The Additive Manufacturer Green Trade Association (AMGTA), a global advocacy group focused on promoting sustainable additive manufacturing (AM) industry practices, announced today the preliminary results of a life-cycle analysis study titled “Comparative Life-Cycle Assessment: Comparison of Casting vs Binder Jetting for an Industrial Part.” The study, commissioned by the AMGTA and conducted by the Yale School of the Environment (YSE) in partnership with Desktop Metal, a global leader in AM technologies for mass production, and Trane Technologies, a global climate innovator, analyzed a steel scroll chiller in an HVAC system from Trane to determine the comparative manufacturing impact of binder jet 3D printing versus traditional metal casting. The preliminary results confirmed a dramatic 38 percent reduction in greenhouse gas (GHG) emissions through the binder jetting process primarily driven by reduced energy demand during the production phase.
The Production System P-50 is designed to be the fastest way to 3D print metal parts at-scale. Powered by Desktop Metal's Single Pass Jetting technology, the P-50 can achieve speeds up to 100 times those of legacy powder bed fusion additive manufacturing technologies and enable production quantities of up to millions of parts per year at costs competitive with conventional mass production techniques.