Home > Published Issues > 2013 > Volume 2, No. 2, April 2013 >

The Effect of High Cycle Fatigue Damage on Toughness of EN8 Grade Steel Part II

P Talukdar1 , S K Sen2, and A K Ghosh3
1.National Institute of Foundry and Forge Technology, Hatia, Ranchi 834003, India
2.RDCIS, Steel Authority of India Limited, Ranchi 834002, India
3.Department of Metallurgical Engineering, Jadavpur University, Kolkata 700032, India

Abstract—Fatigue of metals is a subject of practical importance because many components and structures in service are subjected to varying loads and although the average stresses are often low, local concentration of stresses do not reduce the static strength but often lead to failure by fatigue. Micro-crack formation due to fatigue is more in ferritic-pearlitic annealed steel rather than in hardened and tempered steel with a structure consisting of tempered martensite along-with a little bit retained austenite. Fatigue striation density is more at a lower peak stress level as compared to a higher peak stress level fatigue.

Index Terms—Fatigue damage, Toughness, EN8 grade steel

Cite: P Talukdar, S K Sen, and A K Ghosh, "The Effect of High Cycle Fatigue Damage on Toughness of EN8 Grade Steel Part II," International Journal of Mechanical Engineering and Robotics Research, Vol. 2, No. 2, pp. 232-239, April 2013.

PREVIOUS PAPER
Parametric Study and Experimental Evaluation of Vehicle Tire Performance
NEXT PAPER
Design and Analysis of Pressure Chambers for Structural Qualification Testing of the Payload Fairing of a Launch Vehicle