Email-ID
Password
Forget password?






New User Registration
%20%20%20%20Analysis%20on%20Crack%20Propagation%20in%20Ti-6al-4v%20Skin%20under%20Tensile%20Loading
Research article
  

Analysis on Crack Propagation in Ti-6al-4v Skin under Tensile Loading


D.Harsha Vardhan, K. Vijay Kumar, G.Guru Mahesh, M.L. Pavan Kishore

1. P.G Student, Samskruti College of Engineering & Technology, Ghatkesar, Hyderabad, India
2. Asst. Professor, Samskruti College of Engineering & Technology, Ghatkesar, Hyderabad, India
3. Asst. Professor ,Madanapalle institute of technology & science, Madanapalle,Chittoor, india


Corresponding author :

D.Harsha Vardhan,
Email:

Received: September 21, 2014,   Accepted: October 28, 2014,   Published:


Abstract:

The main objective of current work is to investigate the how a crack propagates and grows in a typical Ti-6Al-4V material plate. By using the finite element method software (ANSYS13) were used to simulate crack growth and to compute the stresses and the stress-intensity factor. A specific plate design was selected and a corner crack was investigated, since engineers often detect this type of crack in plates. The VonMises stress near the crack tip is compared against the yield strength of the material. Under the tensile loading i.e in Mode-I the stress-intensity factor is compared against the material’s fracture toughness. The results show that the plate can tolerate minute cracks in the structure. The fatigue strength of the structure is recommended to be assessed in the future.


Keywords: Crack Propagation, Stress Intensity Factor, Tensile loading and Flaw size


Citation:

D.Harsha Vardhan et all., (2014) Analysis on Crack Propagation in Ti-6al-4v Skin under Tensile Loading J. of Advancement in Engineering and Technology. V2I1. DOI: 10.15297/JAET.V2I1.03


Copyright:

© 2014 D.Harsha Vardhan. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.


      
Download PDF

      Journal of Advancement in Engineering and Technology