Abstract [eng] |
Master's thesis delves into the ceramic material 3D printing technologies in order to offer a new con-cept of 3D printing. . The theoretical part presents the ceramics materials, classification, and their properties. Ac-cording to foreign sources and literature, the most important distinction ceramic techniques. The ex-ploratory part, according to foreign authors study, conducted experiments to investigate the produc-tion of ceramic materials manufacturing technology. Also analyzed their printing capabilities in order to offer new printing concept. Selecting certain testing methods clarified that mixing CZR ceramic slurry, we have very little time to spray because the deposition rate is very high. CZR ceramic slurry sedimentation rate is not or very little dependent on the vessel in which it is mixed is closed or not. Also CZR ceramic slur-ry cannot spray, because we cannot maintain a constant suspension consistency throughout the pro-cess. Also, tests have shown that the piezoelectric pump is not suitable for spraying the bonding material for lack of adequate pressure. Eccentric pump for pumping fluid at a sufficiently high pres-sure, the intensity can be adjusted by changing the voltage. For measuring the mass by spraying ma-trix material in three different nozzles with a diameter of 583 micrometers, 404 micrometers, 254 mi-crometers. The work shows that the chances of a new concept of 3D printing to occur. However, to achieve this need to carry out more extensive and deeper testing and analysis. |