The study provides an in-depth analysis of the technological advancements in modern machining and its impact on the global industry. It traces the evolution from traditional subtractive manufacturing processes to emerging trends like AI-based predictive maintenance, adaptive machining, hybrid manufacturing, sustainable machining, and nanomachining for next-generation electronics and biomedical devices, including advancements in off-world manufacturing and space-ready materials. Challenges such as skill gaps in the workforce, affordability and accessibility of cutting-edge technologies, and the influence of developing nations on Industry 4.0 and 5.0 are explored. Results indicate that innovations in materials science, automation, and sustainable practices contribute significantly to precision, efficiency, and environmental sustainability in machining. The research highlights the importance of maintaining craftsmanship in the age of automation. Machining is positioned as a pivotal force and a reflection of the global shift towards a more integrated, adaptive, and sustainable industrial future. Keywords: Adaptive machining; Hybrid manufacturing; Sustainable practice; off-earth manufacturing; nanomanufacturing
Shaibu et al. (Sat,) studied this question.
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