Innovation in composite additive manufacturing
Abstract: This master thesis contains an overview of existing additive manufacturing methods and considers possible new methods. The purpose being to develop a method for additive manufacturing that can create 3D objects with composite material and/or out of metal. Further this method should work on a low cost additive manufacturing machine. A development process is used in order to select an appropriate method. The method is then divided into parts that are individually analysed in order to produce a proof of concept model. Initially an overview of existing patents regarding additive manufacturing was conducted in order to see if the devised problem was addressed and how. A patent search regarding both additive manufacturing of composites and of metallic objects was performed. The next phase was conducting a market overview of existing low cost 3D printers and selecting one model that was appropriate for purchase. The purchased 3D printer was then assembled and tested to build up a general experience of properties and limitations of low cost printers. These properties regard both control parameters, mechanical properties (such as eigen frequencies, resolution) and print limitations (typical errors, materials etc.). Concept generation took place by brainstorming a wide range of possible ideas to address the project goal. Existing manufacturing methods and processes that inspired the concepts are described in the theory. The final concept was selected by a process of first concept screening followed by concept scoring and selection. After screening the bulk of four concepts remained. One mainly addressed the goal of manufacturing metallic parts and the others composites. Further literary study of material properties and manufacturing processes relevant to these methods was conducted for the scoring step. Also appropriate retailers of materials and parts and machines were contacted for relevant cost information. The selected concept uses photopolymers cured by UV radiation. In order to finalise the proof of concept a print head was constructed and several tests were conducted in order to observe possible fill rates and required radiation levels in order to achieve a required flow rate and curing times respectively. Finally suggestions for further development and studies is summarised.
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