The paper presents the theoretical background for new approaches for achieving high accuracy in finish turning with slender tools.The approaches are developed especially for high-accuracy turning with vibrationsdamped boring bars with a length-to-diameter ratio up to14.The approaches are based on established force models of turning operations and utilize a three-pass scheme where the deflection of the boring bar is calculated and compensated for in the final passes.Very good results are achieved in practical machining tests for a great variation of cutting conditions.Experiments show that the typical diameter error is 0.01 mm,even in situation where the tool deflection is 0.3 mm. The paper presents the theoretical background for new approaches for achieving high accuracy in finish turning with slender tools.The approaches are developed especially for high-accuracy turning with vibrationsdamped boring bars with a length-to-diameter ratio up to14. Approaches are based on established force models of turning operations and utilize a three-pass scheme where the deflection of the boring bar is calculated and compensated for in the final passes. Very good results are achieved in practical machining tests for a great variation of cutting conditions. the typical diameter error is 0.01 mm, even in situation where the tool deflection is 0.3 mm.