Development of a high-resolution open source 3D printer:
In this article we discuss about the project of development of a high resolution open source 3 D printer. We can take this project as MS thesis. In this project our main aim is to develop the high resolution in 3D image printing. In the 3D images there are many possible good ways to show your image more correctly. In the 3D printing there is more freedom to us to show our image more accurately and more flexible. There are three types of technique involve in the 3D printing.
In the 3D printer we use the projector in it. The purpose of this projector in the 3D printer is to check every layer very carefully and focus on small thing also. In this, there is high content of UV, high intensity of light and the high resolution. As this printer should have some qualities in it. It should be affordable, it has open source, it is compact, and it has high resolution, it is of easy to use, it has fast speed of printing. This projector is at angle of 90 degree. In it we use the surface mirror the surface mirror which is used to project the image accurately. In it , 2mm thickness of plate that are the aluminum plates which are fixed on the back bone which support beamer of printer. It has the setup of mirror in it. There is the build tray in it. It has the general principles in the 3 D printer. They are modeling, printing and finishing. In modeling, 3 D printer can crated with the CAD package where CAD stands for computer aided design with help of 3 D scanner that scans the images or we can use the camera in it, and software of photogrammetry. 3D models make with computer aided design results. The other principle is the printing principle. Firstly it will be check for the errors before it print. Many of times the computer aided design software produce any errors in the file of STL. The errors which are mostly point out by the computer aided design software are as follow. These are the errors of design, noise shells and self-intersections errors in it. Then this step is call repair step. In this step the original image is fixed by us and then we should remove the errors from it. When our one STL file is being created and then it being fixed then this file needs to process by the software and the name of that software is the slicer software. The purpose of that software is to convert the model of image in the series of different thin layers. After this process a code which is name as G code is created. Where G code contains the instructions that are tell to the specific type of printer to print the 3 D images. As this article is very useful to you and the topic of this article is very interesting if you select this topic for your thesis.