Abstract
3D printing (additive manufacturing) is an emerging technology with the ability to make complex, free-form shapes from materials including plastics, metals and ceramics. While additive manufacturing has many advantages over more traditional processes, it can be difficult to control, which can then lead to defects in the finished part. Closed-loop control is a key part of most modern manufacturing and household processes, improving efficiency and reducing variation. Machine learning is an extension of this, where the controller learns how changes in the input variables affect the output. Here we provide an overview of the different types of metal additive manufacturing processes, and their relative strengths and weaknesses. We also describe how closed-loop control and thermal cameras are being used to improve these processes. Finally, we provide a link to a free-to-download app which allows students to control their own simulation of an additive manufacturing build, and see first-hand the need for control algorithms. Pseudo-code is provided in an appendix to help students who wish to take this further by building their own control algorithms.
Highlights
Introduction to additive manufacturingAlloy wheels are made by either forging or casting to an approximate shape, and machining down to the inished size [1, 2]
We provide an overview of the different types of metal additive manufacturing processes, and their relative strengths and weaknesses
We provide a link to a free-to-download app which allows students to control their own simulation of an additive manufacturing build, and see irst-hand the need for control algorithms
Summary
Alloy wheels are made by either forging or casting to an approximate shape, and machining down to the inished size [1, 2]. The concept of additive, rather than subtractive, manufacturing emerged in the early 1980’s with the development of systems that used ultraviolet light to cure and harden a photosensitive polymer, building up a part layer-by-layer [3] These evolved to the desktop polymer 3D printers that are widely available today; instead of using photosensitive polymer, these use a thermoplastic polymer ilament that is fed into a heated nozzle and melted and the molten polymer is squirted out. These work on a layer-bylayer concept, allowing complex geometries to be achieved including re-entrant and articulated features. Depending on the process and the geometry, a build can take as little as a few minutes or up to a full day
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
