Prediction of brittle fracture of epoxy-aluminum flanging

Prediction of brittle fracture of epoxy-aluminum flanging

journal article - other

en

This paper presents a fracture mechanical approach for estimation of critical bending load of different types of aluminum-epoxy flanging and comparison with experimental measurements. For this purpose, several designs of the flanges were investigated. The flanges were glued to the epoxy bars and adhesive-epoxy interface was con-sidered as a bi-material notch. Prediction of the failure is based on generalized stress intensity factor and general-ized fracture toughness.

This paper presents a fracture mechanical approach for estimation of critical bending load of different types of aluminum-epoxy flanging and comparison with experimental measurements. For this purpose, several designs of the flanges were investigated. The flanges were glued to the epoxy bars and adhesive-epoxy interface was con-sidered as a bi-material notch. Prediction of the failure is based on generalized stress intensity factor and general-ized fracture toughness.

This paper presents a fracture mechanical approach for estimation of critical bending load of different types of aluminum-epoxy flanging and comparison with experimental measurements. For this purpose, several designs of the flanges were investigated. The flanges were glued to the epoxy bars and adhesive-epoxy interface was con-sidered as a bi-material notch. Prediction of the failure is based on generalized stress intensity factor and general-ized fracture toughness.

Keywords: generalized stress intensity factor, flanging, FEM, bi-material interface, fracture mechanics

Keywords: generalized stress intensity factor, flanging, FEM, bi-material interface, fracture mechanics

2010

12.07.2010

1802-680X

Applied andComputational Mechanics

4

1

49–56

8