| Autor: |
GOLOBORODKO, Zh. G., DRAGAN, S. V., SIMUTENKOV, I. V. |
| Předmět: |
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| Zdroj: |
Paton Welding Journal; Jun2013, Issue 6, p34-37, 4p |
| Abstrakt: |
Transverse oscillations of the electrode in automatic submerged arc surfacing are one of the ways of decrease in penetration depth and share of base metal in deposited one. These oscillations can be created by generating of high-frequency transverse pulsed movements of electrode wire using a specially designed electromechanical generator. The aim of this work is to evaluate the effect of high-frequency low-amplitude transverse pulsed movements of electrode wire on geometry of deposited bead and efficiency of the surfacing process. Deposition of beads was made on plates of low-carbon structural steel with electrode wire Sv-0.8A of 2 mm diameter under flux AN-348A. The pulsed electrode movements at 0.25--5 kHz frequency were generated along the surfacing direction. It was found that with increase in frequency the penetration depth of base metal and bead width are decreased, while the height of bead is increased, in addition the surfacing efficiency is also changed. The nature of change in the mentioned parameters depends on mode of pulsed effect on electrode wire, i.e. the presence or absence of resonance. The most significant change in geometry of the deposited bead is observed in the region of frequencies of the first resonance (0.55--0.75 kHz), namely depth of penetration and share of base metal in deposited one is 3 times decreased. The maximum increase in efficiency is occurred in the region of the second resonance (3.75--3.85 kHz), the coefficient of electrode melting is increased by 10--20 % as compared with surfacing without a pulsed effect. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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