Blogs
Bridging the skills gap: Why leading universities are choosing Meltio
In an era where supply chain resilience and workforce readin...
Hybrid Manufacturing: why Meltio integrates additive and substractive manufacturing
In real manufacturing environments, parts are rarely defined...
Invar Material Guide: Properties and Additive Manufacturing uses
In the world of materials science, few alloys have a legacy ...
Validación del hilo de titanio para imprimir bioimplantes 3D en futuras prótesis en humanos
Validación del hilo de titanio para imprimir bioimplantes 3D...
Dual-material strategies with Mild Steel
Mild steel, also known as low-carbon steel, is one of the mo...
Working with tool steels in additive manufacturing
Tool steels are key for modern manufacturing: designed to wi...
Reinventing readiness: How Meltio’s technology is powering the Defense sector
In the defense sector, readiness is everything. Whether it’s...
Rethinking mould repair & spare parts productions
Mold and die making are foundational to global manufacturing...
Titanium 3D Printing: Guide to Ti64 & Wire-Laser manufacturing
Struggling with Titanium machining costs? Discover how Wire-Laser DED prints Ti64 parts with 99.98% density. Compare mechanical properties vs. forging here
Powder DED vs. Wire-Laser DED: A critical technical comparison
technical comparison of Powder DED (LMD-P) and Wire-Laser DED (LMD-W). We analyze catchment efficiency, safety risks, and cost-per-part to determine the best metal AM technology for industrial adoption.