Abstract
Material jetting (MJT) is a category of additive manufacturing processes where the build material is deposited in the form of individual droplets. MJT has recently been expanded into the field of metal processing due to a potentially high printing speed at low equipment and raw material cost. For full 3D capability, support structures are needed that have to be removed after the print job. We examine water soluble salts and suitable nozzle materials to realise the printing of molten salt in a MJT process. Here, the wetting characteristics of the melt and nozzle are crucial because pronounced wetting is problematic for the ejection of droplets. A sessile-drop contact angle test stand was set up to evaluate the wetting characteristics of three salts or salt mixtures (NaCl, KCl–NaCl and NaCl–{hbox {Na}_{2}hbox {CO}_{3}}) on six different nozzle materials (various ceramics and graphite), i.e. potential nozzle materials. The results indicate a high wetting tendency of most of the examined samples with the exception of KCl-NaCl on graphite. Application of these materials on a MJT test stand confirm the feasibility of our findings.
Highlights
Industry has many demands on production technologies: low cost, high volume, high possible part complexity and short time from idea to production, just to name a few
Many salt-substrate pairs show very good wetting with barely observable contact angles θ < 5◦
The highest contact angle in all samples and poor wetting was observed for KCl–NaCl on GR ( = 75◦∕87◦ )
Summary
Industry has many demands on production technologies: low cost, high volume, high possible part complexity and short time from idea to production, just to name a few. If the latter two are the priority, additive manufacturing (AM) techniques offer many advantages compared to conventional production technologies. Many different AM processes have been developed in the last few decades and the processable materials are increasing rapidly. A selection of polymers, metals, ceramics and composite materials can be processed additively [1]. In the world of metal AM, the powder bed fusion processes have gained a lot of attention. Metal powder is selectively melted with lasers or electron beams to create three
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