Your search keyword '"čelici za poboljšavanje"' showing total 3 results

1. PRISTUP ODREĐIVANJU ZAVARLJIVOSTI ČELIKA.

Author

Dunđer, Marko, Salopek, Goran, Horvat, Marko, Kondić, Veljko, and Marković, Matija

Abstract

Copyright of Technical Journal / Tehnički Glasnik is the property of Polytechnic of Varazdin and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

2. Pristup određivanju zavarljivosti čelika

Author

Marko Dunđer, Goran Salopek, Marko Horvat, and Matija Marković

Subjects

zavarljivost, hladne pukotine, Implant metoda, Tekken metoda, mikrolegirani čelici, čelici za poboljšavanje, weldability, cold cracks, implant method, Tekken method, fine grain structural steel, steels for structural improvement quenching

Abstract

U radu su prikazani čimbenici koji utječu na zavarljivost, s posebnim osvrtom na zavarljivost mikrolegiranih čelika i čelika za poboljšavanje. Provedena su ispitivanja simulacijom toplinskog zavarivačkog ciklusa na simulatoru tipa Smitweld TCS 1405, te metodama Implant i Tekken u svrhu utvrđivanja sklonosti mikrolegiranih i poboljšanih čelika hladnim pukotinama. Na koncu su predloženi parametri zavarivanja koji pretpostavljaju zavareni spoj bez hladnih pukotina., The paper presents the factors that affect weldability, with special reference to the weldability of micro-alloyed and quenched and tempered steel. Tests were carried out by simulating the weld thermal cycle simulator type Smitweld TCS 1405, and methods of Implant and Tekken for the purpose of determining the propensity of micro-alloyed and quenched and tempered steel cold cracking. At the end of the proposed welding parameters which assume welding connection without cold cracks.

Published

2015

3. Optimiranje parametara laserskog zavarivanja čelika za poboljšavanje

Author

Bauer, Branko and Kralj, Slobodan

Subjects

welding, YAG laser [Nd], heat-treatable steel, Strojarstvo. Nuklearna tehnika. Strojevi, Nd:YAG laser, zavarivanje, čelici za poboljšavanje, zavareni spoj, zaštitni plin, zavarljivost, kvaliteta, mehanička svojstva, udc:621(043.3), quality, TEHNIČKE ZNANOSTI. Strojarstvo, shielding gas, machanical properties, welded joint, Mechanical engineering. Nuclear technology. Machinery, TECHNICAL SCIENCES. Mechanical Engineering, weldability

Abstract

Ispitivanjem spojeva zavarenih laserom na čeliku s povećanim sadržajem ugljika otkriveno je da upotreba aktivnih zaštitnih plinskih mješavina ne djeluje bezuvjetno negativno na mehanička svojstva zavarenog spoja. U ovom radu obrađeno je istraživanje utjecaja vrste aktivne plinske mješavine na bazi argona s dodatkom kisika i/ili CO2 na geometriju i mehanička svojstva zavarenog spoja. U uvodnom dijelu rada, na temelju literaturnih podataka obrađene su fizikalne osnove i tehnologija laserskog zavarivanja. Obrađeni su utjecajni čimbenici na proces zavarivanja odnosno kvalitetu zavarenog spoja. \Navedene su metode kontrole kvalitete kod laserskog zavarivanja. Obrađena je prikladnost čelika za zavarivanje laserom. U eksperimentalnom dijelu, zavarivani su limovi od čelika za poboljšavanje 25 CrMo 4, 42 CrMo 4 i Ck 60 (DIN EN 10083-1). Debljina limova iznosila je 2 mm. Zavarivan je sučeljeni spoj. Zavarivanje je izvedeno pomoću cw Nd:YAG lasera srednje snage 2000 W, s vođenjem snopa pomoću optičkog vlakna promjera 600 μm i fokusne optike 120/120 mm koja omogućuje fokusiranje snopa na točku promjera 0,6 mm. Zaštitne plinske mješavine dovođene su kroz koaksijalnu sapnicu promjera 5 mm. Relativno gibanje izvođeno je pomoću robota "IGM limat RT 280-6". Namještena snaga iznosila je 1800 W, a gustoća snage 6,4•105 W/cm2. Pokusi su provedeni prema modelu pokusa s mješavinama. Zavari su ispitivani vizualnom i radiografskom metodom, izmjerene su geometrijske značajke zavarenog spoja, ispitivana je tvrdoća, čvrstoća, deformabilnost, žilavost, i dinamička izdržljivost. Provedena je statistička obrada rezultata mjerenja i matematičko modeliranje metodom odzivnih površina. Provedeno je ocjenjivanje kvalitete zavarenih spojeva prema HRN EN ISO 13919-1. Dobiveni su zavari visoke kvalitete, bez pojave pukotina. Dobiven je značajan utjecaj zaštitnih plinskih mješavina na geometrijski oblik zavarenog spoja, dok utjecaj na brzinu zavarivanja nije značajan. Utjecaj aktivnih plinskih mješavina na promjenu mehaničkih svojstava zavarenog spoja također se nije pokazao značajnim. Izuzetak je dinamička izdržljivost, gdje je dobiveno značajno poboljšanje s mješavinama Ar/O2 i Ar/CO2/O2 koje Testing of laser welded joints made in steel grades containing increased content of carbon revealed that the use of active shielding gas mixtures does not necessarily have harmful effect on mechanical properties of the welded joint. This thesis studies the effects of the type of active shielding gas mixtures based on argon with additions of oxygen and/or carbon dioxide upon the geometry and mechanical properties of the welded joint. In the introduction, based on literature data, the physical bases and the laser welding technology have been discussed. Factors affecting the welding process and the quality of the welded joint have been studied. The methods used in the quality control during laser welding have been mentioned. Also, the laser weldability of steels has been discussed. In the experimental part, the heat-treatable steels of grade 25 CrMo 4, 42 CrMo 4 and Ck 60 (DIN EN 10083-1) have been welded. The sheets of 2 mm thickness have been used. Joint configuration was of butt design, and welding was done by applying cw Nd:YAG laser unit rated at 2000 W of mean power, with laser beam guidance by means of optic fiber of 0.6 mm in diameter, applying focusing optics 120/120 mm that allows beam focusing to 0.6 mm spot. Shielding mixtures were supplied through 5 mm dia. coaxial nozzle. The relative movement of the welding head was performed by "IGM limat RT 280-6" robot. The rated power was set at 1800 W level, at power density of 6.4•105 W/cm2. Trial welding was carried out according to the experimental model with mixtures. The welded joints were inspected visually and tested by applying radiographic method. The geometric features of the joint were measured. Hardness, tensile strength, deformability, impact toughness and dynamic strength were tested as well. The obtained data were statistically processed, and mathematical modeling applying the method of response surfaces was carried out. The quality of the welded joints was assessed by applying the HRN EN ISO 13919-1 standard. The produced welds were of high quality, without occurrence of cracks. The analysis revealed a significant impact of the shielding gas mixtures upon the geometric shape of the joint, whereas the effect on the welding speed was not significant. Neither was the effect of shielding mixtures upon mechanical properties of the joint significant. The exception was recorded for dynamic strength, where significant improvement was achieved when the mixtures Ar/O2 and Ar/CO2/O2 enabling root shape with reduced notch effect were applied. daju oblik korijena zavara s manjim zareznim djelovanjem.

Published

2006