Vray Materials Page

[ \mathbbV[L] \propto \frac1N \sum_k=1^N \fracf(\omega_k)p(\omega_k) \cdot \texttrunc_L(\textFTT(u,v)) ]

[ f_oren = \frac\rho\pi \left( A + B \cdot \cos(\phi_i - \phi_o) \cdot \sin(\alpha) \cdot \tan(\beta) \right) ] vray materials

Where ( \alpha = \max(\theta_i, \theta_o) ), ( \beta = \min(\theta_i, \theta_o) ). This prevents the unnatural darkening seen in pure Lambertian materials at grazing angles. V-Ray abandoned the Blinn-Phong and Ward models in favor of GGX (Trowbridge-Reitz) for its ability to produce realistic long-tailed highlights (i.e., the "glint" of metallic paint). The distribution function ( D(m) ) for microsurface normals is: ( \beta = \min(\theta_i

For conductors (metals), V-Ray uses the ( \tilden = n + ik ), where ( k ) is the extinction coefficient: vray materials