This study investigates the fracture failure of ship longitudinal members, in which a crack has propagated by fatigue. During the ship life, some fatigue cracks may propagate till lengths that can be critical in view of the fast fracture, when the ship meets extreme sea conditions. This critical crack length characterizes the fracture resistance of a structure. This study proposes a simplified approach to evaluate the critical crack length. Specifically, this study employs the failure assessment diagram methodology to assess the conditions of failure at the crack tip. Based on two crack configurations, this study establishes the analytical formulations of the crack-tip condition that are regressed using finite element analyses. The material toughness is expressed in terms of crack-tip opening displacement. This simplified approach can thus rapidly compute the failure stress of cracked longitudinal members as a function of the crack length. The critical crack lengths corresponding to the maximum longitudinal stresses derived from long-term extreme loads can thus be determined. For the ＂Capesize＂ bulk carrier considered in this study, the critical crack lengths are found to be very large. So, the fracture resistance is found satisfactory.