Abstract
The use of 5-axis controlled machine tools that can take the arbitrary tool attitude is widely expanded with increasing complicated workpieces. In 5-axis control machining, the frequent variation in tool attitude makes the quality ofmachined surface worse. The influence of the variation in tool attitude is evaluated in the study, based on the experiment. An evaluation formula is proposed, considering the influence of both the tool attitude and the variation in tool attitude against the machined surface. Machining experiments are performed to confirm the validity. Moreover, the method that generates appropriate tool paths for finish machining is devised by utilizing the evaluation formula. This paper demonstrates the tool path to consider both the tool attitude to the machined surface and the variation in tool attitude.
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