of the share while maximum equivalent (von-mises) stress was 280.71MPa at the clamp. Maximum principal stress and maximum shear stress were found as 283.30MPa and 46.24MPa, respectively in subsoiler. The value of factor of safety was 1.25 and it was observed that factor of safety was very low so optimized design is required.

Keywords

CAD, Deformation, FEA, Stress, Subsoiler.
Subscription Login to verify subscription
User
Notifications
Font Size


  • Jakasania, R.G., Vadher, A.L. and Yadav, R. (2016). Structural analysis of parabolic type subsoiler using cad software. Internat. J. Sci., Environ. & Technol.,5(5): 3415-3422.

  • Javad, T., Seyed, S. M. and Reza, A. (2011). Static and dynamic analysis of front axle housing of tractor using finite element methods. Australian J. Agric. Engg., 2 (2) : 45-49.

  • Kamboj, P., Singh, A., Kumar, M. and Din, S. (2012). Design and development of small scale pea depoding machine by using CAD software. Agric. Engg. Internat.: CIGR J.,14(2): 40-48.

  • Shinde, G.U. and Kajale, R.S. (2011). Design optimization in rotary tillage tool system components by computer aided engineering analysis. Internat. J. Environ. Sci. & Development, 3(3): 279-282.

  • Srivastava, A.K., Georing, C.E., Rohrbach, R.P. and Buckmaster, D.R. (2006). Engineering principles of agricultural machines. 2nd ed. ASAE, St. Joseph, MI 49085,

  • Stafford, J.V. and Hendrick, J.G. (1988). Dynamic sensing of soil pans. Trans. ASAE,31(1): 9–13.


Abstract Views: 237

PDF Views: 0




  • Structural Analysis of Inclined Type Subsoiler Using CAD Software

Abstract Views: 237  |  PDF Views: 0

Authors

R. G. Jakasania
Department of Farm Machinery and Power, College of Agricultural Engineering and Technology, Junagadh Agricultural University, Junagadh (Gujarat), India
A. L. Vadher
Department of Farm Power Engineering, College of Agricultural, Junagadh Agricultural University, Junagadh (Gujarat), India
R. Yadav
Department of Farm Power Engineering, College of Agriculture, Junagadh Agricultural University, Junagadh (Gujarat), India

Abstract


Proper design of agriculture implements is necessary in order to increase their working life time and reduce the farming costs. In this study Creo and ANSYS software were used to carry out finite element analysis of inclined type subsoiler. 3D model of inclined type subsoiler was made using Creo software and static structural analysis of subsoiler was carried out using ANSYS software. The dimensions of inclined type subsoiler was selected as per local manufacturing database of subsoiler whereas loading condition defined by maximum draft force which was exerted on inclined type subsoiler in field. Results of simulation showed that maximum deformation was observed as 2.74 mm at the end of the share while maximum equivalent (von-mises) stress was 280.71MPa at the clamp. Maximum principal stress and maximum shear stress were found as 283.30MPa and 46.24MPa, respectively in subsoiler. The value of factor of safety was 1.25 and it was observed that factor of safety was very low so optimized design is required.

Keywords


CAD, Deformation, FEA, Stress, Subsoiler.

References