diplomsko delo
Sebastjan Vogrinčič (Author), Riko Šafarič (Mentor), Karl Gotlih (Mentor), Suzana Uran (Co-mentor)

Abstract

V diplomski nalogi je opisano načrtovanje in izdelava naprave, ki smo jo implementirali v nanopreciznem robotskem sistemu, z namenom obdelave stekla v mikro merilu. Elektroerozijska obdelava z raztapljanjem je eden od postopkov za mikro obdelavo neprevodnih materialov, kot je steklo. Osnovna ideja je ustvariti iskre, s povečanjem napetosti nad kritično vrednostjo v elektrokemični celici, ki lahko nato strojno obdelajo neprevodni material. Napravo za mikro erozijo stekla sestavljajo obdelovalna glava, potopni bazen, elektrolit, elektrodi in napajalnik. Z napravo smo izvedli več poskusov, kot je izdelava nekaj 100 mikrometrskih lukenj v steklenem vzorcu, vodenje delovne elektrode z nanorobotom in poskusi z zelo tankim orodjem, premera 90 μm.

Keywords

načrtovanje;mikro erozija;steklo;nanoroboti;diplomske naloge;

Data

Language: Slovenian
Year of publishing:
Typology: 2.11 - Undergraduate Thesis
Organization: UM FERI - Faculty of Electrical Engineering and Computer Science
Publisher: [S. Vogrinčič]
UDC: 007.52:621.9.048(043.2)
COBISS: 43137539 Link will open in a new window
Views: 319
Downloads: 42
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Other data

Secondary language: English
Secondary title: Designing the device for electrochemical discharge micromachining of glass
Secondary abstract: The diploma thesis describes the design and the manufacture of a device that is implemented in a nanoprecise robotic system for the purpose of machining glass on a micro scale. Electrochemical discharge machining is one of the procedures for micromachining of non-conductive materials such as glass. The basic idea is to create sparks, by increasing the voltage above the critical value in the electrochemical cell, which can then machine the non-conductive material. The device for micromachining of glass consists of a machining head, a processing cell, an electrolyte, electrodes and a power supply. Several experiments were performed with the device, such as making a few 100 micrometer holes in a glass sample, guiding the tool-electrode with a nanorobot, and experiments with a very thin tool, 90 μm in diameter.
Secondary keywords: designing;micromachining;glass;nanorobot;
Type (COBISS): Bachelor thesis/paper
Thesis comment: Univ. v Mariboru, Fak. za elektrotehniko, računalništvo in informatiko, Mehatronika
Pages: IX, 37 f.
ID: 11977492