The Tsai–Wu failure criterion is a phenomenological material failure theory which is widely used for anisotropic composite materials which have different strengths in tension and compression. The Tsai-Wu criterion predicts failure when the failure index in a laminate reaches 1. This failure criterion is a specialization of the general quadratic failure criterion proposed by Gol'denblat and Kopnov and can be expressed in the form where and repeated indices indicate summation, and are experimentally determined material strength parameters. The stresses are expressed in Voigt notation. If the failure surface is to be closed and convex, the interaction terms must satisfy which implies that all the terms must be positive.
Tsai–Wu failure criterion for orthotropic materials
For orthotropic materials with three planes of symmetry oriented with the coordinate directions, if we assume that and that there is no coupling between the normal and shear stress terms, the general form of the Tsai–Wu failure criterion reduces to Let the failure strength in uniaxial tension and compression in the three directions of anisotropy be. Also, let us assume that the shear strengths in the three planes of symmetry are . Then the coefficients of the orthotropic Tsai–Wu failure criterion are The coefficients can be determined using equibiaxial tests. If the failure strengths in equibiaxial tension are then The near impossibility of performing these equibiaxial tests has led to there being a severe lack of experimental data on the parameters. It can be shown that the Tsai-Wu criterion is a particular case of the generalized Hill yield criterion.
For a transversely isotropic material, if the plane of isotropy is 1–2, then Then the Tsai–Wu failure criterion reduces to where. This theory is applicable to a unidirectional composite lamina where the fiber direction is in the '3'-direction. In order to maintain closed and ellipsoidal failure surfaces for all stress states, Tsai and Wu also proposed stability conditions which take the following form for transversely isotropic materials
For the case of plane stress with, the Tsai–Wu failure criterion reduces to The strengths in the expressions for may be interpreted, in the case of a lamina, as = transverse compressive strength, = transverse tensile strength, = longitudinal compressive strength, = longitudinal strength, = longitudinal shear strength, = transverse shear strength.
Tsai–Wu criterion for foams
The Tsai–Wu criterion for closed cell PVC foams under plane strain conditions may be expressed as where For DIAB Divinycell H250 PVC foam, the values of the strengths are MPa, MPa, MPa, MPa. For aluminum foams in plane stress, a simplified form of the Tsai–Wu criterion may be used if we assume that the tensile and compressive failure strengths are the same and that there are no shear effects on the failure strength. This criterion may be written as where
Tsai–Wu criterion for bone
The Tsai–Wu failure criterion has also been applied to trabecular bone/cancellous bone with varying degrees of success. The quantity has been shown to have a nonlinear dependence on the density of the bone.
