Hybrid additive manufacture of 316L stainless steel with cold spray and selective laser melting: microstructure, mechanical properties and case study

A hybrid additive manufacturing process combining selective laser melting (SLM) and cold spraying (CS) was proposed for the production of 316L stainless steel components. The underlying principle of the hybrid additive manufacturing is to use CS to deposit a 316L stainless steel structure onto an SLM 316L stainless steel component, followed by heat treatment and finish machining. In the as-fabricated state, the CS part has a dendritic structure similar to the feedstock, while the SLM part is characterised by cellular subgrains confined in coarse grain structures. Due to recrystallisation after heat treatment, the definition of interparticle boundaries diminished, equiaxed coarse grains and twinning were formed, and the extremely fine cellular subgrains vanishes in the SLM part. Due to the ‘fusion’ nature of the process, the SLM sample delivered improved mechanical properties than the CS sample, even after heat treatment of the CS sample which can significantly improv its mechanical properties. Heat treatment also improves the interfacial bond strength between the CS part and SLM part due to enhanced atomic diffusion. The case study demonstrates that the proposed hybrid additive manufacturing is a promising technique for the manufacture of free-standing components, modification of fabricated components and the repair of damaged components.