YohannM
Mechanical
- Feb 17, 2018
- 1
Hello all,
It seems like a fairly straightforward question but I cannot find any information in the literature.
Let's suppose we apply a crack driving force K1=45 MPa.m^0.5 to a notched specimen with an upper shelf fracture toughness K_mat = 50 MPa.m^0.5 at room temperature T0=20 oC.
Under a constant K1=45 MPa.m^0.5 (let's ignore the effect of thermal expansion here), the temperature drops to T1=-10 oC and the fracture toughness of the material is now K_mat=40 MPa.m^0.5 (now lower shelf).
Is the specimen going to fail ?
Could you please suggest some references describing similar experiments/theoretical analyses ?
Thanks for your help,
Yohann
It seems like a fairly straightforward question but I cannot find any information in the literature.
Let's suppose we apply a crack driving force K1=45 MPa.m^0.5 to a notched specimen with an upper shelf fracture toughness K_mat = 50 MPa.m^0.5 at room temperature T0=20 oC.
Under a constant K1=45 MPa.m^0.5 (let's ignore the effect of thermal expansion here), the temperature drops to T1=-10 oC and the fracture toughness of the material is now K_mat=40 MPa.m^0.5 (now lower shelf).
Is the specimen going to fail ?
Could you please suggest some references describing similar experiments/theoretical analyses ?
Thanks for your help,
Yohann