Ontology type: schema:Chapter
2019-04-28
AUTHORSPrakash Jatin , Nagargoje Aniket , P. K. Kankar , V. K. Gupta , P. K. Jain , Tamhankar Ravindra , Nyamgoudar Vinayak , Mulani Ismail
ABSTRACTThe standard hydraulic cylinder consists of two main parts, i.e., cylinder tube and piston rod. It operates by the reciprocation of either element and majorly used to transmit mechanical power using fluid linkage. The failure of such systems occurs usually because of piston rod failure. Being more specific, the buckling failure mode is more dominant over others. In this manuscript, the maximum allowable load is calculated for a standard hydraulic cylinder with pin-mounted at both ends analytically using analytically using ISO/TS 13725. Piston rod having less flexural rigidity (EI) is prone to buckling failure. The estimated load when applied on the piston rod end results into the stress condition of the cylinder tube. Von-Mises stress generated in the thick cylinder is discussed using Lame’s theorem while axial and flexural stress for piston rod is deliberated. The results show that for lower slenderness ratio hydraulic cylinder may fail due to yielding of cylinder tube failure. The results obtained for slenderness ratio 19 of piston rod are compared with simulated results implemented in ANSYS. More... »
PAGES173-185
Advances in Engineering Design
ISBN
978-981-13-6468-6
978-981-13-6469-3
http://scigraph.springernature.com/pub.10.1007/978-981-13-6469-3_16
DOIhttp://dx.doi.org/10.1007/978-981-13-6469-3_16
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