mellejgr
Materials
- Feb 4, 2019
- 8
Dear all,
I have a question on the crack-tip displacement field in Mode 1 loading.
This is usually given by an equation of the form:
u_ij=K/G * f(r,theta)
where u_ij are the displacement components, K the SIF and G the shear modulus. My question is regarding this modulus, does the presence of a crack not influence the shear modulus of the material, and as such shouldn't this formula be updated?
Many thanks for anyone who can shed some light on this for me.
I have a question on the crack-tip displacement field in Mode 1 loading.
This is usually given by an equation of the form:
u_ij=K/G * f(r,theta)
where u_ij are the displacement components, K the SIF and G the shear modulus. My question is regarding this modulus, does the presence of a crack not influence the shear modulus of the material, and as such shouldn't this formula be updated?
Many thanks for anyone who can shed some light on this for me.
