![]() ![]() ![]() Thus, an alternative multipass cutting strategy was introduced, in an attempt to increase the efficiency of the AWJM process and to improve the kerf quality. The cutting capability of the AWJM process has been a major obstacle limiting its application to relatively thick materials, because of the depth-of-cut (DoC) or depth of penetration and kerf quality obtained. The results indicated that the use of a multipass strategy had a considerable impact on the kerf taper angle, apart from the depth of penetration and although it leads to reduced MRR and cutting efficiency, choosing appropriate values of process parameters, such as a higher jet pressure and moderate traverse feed, in combination with a moderate amount of passes, can be beneficial for AWJM from different points of view. The performance was evaluated by means of the kerf characteristics, and the productivity through material removal rate (MRR) values. In this study, experimental work was conducted and the use of a multipass strategy during slot milling of titanium alloy with abrasive water jet milling (AWJM) was explored, by comparing the effect of different numbers of passes under different process conditions, such as the jet pressure and traverse feed rate. However, depending on the application, different machining strategies need to be employed, in order to increase the flexibility of the process and produce parts with a better quality. Non-conventional machining processes offer various advantages, including the capability of processing hard-to-cut materials with a reasonable cost and sufficient productivity.
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