Lower energy cost. Higher K-Mold results. Available exclusively in the US from SINC Thermal, the Freedom® shaft melting furnace features patented non-ferrous melting and holding technology proven superior in more than 150 installations around the world.



The use of a stoichiometric burner controls within a sealed chamber for holding melted aluminum enhances the efficiency of the process in multiple ways. It ensures energy is utilized optimally, maintains the quality of the aluminum, reduces environmental impact, and provides a safer working environment.



SINC Thermal, a leader in the design and manufacture of industrial furnaces for aluminum processing, is excited to announce the addition of JJ Tikusis to its team as a Technical Sales expert. With an extensive background of nearly 12 years specializing in aluminum processing furnaces, from melting to dosing, Tikusis brings a wealth of expertise and knowledge to the company.



In an industry where innovation must answer to sustainability, aluminum die casting operations are continuously pushed towards greater efficiency and reduced environmental impact. Amidst this evolving landscape, SINC Thermal continues to focus on new, groundbreaking furnace technologies: Freedom, Jet Melter, and Infinity Shaft Melters. These aren’t just innovations; they’re transformative tools that redefine energy efficiency in die casting. These tools outperform traditional systems, especially alongside strategic energy management practices, where they help achieve unparalleled operational excellence.



In a saturated business landscape, companies often explore complex strategies to gain a competitive advantage in their industries. The foundry business is no stranger to this phenomenon. However, there’s a distinction that sets the leading foundries apart from the rest: they excel in performing the basic tasks efficiently without compromising on quality. These companies refrain from overcomplicating their processes and instead emphasize the importance of doing the ‘simple things’ right from the start.