There are 2 ways to go about intersecting the triangle. Let the vertices of the triangle have positions $v_1, v_2, v_3$. Let the ray have origin $o$ and direction $d$. Let the model (4x4) matrix be $M$.
To find the new vertex coordinates one extends the positions with a 1 (to allow for translations) and multiplies by the model matrix. Let $u_i = (v_{i,x}, v_{i,y}, v_{i,z}, 1)$ then $w_i = Mu_i'$. The resulting vertex positions are: $v_i' = (w_{i,x}, w_{i,y}, w_{i,z})$.
The other option is to transform the ray with the inverse matrix $M^{-1}$ and intersect with the non-transformed triangle. To achieve this extend $o$ with a 4th coord of 1 (to account for translation) and extend $d$ with a 4th coord of 0 (to ignore translation) then multiply both with $M^{-1}$: $$o' = M^{-1}(o_x, o_y, o_z, 1)$$ $$d' = M^{-1}(d_x, d_y, d_z, 0)$$ Drop the 4th coordinate of $o'$ and $d'$ then intersect with the triangle formed by $v_1, v_2, v_3$.