Investigation of Machining Characteristics and Drilling Parameters Optimization in Drilling of Nimonic C-263 Alloy

This paper contains the investigation of machining characteristics and machining parameters optimization while drilling Nimonic C263 alloy. The proposed method is designed as per Taguchi’s Design and drilling trials are conducted utilizing ALCRONA coated drills. An empirical model has been proposed for process performance prediction via RSM (Response Surface Methodology). The optimization of multi response has also been carried out depends on function of desirability approach. The optimized cutting conditions were established. Confirmation tests were conducted to confirm the modelling results.

An Analytical Approach to Cutter Edge Temperature Prediction in Milling and Its Application to Trochoidal Milling

Cutter edge temperature in milling is an important factor to cutter life. With high cutting speed and feedrate, the cutting efficiency is high; however, the cutter edge temperature is high, shortening the cutter life. Therefore, it is necessary to know the cutter edge temperature in milling. Unfortunately, the cutter edge temperature is difficult to measure and predict in milling. To address the technical challenge, an analytical approach was proposed to predict cutter edge temperature in milling. First, the heat flux into the cutter edge was calculated. Second, by using the Green function, the cutter edge temperature was figured out, and the results obtained from this approach agreed well with that of a recognized test. Then, based on the engagement between the cutter and workpiece in trochoidal milling, the cutter edge temperature was obtained in trochoidal milling. Finally, a temperature comparison was made between trochoidal and side milling based on this analytical approach, and the reasons that trochoidal machining could extend the cutter life were found. This approach is first proposed to calculate the cutter edge temperature in trochoidal milling and can be applied to machining parameters optimization in trochoidal milling and cutter design optimization.