Tag: tag2

This project aimed to understand the governing mechanisms behind weld hardness in laser-welded titanium sheets. Hardness measurements indicate increasing hardness with increased heat input and grain size, which is inconsistent with the general knowledge on ...
In a lot of references commercially pure Titanium was included in difficult materials for metallography procedure. They have very low hardness and the inheritance of the material so in this particular application note some useful ...
This project delves into optimizing the laser cutting process for stainless steel 316L sheets, specifically focusing on the critical parameter of kerf width. Investigating laser power, cutting speed, focal point position, nozzle stand-off, and gas ...
This groundbreaking project introduces an automated gasket inspection system, utilizing laser technology and advanced image processing algorithms. This innovative system significantly reduces measurement errors, enhancing precision in assessing the width, thickness, angle, and shape of ...
Gasket Die Laser Hardening The Gasket Die Laser Hardening project aimed to enhance the wear resistance of gasket dies used in plate heat exchanger’s sealing gaskets production. Utilizing laser beam technology, we navigated the challenge of ...
In our brazing project, we utilized copper as filler metal for stainless-steel plates, chosen based on its optimal melting temperature. Through meticulous testing, we identified the suitable 30-micrometer thickness for consistent results. Our innovative brazing ...
Stellite, a cobalt-chromium superalloy with applications in aerospace, automotive, and biomedical industries, presents machining hurdles due to its formidable hardness, toughness, work hardening, and limited thermal conductivity. Challenges include excessive tool wear, poor surface finish, ...
Stainless steel (SS316) plates within brazed plate heat exchangers are pivotal for guiding two fluids and facilitating heat transfer. Sheet metal forming simulation enables the prediction of defects like spring back and thinning. By adjusting ...
The Deposition 3D Scan project innovatively utilizes an image processing-based algorithm for precise 3D profiling of laser additive manufacturing-deposited layers. Achieving remarkable accuracy, with 96% in width and 98% in height detection, surpassing ISO standards, ...
Innovative laser additive manufacturing technique was employed to successfully repair a titanium impeller, addressing challenges related to material integrity and complex geometry. The utilization of a positive-pressure chamber ensured proper gas shielding, resulting in multiple ...