Non Conventional Machining: Process Ppt Updated |top|

This comprehensive guide serves as an updated reference for engineers, students, and professionals looking to build an advanced presentation or presentation slide deck (PPT) on the subject. 1. Introduction to Non-Conventional Machining

| Process | Workpiece Material | MRR (Material Removal Rate) | Surface Finish | Cost | | :--- | :--- | :--- | :--- | :--- | | | Hard/Brittle | Low | Good | Low/Medium | | AJM | Hard/Brittle | Very Low | Good | Low | | EDM | Conductive Only | Medium | Medium | Medium | | ECM | Conductive Only | High | Excellent | High | | LBM | Any Material | Low | Medium | High | | EBM | Any Material | Very Low | Excellent | Very High |

(Visual flowchart dividing NCM into Mechanical, Thermal, Electrochemical, and Chemical).

Comprehensive Classification Chart (Mechanical, Thermal, Chemical) Slide 6: Mechanical Processes: Focus on USM and AJM non conventional machining process ppt updated

: Removes metal atom-by-atom via electrolysis; it is ideal for producing complex injection molds with smooth finishes. IIT Kanpur 4. Advantages & Applications High Precision

: Processes that remove excess material without the physical contact and tool wear associated with traditional cutting.

(Topic, Presenter Name, Institution/Company, Date) This comprehensive guide serves as an updated reference

Chemical Processes: Electrochemical Machining (ECM)

(Focused energy densities, vacuum requirements for EBM, high precision applications).

The future of manufacturing relies heavily on hybrid systems—combining two or more NCM techniques (like Laser-Assisted EDM or Ultrasonic-Assisted ECM) to achieve unprecedented production speeds and precision. If you need help building this presentation, tell me: Traditional machining methods like turning

The miniaturization of components in medical implants and micro-electronics has pushed EDM and LBM into the sub-micron accuracy domain.

Traditional machining methods like turning, milling, and drilling rely on physical contact between a harder cutting tool and a softer workpiece. These conventional processes fail when industries require the fabrication of ultra-hard, brittle, or extremely complex materials.