The accurate prediction capabilities of bubble lift-off diameter for the inclined heating surface is essential to evaluate the critical heat flux (CHF) following the net vapor generation point (NVG) in In-vessel retention (IVR) conditions. Almost all of the existing bubble lift-off models and correlations have been developed either upward-facing horizontal or vertical flow boiling conditions by ignoring or using a constant bubble sliding velocity with respect to the fluid velocity. Experimental research has been performed with a high-speed video camera system to investigate the bubble lift-off process for different channel inclination from downward-facing horizontal to the vertical position. An improved force-balanced model is proposed to predict the bubble lift-off diameter, where the bubble sliding velocity is calculated as a dynamic basis rather than a constant. The proposed model correctly follows the parametric trends of experimental data and shows good agreement with experimental data with a mean relative error of 10.12 %.