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Izdelava naprave za spremljanje obrabe šobe pri obdelavi z AVC
ID Prijatelj, Miha (Author), ID Lebar, Andrej (Mentor) More about this mentor... This link opens in a new window, ID Valentinčič, Joško (Comentor)

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PID: 20.500.12556/rul/69e279fd-d43f-42f9-b9b4-4e633ceb0a0e

Abstract
Tehnologija obdelave z abrazivnim vodnim curkom (AVC) omogoča rezanje praktično vseh vrst materialov, vendar je omejena z relativno slabo natančnostjo. Izvor slabe natančnosti leži v nedefinirani geometriji rezalnega orodja in postopni obrabi fokusirne šobe. Z naraščanjem obrabe fokusirne šobe se premer curka postopno povečuje, kar vodi do povečanja širine reza in zmanjšanja natančnosti. V industriji trenutno še ni naprave, ki bi omogočala spremljanje obrabe fokusirne šobe. Magistrsko delo obravnava razvoj prototipa za merjenje obrabe fokusirne šobe in določanje odmika rezalne glave od konture reza (ang. offset), za doseganje pravilnih dimenzij obdelovanca. Merjenje obrabe šobe je potekalo z merjenjem premera in divergenca AVC z linijskim laserjem. Nastanek in geometrijske lastnosti AVC so zelo odvisne od notranje geometrije fokusirne šobe, zato lahko z merjenjem geometrije curka sklepamo o stanju šobe. Eksperimenti so bili izvedeni s petimi različno obrabljenimi fokusirnimi šobami, pri različnih vodnih tlakih, z in brez abraziva, pri različnih časih merjenja in na različnih oddaljenostih od fokusirne šobe. Za določanje pravilnega odmika smo preverili kako se širina reza spreminja z različno obrabljenimi fokusirnimi šobami, v kombinaciji z različnimi materiali. Metoda merjenja z uporabo linijskega laserja na podlagi katerega je izdelan merilnik, omogoča nadzor obrabe fokusirne šobe in nastavitev pravilnega odmika, pred začetkom vsake obdelave.

Language:Slovenian
Keywords:abrazivni vodni curek, obraba fokusirne šobe, premer curka, natančnost reza
Work type:Master's thesis/paper
Organization:FS - Faculty of Mechanical Engineering
Year:2017
PID:20.500.12556/RUL-97613 This link opens in a new window
Publication date in RUL:29.10.2017
Views:2280
Downloads:643
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Secondary language

Language:English
Title:Instrument for monitoring focusing nozzle wear at abrasive water jet cutting
Abstract:
Abrasive water jet cutting (AWJ) is a very versatile technology, but it is limited by a relative poor accuracy. Source of relative poor accuracy lies the geometrically non-defined and flexible tool and gradual focusing nozzle wear. As focusing nozzle diameter increases, the AWJ diameter and kerf also increase, which reduces accuracy of the cut. There is currently no device on the market that would enable monitoring focusing nozzle wear. Master’s thesis investigates the development of a prototype used for monitoring focusing nozzle wear and setting the correct offset in order to achieve desired tolerances. Measuring focusing nozzle wear was achieved by measuring AWJ diameter and rate of jet disintegration with through beam laser sensor. Since formation and geometrical properties of AWJ and greatly dependant on inner geometry of focusing nozzle, focusing nozzle wear can be determined by measuring jet geometry. Experiments were conducted using five differently worn nozzles at different water pressures, with and without abrasive, at different lengths of measurement time and at different standoff distances. To determine the correct offset, kerf was measured on different test cuts. Test cuts were done using five differently worn nozzles with different cut materials. Result of master’s thesis is a device that is capable of monitoring focusing nozzle wear and setting the correct offset before or after every operation.

Keywords:abrasive water jet, focusing nozzle wear, jet diameter, cutting accuracy

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