Non Conventional Machining Process Ppt Verified -

This guide provides a comprehensive framework to build an exceptional presentation. Use this structured breakdown to create clear, high-impact slides. Slide 1: Title and Introduction

Produces clean edges without mechanical deformation burrs.

Combines electrochemical dissolution with conventional grinding wheel action. 3. Chemical Processes

Brittle materials respond exceptionally well to USM and AJM. Non Conventional Machining Process Ppt

Uses strong chemical reagents (etchants) on exposed surfaces while protecting other areas with masks. 4. Thermoelectric / Thermal Processes

Focus on processes that use kinetic energy or high-frequency vibrations to erode material. Ultrasonic Machining (USM)

Non-conventional machining processes have transitioned from niche specialized solutions to mainstream manufacturing necessities. By manipulating alternative energy sources rather than raw mechanical cutting power, these techniques allow engineers to design and manufacture components once deemed completely impossible. As aerospace, semiconductor, and medical industries push the boundaries of miniaturization and material science, NCMPs will continue to evolve as the backbone of advanced manufacturing technology. This guide provides a comprehensive framework to build

Making intricate surgical instruments and bio-medical implants.

Focuses a highly concentrated coherent laser beam to melt and vaporise the target material.

Choosing the right non-conventional machining process depends on several critical factors: Uses strong chemical reagents (etchants) on exposed surfaces

A highly focused, monochromatic laser beam hits the workpiece.

Controlled chemical etching utilizing acidic or alkaline chemical reagents removes material selectively. Chemical Milling (CHM) Photochemical Machining (PCM) Thermal / Electro-Thermal Processes