The demand for high-strength temperature-resistant (HSTR) alloys, composites, and miniaturized components has rendered conventional machining (turning, milling) ineffective. This paper reviews five major classes of non-conventional machining processes: Mechanical (USM, AWJM), Electrical (EDM, WEDM), Electro-Chemical (ECM), and Thermal (LBM, PBM). Each process is analyzed based on its working principle, material removal mechanism, surface integrity, and economic viability. Results indicate that while EDM dominates die-sinking applications due to high accuracy (tolerance ±0.005 mm), ECM offers stress-free surfaces (Ra 0.05 µm) ideal for aerospace rotors. Laser machining provides the highest speed for micro-features but suffers from heat-affected zones. Hybrid processes are identified as the critical future direction.
: Uses a focused beam of high-velocity electrons . Non Conventional Machining Process Ppt
These use high-velocity particles or vibrations. For example, Ultrasonic Machining (USM) : Uses a focused beam of high-velocity electrons