This paper proposes a new approach to design and implement a seventh-order polynomial function of transmission error(TE) for spiral bevel gears with an aim to reduce the running vibration and noise of gear drive and improve the loaded distribution of the tooth.Based on the constraint conditions of predesigned seventh-order polynomial function curve and the theory of linear algebra,the polynomial coeffcients of the seventh-order polynomial function of transmission error can be obtained.By applying a method named reverse tooth contact analysis,the modifed roll coeffcients as well as parts of machine-tool settings for the face-milling of spiral bevel gears can be individually determined.Therefore,a predesigned seventh-order polynomial function of transmission error for spiral bevel gears can be obtained by the modifed roll with high-order coeffcients,and comparisons of the seventh-order polynomial and parabolic functions of transmission error are also performed.The achievement of spiral bevel gears with the seventh-order function of transmission error can be accomplished on a universal Cartesian-type hypoid gear generator or a numerically controlled cradle-style hypoid gear generator due to its simple generating motion of axes of the cradle and the work piece.The results of a numerical example show that the bending stresses of the tooth of seventh-order are less than those of a parabolic one,while the contact stresses remain almost equivalent.
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