Improvement of FDM 3D Printer
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Date
2017-6-14
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Abstract
This thesis deals with designing a compact head for 3D printing using Fused Deposition Modelling (FDM), which is registered by Stratasys. This technology is based on extrusion process, which is very popular and same as RepRap community. The main aim is to design a print head with available basic components for printing two different materials. The printing head should control the extrusion process for each material separately. It also has the possibilities to switch nozzles with various diameters. The entire structure of the head should be compact in size and light in weight for easy installation for the 3D printer
This thesis deals with designing a compact head for 3D printing using Fused Deposition Modelling (FDM), which is registered by Stratasys. This technology is based on extrusion process, which is very popular and same as RepRap community. The main aim is to design a print head with available basic components for printing two different materials. The printing head should control the extrusion process for each material separately. It also has the possibilities to switch nozzles with various diameters. The entire structure of the head should be compact in size and light in weight for easy installation for the 3D printer
This thesis deals with designing a compact head for 3D printing using Fused Deposition Modelling (FDM), which is registered by Stratasys. This technology is based on extrusion process, which is very popular and same as RepRap community. The main aim is to design a print head with available basic components for printing two different materials. The printing head should control the extrusion process for each material separately. It also has the possibilities to switch nozzles with various diameters. The entire structure of the head should be compact in size and light in weight for easy installation for the 3D printer
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FDM, 3D printing, dual head, design, RepRap, FDM, 3D printing, dual head, design, RepRap