Abstract:
In today’s landscape of modern manufacturing, stringent measures for upholding standards of quality are very important to ensure product longevity and customer satisfaction. Precision engineering demands cutting edge technologies to deliver on this requirement for industries reliant on heavily meticulous measurements. This thesis delves into the design, fabrication, calibration and successive testing of a coordinate measuring machine (CMM) capable of maintaining an accuracy of less than 10 microns that is in line with recent technological advancements.
The envisioned CMM seeks to redefine precision engineering in the local industry across different sectors. The project is aimed at enhancing quality control processes thereby increasing efficiency & cost effectiveness in manufacturing operations. The construction boasts affordability and ease of assembly with parts available easily. Through design optimization and meticulous research, this thesis lays the groundwork for the development of a versatile and high precision CMM.
The potential impact of a locally produced, high accuracy CMM goes beyond the promise of technological advancement: it can serve as the driving force for stimulating domestic manufacturing and paving the path to economic prosperity.
