In metal cutting tool wear is complex phenomenon which occurs in several ways and it could not be avoided. Due to the high tool wear rate the close dimensional accuracy of the parts are not achieved and as a result the manufacturing execution system fails in sending secured data to the systems properly. High security data transmission is essential in manufacturing execution system. Various algorithms are used for cryptography in the today’s market for securing the data. This paper employs a ceramic tool for machining Inconel 718 to obtain close dimensional tolerance and thereby enhancing the secured data transfer effectively. The novelty of the work is incorporating the ceramic tool in the turning process and there by improving the secured data transmission in the industrial automaiton. The outcome of the work is to measure the accuracy and precision of the machined parts from the ceramic cutting tool and to find the comparative improvement in the usage of several algorithms used in enhanced secured data transmission

Keywords: Ceramic tool, Inconel 718, Secured Manufacturing, ANOVA, Tool wear